Classification | International Glaucoma Review #

List of abstracts related to

76600 Low nocturnal diastolic ocular perfusion pressure as a risk factor for NTG progression: a 5-year prospective study
Raman P; Suliman NB; Zahari M; Kook M; Ramli N
Eye 2018; 32: 1183-1189

Listed by Classification

9.2.4 Normal pressure glaucoma (2408 abstracts found)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Liu X
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94934 Sovesudil (locally acting rho kinase inhibitor) for the treatment of normal-tension glaucoma: the randomized phase II study
Ha A
Acta Ophthalmologica 2022; 100: e470-e477 (IGR: 22-2)

94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Choung HK
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)

94534 Association of ocular blood flow and contrast sensitivity in normal tension glaucoma
Kuerten D
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2251-2257 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Kim JM
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94261 Comparison of Superior and Inferior Visual Field Asymmetry Between Normal-tension and High-tension Glaucoma
Park IK
Journal of Glaucoma 2021; 30: 648-655 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Jiang J
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Hu X
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Lee SY
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94261 Comparison of Superior and Inferior Visual Field Asymmetry Between Normal-tension and High-tension Glaucoma
Kim KW
Journal of Glaucoma 2021; 30: 648-655 (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Wang Q
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Wang X
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Son NH
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Ye C
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94934 Sovesudil (locally acting rho kinase inhibitor) for the treatment of normal-tension glaucoma: the randomized phase II study
Kim YK
Acta Ophthalmologica 2022; 100: e470-e477 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Sung KR
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Kim M
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)

94534 Association of ocular blood flow and contrast sensitivity in normal tension glaucoma
Fuest M
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2251-2257 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Kim HK
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Oh S
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)

94261 Comparison of Superior and Inferior Visual Field Asymmetry Between Normal-tension and High-tension Glaucoma
Moon NJ
Journal of Glaucoma 2021; 30: 648-655 (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Shao Z
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Zhang C
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94534 Association of ocular blood flow and contrast sensitivity in normal tension glaucoma
Walter P
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2251-2257 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Dai Y
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Bae HW
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94934 Sovesudil (locally acting rho kinase inhibitor) for the treatment of normal-tension glaucoma: the randomized phase II study
Jeoung JW; Satyal S
Acta Ophthalmologica 2022; 100: e470-e477 (IGR: 22-2)

94534 Association of ocular blood flow and contrast sensitivity in normal tension glaucoma
Mazinani B
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2251-2257 (IGR: 22-2)

94261 Comparison of Superior and Inferior Visual Field Asymmetry Between Normal-tension and High-tension Glaucoma
Shin JH
Journal of Glaucoma 2021; 30: 648-655 (IGR: 22-2)

94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Lee KM
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Seong GJ
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Zhang S
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Ye W
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Park SW
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Qiu C
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Lee EJ
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Hou M
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Kim CY
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Wang X
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94261 Comparison of Superior and Inferior Visual Field Asymmetry Between Normal-tension and High-tension Glaucoma
Chun YS
Journal of Glaucoma 2021; 30: 648-655 (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Hou M
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Shang K
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Kim SH
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)

94534 Association of ocular blood flow and contrast sensitivity in normal tension glaucoma
Plange N
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2251-2257 (IGR: 22-2)

94934 Sovesudil (locally acting rho kinase inhibitor) for the treatment of normal-tension glaucoma: the randomized phase II study
Kim J
Acta Ophthalmologica 2022; 100: e470-e477 (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Jiang M
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Sun X
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94934 Sovesudil (locally acting rho kinase inhibitor) for the treatment of normal-tension glaucoma: the randomized phase II study
Kim S
Acta Ophthalmologica 2022; 100: e470-e477 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Shang X
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Jeoung JW
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Xu X
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Park HL
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94934 Sovesudil (locally acting rho kinase inhibitor) for the treatment of normal-tension glaucoma: the randomized phase II study
Park KH
Acta Ophthalmologica 2022; 100: e470-e477 (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Du M; Li J
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Ahn J
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Zhang H
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Yoo C
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94895 Proteomic analysis of aged and OPTN E50K retina in the development of normal tension glaucoma
Yuan H
Human Molecular Genetics 2021; 30: 1030-1044 (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Zhang S; Zheng J
Scientific reports 2021; 11: 11674 (IGR: 22-2)

94927 Long-Term Effectiveness and Safety of Tafluprost, Travoprost, and Latanoprost in Korean Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma: A Multicenter Retrospective Cohort Study (LOTUS Study)
Kim CY
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94710 Intraocular asymmetry of visual field defects in primary angle-closure glaucoma, high-tension glaucoma, and normal-tension glaucoma in a Chinese population
Zuo J; Hu J; Congdon N; Lu F; Liang Y
Scientific reports 2021; 11: 11674 (IGR: 22-2)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Li HL
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Tan BH
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Chang EK
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Mullany S
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92583 Efficacy and safety of fixed-combination brimonidine tartrate/timolol maleate in primary open-angle glaucoma, including normal-tension glaucoma
Park SW
Japanese Journal of Ophthalmology 2021; 65: 295-305 (IGR: 22-1)

92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Krzyżanowska-Berkowska P
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)

92445 Comparing Healthcare Resource Utilization and Costs for Patients with Normal Tension Glaucoma Across Levels of Severity: A Retrospective Cohort Study
Beal B
Clinical Ophthalmology 2021; 15: 453-460 (IGR: 22-1)

92185 Serological Levels of Anti-clathrin Antibodies Are Decreased in Patients With Pseudoexfoliation Glaucoma
Beutgen VM
Frontiers in immunology 2021; 12: 616421 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Ballae Ganeshrao S
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Chang EK
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Wei YH
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92479 Optical Coherence Tomography Angiography Vessel Density Changes in Normal-tension Glaucoma Treated with Carteolol, Brimonidine, or Dorzolamide
Lin YH
Journal of Glaucoma 2021; 30: 690-696 (IGR: 22-1)

92185 Serological Levels of Anti-clathrin Antibodies Are Decreased in Patients With Pseudoexfoliation Glaucoma
Beutgen VM
Frontiers in immunology 2021; 12: 616421 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wang YM
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Hamarat Y
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Nam JW
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Kim EW
Eye 2021; 35: 536-543 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Bhalla M
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92453 Intereye Comparison of the Characteristics of the Peripapillary Choroid in Patients with Unilateral Normal-Tension Glaucoma
Kim JA
Ophthalmology. Glaucoma 2021; 4: 512-521 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Nakajima K
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Jaleel A
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Heisler M
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92479 Optical Coherence Tomography Angiography Vessel Density Changes in Normal-tension Glaucoma Treated with Carteolol, Brimonidine, or Dorzolamide
Su WW
Journal of Glaucoma 2021; 30: 690-696 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Cai Y
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Gupta S
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92445 Comparing Healthcare Resource Utilization and Costs for Patients with Normal Tension Glaucoma Across Levels of Severity: A Retrospective Cohort Study
Shih V
Clinical Ophthalmology 2021; 15: 453-460 (IGR: 22-1)

92453 Intereye Comparison of the Characteristics of the Peripapillary Choroid in Patients with Unilateral Normal-Tension Glaucoma
Son DH
Ophthalmology. Glaucoma 2021; 4: 512-521 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Bartusis L
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Xiao L
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Sakata R
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Young A
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Hui VWK
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Chou XM
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92583 Efficacy and safety of fixed-combination brimonidine tartrate/timolol maleate in primary open-angle glaucoma, including normal-tension glaucoma
Kim JM
Japanese Journal of Ophthalmology 2021; 65: 295-305 (IGR: 22-1)

92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Czajor K
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)

92185 Serological Levels of Anti-clathrin Antibodies Are Decreased in Patients With Pseudoexfoliation Glaucoma
Pfeiffer N
Frontiers in immunology 2021; 12: 616421 (IGR: 22-1)

92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Kang YS
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Park HS
Eye 2021; 35: 536-543 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Bianchi E
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Chachanidze M
Scientific reports 2021; 11: 8910 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Liang Y
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92453 Intereye Comparison of the Characteristics of the Peripapillary Choroid in Patients with Unilateral Normal-Tension Glaucoma
Lee EJ
Ophthalmology. Glaucoma 2021; 4: 512-521 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Choy BNK
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Shi J
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92185 Serological Levels of Anti-clathrin Antibodies Are Decreased in Patients With Pseudoexfoliation Glaucoma
Grus FH
Frontiers in immunology 2021; 12: 616421 (IGR: 22-1)

92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Sung MS
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)

92479 Optical Coherence Tomography Angiography Vessel Density Changes in Normal-tension Glaucoma Treated with Carteolol, Brimonidine, or Dorzolamide
Huang SM
Journal of Glaucoma 2021; 30: 690-696 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Mammo Z
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Madicharla S
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Iskander DR
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)

92583 Efficacy and safety of fixed-combination brimonidine tartrate/timolol maleate in primary open-angle glaucoma, including normal-tension glaucoma
Lee JW
Japanese Journal of Ophthalmology 2021; 65: 295-305 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Choi W
Eye 2021; 35: 536-543 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Ueda K
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Chachanidze M
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Qassim A
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92445 Comparing Healthcare Resource Utilization and Costs for Patients with Normal Tension Glaucoma Across Levels of Severity: A Retrospective Cohort Study
Campbell J
Clinical Ophthalmology 2021; 15: 453-460 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Deimantavicius M
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92445 Comparing Healthcare Resource Utilization and Costs for Patients with Normal Tension Glaucoma Across Levels of Severity: A Retrospective Cohort Study
Veenstra D
Clinical Ophthalmology 2021; 15: 453-460 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Marshall H
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wong MOM
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Ju MJ
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Lee K
Eye 2021; 35: 536-543 (IGR: 22-1)

92583 Efficacy and safety of fixed-combination brimonidine tartrate/timolol maleate in primary open-angle glaucoma, including normal-tension glaucoma
Maglambayan J
Japanese Journal of Ophthalmology 2021; 65: 295-305 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wong MOM
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Pan T
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Fujita A
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

92453 Intereye Comparison of the Characteristics of the Peripapillary Choroid in Patients with Unilateral Normal-Tension Glaucoma
Kim H
Ophthalmology. Glaucoma 2021; 4: 512-521 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Li BB
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Brown L
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Park SW
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Kavya Sri V
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92479 Optical Coherence Tomography Angiography Vessel Density Changes in Normal-tension Glaucoma Treated with Carteolol, Brimonidine, or Dorzolamide
Chuang LH
Journal of Glaucoma 2021; 30: 690-696 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Lucinskas P
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Hall N
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Fujishiro T
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Zakir J
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Siaudvytyte L
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Tatham AJ
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Zhou Q
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92445 Comparing Healthcare Resource Utilization and Costs for Patients with Normal Tension Glaucoma Across Levels of Severity: A Retrospective Cohort Study
Devine B
Clinical Ophthalmology 2021; 15: 453-460 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Chang TC
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Li RS
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Sarunic MV
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Gharahkhani P
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92453 Intereye Comparison of the Characteristics of the Peripapillary Choroid in Patients with Unilateral Normal-Tension Glaucoma
Kim TW
Ophthalmology. Glaucoma 2021; 4: 512-521 (IGR: 22-1)

92583 Efficacy and safety of fixed-combination brimonidine tartrate/timolol maleate in primary open-angle glaucoma, including normal-tension glaucoma
Simonyi S
Japanese Journal of Ophthalmology 2021; 65: 295-305 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Lee SY
Eye 2021; 35: 536-543 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Chan PP
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92479 Optical Coherence Tomography Angiography Vessel Density Changes in Normal-tension Glaucoma Treated with Carteolol, Brimonidine, or Dorzolamide
Chen LC
Journal of Glaucoma 2021; 30: 690-696 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Honjo M
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Navajas EV
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Macgregor S
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Solá-Del Valle D
Scientific reports 2021; 11: 8910 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Pei CG
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Chan N
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92583 Efficacy and safety of fixed-combination brimonidine tartrate/timolol maleate in primary open-angle glaucoma, including normal-tension glaucoma
Park KH
Japanese Journal of Ophthalmology 2021; 65: 295-305 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Garudadri CS
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Zakelis R
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92531 Safety and efficacy of microinvasive glaucoma surgery with cataract extraction in patients with normal-tension glaucoma
Solá-Del Valle D
Scientific reports 2021; 11: 8910 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Xing C
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Seong GJ
Eye 2021; 35: 536-543 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Lai I
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Hassall MM
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Kim CY
Eye 2021; 35: 536-543 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Wang X
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Shirato S
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Jiang J
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Harris A
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Warner S
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

91942 Comparison of Saccadic Eye Movements Among the High-tension Glaucoma, Primary Angle-closure Glaucoma, and Normal-tension Glaucoma
Senthil S
Journal of Glaucoma 2021; 30: e76-e82 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Mathew S
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

91957 Progression patterns of normal-tension glaucoma groups classified by hierarchical cluster analysis
Bae HW
Eye 2021; 35: 536-543 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Siggs OM
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Li B
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Tian T
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Cheung CY
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92701 Central visual field change after fornix-based trabeculectomy in Japanese normal-tension glaucoma patients managed under 15 mmHg
Aihara M
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2309-2316 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Schendel S
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Fang Y
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Tham CC
Acta Ophthalmologica 2021; 99: e1421-e1429 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Gill KS
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Siesky B
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Souzeau E
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

91967 Use of rsfMRI-fALFF for the detection of changes in brain activity in patients with normal-tension glaucoma
Shao Y
Acta radiologica (Stockholm, Sweden : 1987) 2021; 62: 414-422 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Janulevicienė I
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Li M
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92186 Normal-tension glaucoma is associated with cognitive impairment
Craig JE
British Journal of Ophthalmology 2022; 106: 952-956 (IGR: 22-1)

92105 Comparison of corneal biomechanics among primary open-angle glaucoma with normal tension or hypertension and controls
Pan YZ
Chinese Medical Journal 2021; 134: 1087-1092 (IGR: 22-1)

92244 Can the Treatment of Normal-Pressure Hydrocephalus Induce Normal-Tension Glaucoma? A Narrative Review of a Current Knowledge
Ragauskas A
Medicina (Kaunas, Lithuania) 2021; 57: (IGR: 22-1)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Lin TPH
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Nowrouzi A
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Sun Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91612 Optical coherence tomography angiography and the visual field in hypertensive and normotensive glaucoma
Zakova M
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 441-444 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Shin JW
Scientific reports 2021; 11: 206 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Lin TPH
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Kristiansen M
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

91046 Outcome of a single XEN microstent implant for glaucoma patients with different types of glaucoma
Schargus M
BMC Ophthalmology 2020; 20: 490 (IGR: 21-4)

90904 Normal-tension Glaucoma Management: A Survey of Glaucoma Sub-specialists in Korea
Han YS
Korean Journal of Ophthalmology 2020; 34: 425-431 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Lin YH
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

91816 Optic Disc Cupping Due to Dolichoectatic Internal Carotid Artery Optic Nerve Compression
Micieli JA
Journal of Neuro-Ophthalmology 2021; 41: e560-e565 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Kim YW
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91038 Comparison of lamina cribrosa properties and the peripapillary vessel density between branch retinal vein occlusion and normal-tension glaucoma
Woo JM
PLoS ONE 2020; 15: e0240109 (IGR: 21-4)

91214 Association of dipping status of blood pressure, visual field defects, and retinal nerve fiber layer thickness in patients with normotensive glaucoma
Lee SU
Medicine 2020; 99: e23565 (IGR: 21-4)

91644 Evaluation of Systemic Renin and Angiotensin II Levels in Normal Tension Glaucoma
Jeon SJ
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Cheng KKW
Scientific reports 2021; 11: 1056 (IGR: 21-4)

90995 Deep learning classification of early normal-tension glaucoma and glaucoma suspects using Bruch's membrane opening-minimum rim width and RNFL
Seo SB
Scientific reports 2020; 10: 19042 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Guo Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Tan BL
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91816 Optic Disc Cupping Due to Dolichoectatic Internal Carotid Artery Optic Nerve Compression
Margolin EA
Journal of Neuro-Ophthalmology 2021; 41: e560-e565 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Jo YH
Scientific reports 2021; 11: 206 (IGR: 21-4)

91644 Evaluation of Systemic Renin and Angiotensin II Levels in Normal Tension Glaucoma
Hwang HB
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91038 Comparison of lamina cribrosa properties and the peripapillary vessel density between branch retinal vein occlusion and normal-tension glaucoma
Cha JB
PLoS ONE 2020; 15: e0240109 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wang YM
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Benitez-del-Castillo J
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

90995 Deep learning classification of early normal-tension glaucoma and glaucoma suspects using Bruch's membrane opening-minimum rim width and RNFL
Cho HK
Scientific reports 2020; 10: 19042 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Huang SM
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

91046 Outcome of a single XEN microstent implant for glaucoma patients with different types of glaucoma
Theilig T
BMC Ophthalmology 2020; 20: 490 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Kim JS
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91612 Optical coherence tomography angiography and the visual field in hypertensive and normotensive glaucoma
Lestak J
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 441-444 (IGR: 21-4)

91214 Association of dipping status of blood pressure, visual field defects, and retinal nerve fiber layer thickness in patients with normotensive glaucoma
Park HS
Medicine 2020; 99: e23565 (IGR: 21-4)

90904 Normal-tension Glaucoma Management: A Survey of Glaucoma Sub-specialists in Korea
Ha A
Korean Journal of Ophthalmology 2020; 34: 425-431 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Lindén C
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

91214 Association of dipping status of blood pressure, visual field defects, and retinal nerve fiber layer thickness in patients with normotensive glaucoma
Kim BJ
Medicine 2020; 99: e23565 (IGR: 21-4)

90904 Normal-tension Glaucoma Management: A Survey of Glaucoma Sub-specialists in Korea
Kim YK
Korean Journal of Ophthalmology 2020; 34: 425-431 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Brown L
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91644 Evaluation of Systemic Renin and Angiotensin II Levels in Normal Tension Glaucoma
Lee NY
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91038 Comparison of lamina cribrosa properties and the peripapillary vessel density between branch retinal vein occlusion and normal-tension glaucoma
Lee CK
PLoS ONE 2020; 15: e0240109 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Song MK
Scientific reports 2021; 11: 206 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Ho K
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Kafi-Abasabadi S
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Lee SY
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91612 Optical coherence tomography angiography and the visual field in hypertensive and normotensive glaucoma
Fus M
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 441-444 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Cao K
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91046 Outcome of a single XEN microstent implant for glaucoma patients with different types of glaucoma
Rehak M
BMC Ophthalmology 2020; 20: 490 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Yeung L
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Qvarlander S
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

91214 Association of dipping status of blood pressure, visual field defects, and retinal nerve fiber layer thickness in patients with normotensive glaucoma
Kim HS
Medicine 2020; 99: e23565 (IGR: 21-4)

91612 Optical coherence tomography angiography and the visual field in hypertensive and normotensive glaucoma
Maresova K
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 441-444 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Ha A
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Gray C
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Wåhlin A
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wong CYK
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Rodriguez-Calzadilla M
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Zhang Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Won HJ
Scientific reports 2021; 11: 206 (IGR: 21-4)

90904 Normal-tension Glaucoma Management: A Survey of Glaucoma Sub-specialists in Korea
Jeoung JW
Korean Journal of Ophthalmology 2020; 34: 425-431 (IGR: 21-4)

91046 Outcome of a single XEN microstent implant for glaucoma patients with different types of glaucoma
Busch C
BMC Ophthalmology 2020; 20: 490 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Ku WC
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Lee J
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Xie Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Chen HS
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

91046 Outcome of a single XEN microstent implant for glaucoma patients with different types of glaucoma
Bormann C
BMC Ophthalmology 2020; 20: 490 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Kook MS
Scientific reports 2021; 11: 206 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Bianchi E
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91214 Association of dipping status of blood pressure, visual field defects, and retinal nerve fiber layer thickness in patients with normotensive glaucoma
Heo JH
Medicine 2020; 99: e23565 (IGR: 21-4)

90904 Normal-tension Glaucoma Management: A Survey of Glaucoma Sub-specialists in Korea
Park KH
Korean Journal of Ophthalmology 2020; 34: 425-431 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Ambarki K
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Chan PP
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Diaz-Ramos A
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Park YJ
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wong MOM
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Dhillon B
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91046 Outcome of a single XEN microstent implant for glaucoma patients with different types of glaucoma
Unterlauft JD
BMC Ophthalmology 2020; 20: 490 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Lai CC
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wong MOM
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Rodriguez-Suarez A
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Pang R
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Hallberg P
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

91214 Association of dipping status of blood pressure, visual field defects, and retinal nerve fiber layer thickness in patients with normotensive glaucoma
Im SI
Medicine 2020; 99: e23565 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Eklund A
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
MacGillivray T
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Mota-Chozas I
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Kim YK
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Shi Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

91785 Correlation of Visual Field With Peripapillary Vessel Density Through Optical Coherence Tomography Angiography in Normal-Tension Glaucoma
Chuang LH
Translational vision science & technology 2020; 9: 26 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Chan NCY
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91654 Feasibility of MRI to assess differences in ophthalmic artery blood flow rate in normal tension glaucoma and healthy controls
Jóhannesson G
Acta Ophthalmologica 2021; 99: e679-e685 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Wang H
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Tang F
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Tatham AJ
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Jeoung JW; Park KH
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Lam A
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Wang N
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Leung DYL; Wong TY; Cheng CY; Cheung CY; Tham CC
Scientific reports 2020; 10: 19222 (IGR: 21-4)

90677 Clinical Predictors of the Region of First Structural Progression in Early Normal-tension Glaucoma
Lee JS
Korean Journal of Ophthalmology 2020; 34: 322-333 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Lee JS
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90268 Lack of correlation between S1 RNA binding domain 1 SNP rs3213787/rs11884064 and normal-tension glaucoma in a population from the Republic of Korea
Jung SH
Medicine 2020; 99: e20066 (IGR: 21-3)

90307 Second-Generation Trabecular Micro-Bypass (iStent inject) with Cataract Surgery in Eyes with Normal-Tension Glaucoma: One-Year Outcomes of a Multi-Centre Study
Salimi A
Ophthalmology and therapy 2020; 9: 585-596 (IGR: 21-3)

90269 Risk Factors Associated with Structural Progression in Normal-Tension Glaucoma: Intraocular Pressure, Systemic Blood Pressure, and Myopia
Lee K
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-3)

90195 Optic disc melanocytoma with normal tension glaucoma and angle closure glaucoma: Two case reports
Kim DS
Medicine 2020; 99: e21350 (IGR: 21-3)

90371 Analysis of Plasma Hydrogen Sulfide, Homocysteine, and L-Cysteine in Open-Angle Glaucoma Patients
Lin Z
Journal of Ocular Pharmacology and Therapeutics 2020; 36: 649-657 (IGR: 21-3)

90758 Comparison and Correlation of Retinal Sensitivity Between Microperimetry and Standard Automated Perimetry in Low-tension Glaucoma
Tepelus TC
Journal of Glaucoma 2020; 29: 975-980 (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
DeRoos L
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Sakata R
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Li T
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90419 Glaucomatous fields after monthly intravitreal injections: Normal tension glaucoma or a mimicker?
Shah SM
American journal of ophthalmology case reports 2020; 20: 100904 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Rudnicka AR
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90081 FOXC1 variant in a family with anterior segment dysgenesis and normal-tension glaucoma
Or L
Experimental Eye Research 2020; 200: 108220 (IGR: 21-3)

90230 Usefulness of Optical Coherence Tomography Angiography in the Differential Diagnosis Between Superior Segmental Optic Hypoplasia and Normal-tension Glaucoma
Lee SY
Journal of Glaucoma 2020; 29: 718-722 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Harada C
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90452 Rate of Change in Bruch's Membrane Opening-Minimum Rim Width and Peripapillary RNFL in Early Normal Tension Glaucoma
Cho HK
Journal of clinical medicine 2020; 9: (IGR: 21-3)

90380 Glaucoma conversion of the contralateral eye in unilateral normal-tension glaucoma patients: a 5-year follow-up study
Kim JS
British Journal of Ophthalmology 2021; 105: 1383-1389 (IGR: 21-3)

90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Jeon SJ
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)

90318 Effective treatment of a normal-tension glaucoma patient with bilateral ab externo XEN Gel Stent implantation
Harris JM
American journal of ophthalmology case reports 2020; 20: 100947 (IGR: 21-3)

90478 Association of Ultrapure Citicoline, Homotaurine and Vitamin E in the Management of Normotensive Glaucoma: A Case Report
Verdina T
Case Reports in Ophthalmology 2020; 11: 222-228 (IGR: 21-3)

90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Yoshitomi T
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)

90452 Rate of Change in Bruch's Membrane Opening-Minimum Rim Width and Peripapillary RNFL in Early Normal Tension Glaucoma
Kee C
Journal of clinical medicine 2020; 9: (IGR: 21-3)

90230 Usefulness of Optical Coherence Tomography Angiography in the Differential Diagnosis Between Superior Segmental Optic Hypoplasia and Normal-tension Glaucoma
In JH
Journal of Glaucoma 2020; 29: 718-722 (IGR: 21-3)

90380 Glaucoma conversion of the contralateral eye in unilateral normal-tension glaucoma patients: a 5-year follow-up study
Choi HJ
British Journal of Ophthalmology 2021; 105: 1383-1389 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Noro T
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90307 Second-Generation Trabecular Micro-Bypass (iStent inject) with Cataract Surgery in Eyes with Normal-Tension Glaucoma: One-Year Outcomes of a Multi-Centre Study
Clement C
Ophthalmology and therapy 2020; 9: 585-596 (IGR: 21-3)

90419 Glaucomatous fields after monthly intravitreal injections: Normal tension glaucoma or a mimicker?
Khanna CL
American journal of ophthalmology case reports 2020; 20: 100904 (IGR: 21-3)

90478 Association of Ultrapure Citicoline, Homotaurine and Vitamin E in the Management of Normotensive Glaucoma: A Case Report
Passarelli N
Case Reports in Ophthalmology 2020; 11: 222-228 (IGR: 21-3)

90677 Clinical Predictors of the Region of First Structural Progression in Early Normal-tension Glaucoma
Lee K
Korean Journal of Ophthalmology 2020; 34: 322-333 (IGR: 21-3)

90318 Effective treatment of a normal-tension glaucoma patient with bilateral ab externo XEN Gel Stent implantation
Solá-Del Valle D
American journal of ophthalmology case reports 2020; 20: 100947 (IGR: 21-3)

90195 Optic disc melanocytoma with normal tension glaucoma and angle closure glaucoma: Two case reports
Park HM
Medicine 2020; 99: e21350 (IGR: 21-3)

90269 Risk Factors Associated with Structural Progression in Normal-Tension Glaucoma: Intraocular Pressure, Systemic Blood Pressure, and Myopia
Yang H
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Qu X
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Park HL
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Jeoung JW
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90758 Comparison and Correlation of Retinal Sensitivity Between Microperimetry and Standard Automated Perimetry in Low-tension Glaucoma
Song S
Journal of Glaucoma 2020; 29: 975-980 (IGR: 21-3)

90371 Analysis of Plasma Hydrogen Sulfide, Homocysteine, and L-Cysteine in Open-Angle Glaucoma Patients
Huang S
Journal of Ocular Pharmacology and Therapeutics 2020; 36: 649-657 (IGR: 21-3)

90268 Lack of correlation between S1 RNA binding domain 1 SNP rs3213787/rs11884064 and normal-tension glaucoma in a population from the Republic of Korea
Lee YC
Medicine 2020; 99: e20066 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Owen CG
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
Nitta K
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

90081 FOXC1 variant in a family with anterior segment dysgenesis and normal-tension glaucoma
Barkana Y
Experimental Eye Research 2020; 200: 108220 (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
Lavieri MS
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

90195 Optic disc melanocytoma with normal tension glaucoma and angle closure glaucoma: Two case reports
Lim HW
Medicine 2020; 99: e21350 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Kimura A
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90419 Glaucomatous fields after monthly intravitreal injections: Normal tension glaucoma or a mimicker?
Yamanuha J
American journal of ophthalmology case reports 2020; 20: 100904 (IGR: 21-3)

90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Kim YC
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Welikala RA
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Chen W
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90081 FOXC1 variant in a family with anterior segment dysgenesis and normal-tension glaucoma
Hecht I
Experimental Eye Research 2020; 200: 108220 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Oh S
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90307 Second-Generation Trabecular Micro-Bypass (iStent inject) with Cataract Surgery in Eyes with Normal-Tension Glaucoma: One-Year Outcomes of a Multi-Centre Study
Shiu M
Ophthalmology and therapy 2020; 9: 585-596 (IGR: 21-3)

90230 Usefulness of Optical Coherence Tomography Angiography in the Differential Diagnosis Between Superior Segmental Optic Hypoplasia and Normal-tension Glaucoma
Kim CH
Journal of Glaucoma 2020; 29: 718-722 (IGR: 21-3)

90268 Lack of correlation between S1 RNA binding domain 1 SNP rs3213787/rs11884064 and normal-tension glaucoma in a population from the Republic of Korea
Lee MY
Medicine 2020; 99: e20066 (IGR: 21-3)

90380 Glaucoma conversion of the contralateral eye in unilateral normal-tension glaucoma patients: a 5-year follow-up study
Park KH
British Journal of Ophthalmology 2021; 105: 1383-1389 (IGR: 21-3)

90269 Risk Factors Associated with Structural Progression in Normal-Tension Glaucoma: Intraocular Pressure, Systemic Blood Pressure, and Myopia
Kim JY
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-3)

90758 Comparison and Correlation of Retinal Sensitivity Between Microperimetry and Standard Automated Perimetry in Low-tension Glaucoma
Nittala MG
Journal of Glaucoma 2020; 29: 975-980 (IGR: 21-3)

90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Araie M
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)

90371 Analysis of Plasma Hydrogen Sulfide, Homocysteine, and L-Cysteine in Open-Angle Glaucoma Patients
Yu H
Journal of Ocular Pharmacology and Therapeutics 2020; 36: 649-657 (IGR: 21-3)

90478 Association of Ultrapure Citicoline, Homotaurine and Vitamin E in the Management of Normotensive Glaucoma: A Case Report
Carlini A
Case Reports in Ophthalmology 2020; 11: 222-228 (IGR: 21-3)

90677 Clinical Predictors of the Region of First Structural Progression in Early Normal-tension Glaucoma
Seong GJ
Korean Journal of Ophthalmology 2020; 34: 322-333 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Barman SA
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90230 Usefulness of Optical Coherence Tomography Angiography in the Differential Diagnosis Between Superior Segmental Optic Hypoplasia and Normal-tension Glaucoma
Hong YJ
Journal of Glaucoma 2020; 29: 718-722 (IGR: 21-3)

90758 Comparison and Correlation of Retinal Sensitivity Between Microperimetry and Standard Automated Perimetry in Low-tension Glaucoma
Nassisi M
Journal of Glaucoma 2020; 29: 975-980 (IGR: 21-3)

90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors

Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)

90269 Risk Factors Associated with Structural Progression in Normal-Tension Glaucoma: Intraocular Pressure, Systemic Blood Pressure, and Myopia
Seong GJ
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Kim DM
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90081 FOXC1 variant in a family with anterior segment dysgenesis and normal-tension glaucoma
Weiner C
Experimental Eye Research 2020; 200: 108220 (IGR: 21-3)

90371 Analysis of Plasma Hydrogen Sulfide, Homocysteine, and L-Cysteine in Open-Angle Glaucoma Patients
Sun J
Journal of Ocular Pharmacology and Therapeutics 2020; 36: 649-657 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Guo X
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Kim EK
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)

90478 Association of Ultrapure Citicoline, Homotaurine and Vitamin E in the Management of Normotensive Glaucoma: A Case Report
Chemello F
Case Reports in Ophthalmology 2020; 11: 222-228 (IGR: 21-3)

90677 Clinical Predictors of the Region of First Structural Progression in Early Normal-tension Glaucoma
Kim CY
Korean Journal of Ophthalmology 2020; 34: 322-333 (IGR: 21-3)

90307 Second-Generation Trabecular Micro-Bypass (iStent inject) with Cataract Surgery in Eyes with Normal-Tension Glaucoma: One-Year Outcomes of a Multi-Centre Study
Harasymowycz P
Ophthalmology and therapy 2020; 9: 585-596 (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
Van Oyen MP
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

90195 Optic disc melanocytoma with normal tension glaucoma and angle closure glaucoma: Two case reports
Lee WJ
Medicine 2020; 99: e21350 (IGR: 21-3)

90268 Lack of correlation between S1 RNA binding domain 1 SNP rs3213787/rs11884064 and normal-tension glaucoma in a population from the Republic of Korea
Shin HY
Medicine 2020; 99: e20066 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Wang Q
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90419 Glaucomatous fields after monthly intravitreal injections: Normal tension glaucoma or a mimicker?
Bakri SJ
American journal of ophthalmology case reports 2020; 20: 100904 (IGR: 21-3)

90081 FOXC1 variant in a family with anterior segment dysgenesis and normal-tension glaucoma
Einan-Lifshitz A
Experimental Eye Research 2020; 200: 108220 (IGR: 21-3)

90371 Analysis of Plasma Hydrogen Sulfide, Homocysteine, and L-Cysteine in Open-Angle Glaucoma Patients
Huang P
Journal of Ocular Pharmacology and Therapeutics 2020; 36: 649-657 (IGR: 21-3)

90758 Comparison and Correlation of Retinal Sensitivity Between Microperimetry and Standard Automated Perimetry in Low-tension Glaucoma
Sadda SR
Journal of Glaucoma 2020; 29: 975-980 (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
Kazemian P
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

90478 Association of Ultrapure Citicoline, Homotaurine and Vitamin E in the Management of Normotensive Glaucoma: A Case Report
Mastropasqua R
Case Reports in Ophthalmology 2020; 11: 222-228 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Whincup PH
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90677 Clinical Predictors of the Region of First Structural Progression in Early Normal-tension Glaucoma
Lee SY
Korean Journal of Ophthalmology 2020; 34: 322-333 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Namekata K
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Park CK
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Ahn JH
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Wang H
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90269 Risk Factors Associated with Structural Progression in Normal-Tension Glaucoma: Intraocular Pressure, Systemic Blood Pressure, and Myopia
Kim CY; Bae HW
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-3)

90371 Analysis of Plasma Hydrogen Sulfide, Homocysteine, and L-Cysteine in Open-Angle Glaucoma Patients
Zhong Y
Journal of Ocular Pharmacology and Therapeutics 2020; 36: 649-657 (IGR: 21-3)

90758 Comparison and Correlation of Retinal Sensitivity Between Microperimetry and Standard Automated Perimetry in Low-tension Glaucoma
Chopra V
Journal of Glaucoma 2020; 29: 975-980 (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
Andrews CA
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Nakano T
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90478 Association of Ultrapure Citicoline, Homotaurine and Vitamin E in the Management of Normotensive Glaucoma: A Case Report
Cavallini GM
Case Reports in Ophthalmology 2020; 11: 222-228 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Wang Y
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90677 Clinical Predictors of the Region of First Structural Progression in Early Normal-tension Glaucoma
Bae HW
Korean Journal of Ophthalmology 2020; 34: 322-333 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Kim MJ
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Strachan DP
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90081 FOXC1 variant in a family with anterior segment dysgenesis and normal-tension glaucoma
Pras E
Experimental Eye Research 2020; 200: 108220 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Chan MPY
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Seong MW
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Huang C
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90127 Suppression of Oxidative Stress as Potential Therapeutic Approach for Normal Tension Glaucoma
Harada T
Antioxidants (Basel, Switzerland) 2020; 9: (IGR: 21-3)

90438 Comparing Perimetric Loss at Different Target Intraocular Pressures for Patients with High-Tension and Normal-Tension Glaucoma
Sugiyama K; Stein JD
Ophthalmology. Glaucoma 2021; 4: 251-259 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Khawaja AP
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Park SS
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Zhang X
Brain Research 2020; 1741: 146874 (IGR: 21-3)

90582 No association between polymorphisms and normal-tension glaucoma
Kim JY
Ophthalmic Genetics 2020; 41: 427-431 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Wang N
Brain Research 2020; 1741: 146874 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Broadway DC
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90742 Altered information flow and microstructure abnormalities of visual cortex in normal-tension glaucoma: Evidence from resting-state fMRI and DKI
Xian J
Brain Research 2020; 1741: 146874 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Luben R; Hayat SA; Khaw KT; Foster PJ
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

86549 Vitrectomy with peripapillary internal limiting membrane peeling for macular retinoschisis associated with normal-tension glaucoma
Ishikawa K
American journal of ophthalmology case reports 2020; 18: 100663 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Kim MJ
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Kim JA
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)

86692 Characteristics of Normal-tension Glaucoma Patients with Temporal Retinal Nerve Fibre Defects
Yum HR
Scientific reports 2020; 10: 6362 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Miki A
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Yoshioka T
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Lu SY
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Orgül S
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Mursch-Edlmayr AS
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Ha A
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Mursch-Edlmayr AS
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86582 Effect of prostaglandins and beta blockers on progression of hypertensive and normotensive glaucomas
Maresova K
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 189-191 (IGR: 21-2)

86688 Ginkgo Biloba Extract in Ophthalmic and Systemic Disease, With a Focus on Normal-Tension Glaucoma
Labkovich M
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2020; 9: 215-225 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Gugleta K
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86692 Characteristics of Normal-tension Glaucoma Patients with Temporal Retinal Nerve Fibre Defects
Park HL
Scientific reports 2020; 10: 6362 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Pickl L
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Rong SS
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86582 Effect of prostaglandins and beta blockers on progression of hypertensive and normotensive glaucomas
Lestak J
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 189-191 (IGR: 21-2)

86549 Vitrectomy with peripapillary internal limiting membrane peeling for macular retinoschisis associated with normal-tension glaucoma
Fukui T
American journal of ophthalmology case reports 2020; 18: 100663 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Yasukura Y
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86688 Ginkgo Biloba Extract in Ophthalmic and Systemic Disease, With a Focus on Normal-Tension Glaucoma
Jacobs EB
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2020; 9: 215-225 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Waser K
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Nakamoto K
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Kim YW
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Kim TJ
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Song Y
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Waser K
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Jeoung JW
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Podkowinski D
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Grieshaber MC
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Wu Z
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Lee WJ
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86582 Effect of prostaglandins and beta blockers on progression of hypertensive and normotensive glaucomas
Fus M
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 189-191 (IGR: 21-2)

86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Kobayashi M
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86688 Ginkgo Biloba Extract in Ophthalmic and Systemic Disease, With a Focus on Normal-Tension Glaucoma
Bhargava S
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2020; 9: 215-225 (IGR: 21-2)

86692 Characteristics of Normal-tension Glaucoma Patients with Temporal Retinal Nerve Fibre Defects
Park CK
Scientific reports 2020; 10: 6362 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Weinreb RN
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86549 Vitrectomy with peripapillary internal limiting membrane peeling for macular retinoschisis associated with normal-tension glaucoma
Nakao S
American journal of ophthalmology case reports 2020; 18: 100663 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Kawai M
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Calzetti G
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86582 Effect of prostaglandins and beta blockers on progression of hypertensive and normotensive glaucomas
Weissova I
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 189-191 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Suzuki H
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Seong MW
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Waser K
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Bolz M
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Girard MJA
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Huang C
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Tani T
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Waser K
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Maeda N
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86549 Vitrectomy with peripapillary internal limiting membrane peeling for macular retinoschisis associated with normal-tension glaucoma
Shiose S
American journal of ophthalmology case reports 2020; 18: 100663 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Schoetzau A
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86688 Ginkgo Biloba Extract in Ophthalmic and Systemic Disease, With a Focus on Normal-Tension Glaucoma
Pasquale LR
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2020; 9: 215-225 (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Kim DM
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Wendelstein J
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Matsushita K
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Yamada T
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86688 Ginkgo Biloba Extract in Ophthalmic and Systemic Disease, With a Focus on Normal-Tension Glaucoma
Ritch R
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2020; 9: 215-225 (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Jeoung JW
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86549 Vitrectomy with peripapillary internal limiting membrane peeling for macular retinoschisis associated with normal-tension glaucoma
Sonoda KH
American journal of ophthalmology case reports 2020; 18: 100663 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Takahashi K
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Tobita Y
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Lee JS
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Ishiko S
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Beka S
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Ng TK
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Koh S
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Kim DM
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Igarashi T
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Kim YK
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Lavinsky F
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86190 Quantitative analysis of retinal nerve fiber layer defect in early open-angle glaucoma with normal intraocular pressure
Park KH
Japanese Journal of Ophthalmology 2020; 64: 278-284 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Ahn JH
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Leung CKS
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Aranha Dos Santos V
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Asai T
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Okuda T
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Ikuno Y
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Okada T
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Wollstein G
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Kawashima R
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Song JY
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Luft N; Schmetterer L
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86723 Dynamic Scheimpflug Ocular Biomechanical Parameters in Untreated Primary Open Angle Glaucoma Eyes
Nishida K
Investigative Ophthalmology and Visual Science 2020; 61: 19 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Usui S
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86605 Serum brain-derived neurotrophic factor in glaucoma patients in Japan: An observational study
Takahashi H
Journal of Nippon Medical School 2021; 87: 339-345 (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Cho SI
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Ishikawa H
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Park SS
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Schuman JS
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Bolz M
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Tam POS
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Yoshida A
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86222 Genomic Characterization of TBK1 Duplication in Korean Normal-tension Glaucoma Patients
Kim JY
Journal of Glaucoma 2020; 29: 331-336 (IGR: 21-2)

86404 Association of the CAV1-CAV2 locus with normal-tension glaucoma in Chinese and Japanese
Tsujikawa M; Young AL; Zhang M; Wiggs JL; Nishida K; Tham CC; Pang CP; Chen LJ
Clinical and Experimental Ophthalmology 2020; 48: 658-665 (IGR: 21-2)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Sheybani A
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84574 The influence of central corneal thickness on progression of normotensive glaucoma
Nutterova E
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 80-83 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Demer JL
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Li R
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

85034 Long-Term Follow-Up of Normal Tension Glaucoma Patients With TBK1 Gene Mutations in One Large Pedigree
Quist TS
American Journal of Ophthalmology 2020; 214: 52-62 (IGR: 21-1)

84978 Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study
Xu XY
International Journal of Ophthalmology 2020; 13: 71-78 (IGR: 21-1)

85118 Corneal biomechanical responses detected using corvis st in primary open angle glaucoma and normal tension glaucoma
Jung Y
Medicine 2020; 99: e19126 (IGR: 21-1)

84766 Peripapillary Vessel Density in Young Patients with Open-Angle Glaucoma: Comparison between High-Tension and Normal-Tension Glaucoma
Park JH
Scientific reports 2019; 9: 19160 (IGR: 21-1)

84773 Machine learning classifiers-based prediction of normal-tension glaucoma progression in young myopic patients
Lee J
Japanese Journal of Ophthalmology 2020; 64: 68-76 (IGR: 21-1)

84813 Risk factors associated with progressive nerve fiber layer thinning in open-angle glaucoma with mean intraocular pressure below 15 mmHg
Lee JS
Scientific reports 2019; 9: 19811 (IGR: 21-1)

84766 Peripapillary Vessel Density in Young Patients with Open-Angle Glaucoma: Comparison between High-Tension and Normal-Tension Glaucoma
Yoo C
Scientific reports 2019; 9: 19160 (IGR: 21-1)

85118 Corneal biomechanical responses detected using corvis st in primary open angle glaucoma and normal tension glaucoma
Park HL
Medicine 2020; 99: e19126 (IGR: 21-1)

84773 Machine learning classifiers-based prediction of normal-tension glaucoma progression in young myopic patients
Kim YK
Japanese Journal of Ophthalmology 2020; 64: 68-76 (IGR: 21-1)

84574 The influence of central corneal thickness on progression of normotensive glaucoma
Maresova K
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 80-83 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Clark RA
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84813 Risk factors associated with progressive nerve fiber layer thinning in open-angle glaucoma with mean intraocular pressure below 15 mmHg
Seong GJ
Scientific reports 2019; 9: 19811 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Scott R
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Wang X
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

84978 Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study
Lai KB
International Journal of Ophthalmology 2020; 13: 71-78 (IGR: 21-1)

85034 Long-Term Follow-Up of Normal Tension Glaucoma Patients With TBK1 Gene Mutations in One Large Pedigree
Johnson CA
American Journal of Ophthalmology 2020; 214: 52-62 (IGR: 21-1)

84813 Risk factors associated with progressive nerve fiber layer thinning in open-angle glaucoma with mean intraocular pressure below 15 mmHg
Kim CY
Scientific reports 2019; 9: 19811 (IGR: 21-1)

85034 Long-Term Follow-Up of Normal Tension Glaucoma Patients With TBK1 Gene Mutations in One Large Pedigree
Robin AL
American Journal of Ophthalmology 2020; 214: 52-62 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Suh SY
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Samuelson TW
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84766 Peripapillary Vessel Density in Young Patients with Open-Angle Glaucoma: Comparison between High-Tension and Normal-Tension Glaucoma
Kim YY
Scientific reports 2019; 9: 19160 (IGR: 21-1)

85118 Corneal biomechanical responses detected using corvis st in primary open angle glaucoma and normal tension glaucoma
Oh S
Medicine 2020; 99: e19126 (IGR: 21-1)

84773 Machine learning classifiers-based prediction of normal-tension glaucoma progression in young myopic patients
Jeoung JW
Japanese Journal of Ophthalmology 2020; 64: 68-76 (IGR: 21-1)

84574 The influence of central corneal thickness on progression of normotensive glaucoma
Lestak J
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2021; 165: 80-83 (IGR: 21-1)

84978 Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study
Xiao H
International Journal of Ophthalmology 2020; 13: 71-78 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Wei Y; Fang Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

85118 Corneal biomechanical responses detected using corvis st in primary open angle glaucoma and normal tension glaucoma
Park CK
Medicine 2020; 99: e19126 (IGR: 21-1)

84978 Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study
Lin YQ
International Journal of Ophthalmology 2020; 13: 71-78 (IGR: 21-1)

84813 Risk factors associated with progressive nerve fiber layer thinning in open-angle glaucoma with mean intraocular pressure below 15 mmHg
Lee SY
Scientific reports 2019; 9: 19811 (IGR: 21-1)

85034 Long-Term Follow-Up of Normal Tension Glaucoma Patients With TBK1 Gene Mutations in One Large Pedigree
Fingert JH
American Journal of Ophthalmology 2020; 214: 52-62 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Kahook MY
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84773 Machine learning classifiers-based prediction of normal-tension glaucoma progression in young myopic patients
Ha A
Japanese Journal of Ophthalmology 2020; 64: 68-76 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Giaconi JA
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84773 Machine learning classifiers-based prediction of normal-tension glaucoma progression in young myopic patients
Kim YW
Japanese Journal of Ophthalmology 2020; 64: 68-76 (IGR: 21-1)

84978 Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study
Guo XX
International Journal of Ophthalmology 2020; 13: 71-78 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Bettis DI
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84813 Risk factors associated with progressive nerve fiber layer thinning in open-angle glaucoma with mean intraocular pressure below 15 mmHg
Bae HW
Scientific reports 2019; 9: 19811 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Nouri-Mahdavi K
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Tian T
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Ahmed IIK
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84978 Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study
Liu X
International Journal of Ophthalmology 2020; 13: 71-78 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Law SK
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84773 Machine learning classifiers-based prediction of normal-tension glaucoma progression in young myopic patients
Park KH
Japanese Journal of Ophthalmology 2020; 64: 68-76 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Li M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Stephens JD
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Cai Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Bonelli L
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Kent D
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Pan Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Coleman AL
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Ferguson TJ
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84276 Optic Nerve Traction During Adduction in Open Angle Glaucoma with Normal versus Elevated Intraocular Pressure
Caprioli J
Current Eye Research 2020; 45: 199-210 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Herndon LW
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Han JC
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)

82825 Neutrophil to Lymphocyte and Platelet to Lymphocyte Ratios in Normal Tension Glaucoma
Atalay K
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 278-282 (IGR: 20-4)

82230 Comparison of peripapillary and subfoveal choroidal thickness in normal versus primary open-angle glaucoma (POAG) subjects using spectral domain optical coherence tomography (SD-OCT) and swept source optical coherence tomography (SS-OCT)
Komma S
BMJ open ophthalmology 2019; 4: e000258 (IGR: 20-4)

82830 Latest Developments in Normal-Pressure Glaucoma: Diagnosis, Epidemiology, Genetics, Etiology, Causes and Mechanisms to Management
Lee JWY
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 8: 457-468 (IGR: 20-4)

82503 Is "normal tension glaucoma" glaucoma?
Fan N
Medical Hypotheses 2019; 133: 109405 (IGR: 20-4)

82551 Parafoveal vessel changes in primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography angiography
Onishi AC
Clinical Ophthalmology 2019; 13: 1935-1945 (IGR: 20-4)

82765 Baseline Central Visual Field Defect as a Risk Factor For NTG Progression: A 5-Year Prospective Study
Raman P
Journal of Glaucoma 2019; 28: 952-957 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Uchida N
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82417 Lack of Correlation between ASB10 and Normal-tension Glaucoma in a Population from the Republic of Korea
Jung SH
Current Eye Research 2020; 45: 521-525 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Honda S
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Kosior-Jarecka E
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82398 Association of HK2 and NCK2 with normal-tension glaucoma in a population from the Republic of Korea
Jung SH
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2717-2721 (IGR: 20-4)

82342 Changes in intraocular pressure during reading or writing on smartphones in patients with normal-tension glaucoma
Ha A
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Rong X
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82624 Thinning rates of retinal nerve layer and ganglion cell-inner plexiform layer in various stages of normal tension glaucoma
Inuzuka H
British Journal of Ophthalmology 2020; 104: 1131-1136 (IGR: 20-4)

82690 Reoperation rates after Ex-PRESS versus trabeculectomy for primary open-angle or normal-tension glaucoma: a national database study in Japan
Hashimoto Y
Eye 2019; 0: (IGR: 20-4)

82052 Effect of topical glaucoma medication on tear lipid layer thickness in patients with unilateral glaucoma
Lee SM
Indian Journal of Ophthalmology 2019; 67: 1297-1302 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Noro T
Scientific reports 2019; 9: 14852 (IGR: 20-4)

81984 Normal tension glaucoma: from the brain to the eye or the inverse?
Zhang HJ
Neural Regeneration Research 2019; 14: 1845-1850 (IGR: 20-4)

82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Kim YC
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Aihara M
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82342 Changes in intraocular pressure during reading or writing on smartphones in patients with normal-tension glaucoma
Kim YK
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82765 Baseline Central Visual Field Defect as a Risk Factor For NTG Progression: A 5-Year Prospective Study
Suliman NB
Journal of Glaucoma 2019; 28: 952-957 (IGR: 20-4)

82417 Lack of Correlation between ASB10 and Normal-tension Glaucoma in a Population from the Republic of Korea
Lee YC
Current Eye Research 2020; 45: 521-525 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Namekata K
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82624 Thinning rates of retinal nerve layer and ganglion cell-inner plexiform layer in various stages of normal tension glaucoma
Sawada A
British Journal of Ophthalmology 2020; 104: 1131-1136 (IGR: 20-4)

82052 Effect of topical glaucoma medication on tear lipid layer thickness in patients with unilateral glaucoma
Lee JE
Indian Journal of Ophthalmology 2019; 67: 1297-1302 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Namekata K
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82398 Association of HK2 and NCK2 with normal-tension glaucoma in a population from the Republic of Korea
Lee YC
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2717-2721 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Cai Y
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82230 Comparison of peripapillary and subfoveal choroidal thickness in normal versus primary open-angle glaucoma (POAG) subjects using spectral domain optical coherence tomography (SD-OCT) and swept source optical coherence tomography (SS-OCT)
Chhablani J
BMJ open ophthalmology 2019; 4: e000258 (IGR: 20-4)

82503 Is "normal tension glaucoma" glaucoma?
Tan J
Medical Hypotheses 2019; 133: 109405 (IGR: 20-4)

81984 Normal tension glaucoma: from the brain to the eye or the inverse?
Mi XS
Neural Regeneration Research 2019; 14: 1845-1850 (IGR: 20-4)

82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Cho BJ
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Kuwayama Y
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Han SH
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)

82551 Parafoveal vessel changes in primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography angiography
Treister AD
Clinical Ophthalmology 2019; 13: 1935-1945 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Ishida K
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82825 Neutrophil to Lymphocyte and Platelet to Lymphocyte Ratios in Normal Tension Glaucoma
Erdogan Kaldirim H
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 278-282 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Sagan M
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82830 Latest Developments in Normal-Pressure Glaucoma: Diagnosis, Epidemiology, Genetics, Etiology, Causes and Mechanisms to Management
Chan PP
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 8: 457-468 (IGR: 20-4)

82690 Reoperation rates after Ex-PRESS versus trabeculectomy for primary open-angle or normal-tension glaucoma: a national database study in Japan
Michihata N
Eye 2019; 0: (IGR: 20-4)

82765 Baseline Central Visual Field Defect as a Risk Factor For NTG Progression: A 5-Year Prospective Study
Zahari M
Journal of Glaucoma 2019; 28: 952-957 (IGR: 20-4)

82551 Parafoveal vessel changes in primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography angiography
Nesper PL
Clinical Ophthalmology 2019; 13: 1935-1945 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Miyata K
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82398 Association of HK2 and NCK2 with normal-tension glaucoma in a population from the Republic of Korea
Lee MY
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2717-2721 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Wróbel-Dudzińska D
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Li M
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Anraku A
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

81984 Normal tension glaucoma: from the brain to the eye or the inverse?
So KF
Neural Regeneration Research 2019; 14: 1845-1850 (IGR: 20-4)

82690 Reoperation rates after Ex-PRESS versus trabeculectomy for primary open-angle or normal-tension glaucoma: a national database study in Japan
Matsui H
Eye 2019; 0: (IGR: 20-4)

82052 Effect of topical glaucoma medication on tear lipid layer thickness in patients with unilateral glaucoma
Kim SI
Indian Journal of Ophthalmology 2019; 67: 1297-1302 (IGR: 20-4)

82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Park DY
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)

82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Jung KI
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Kimura A
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82825 Neutrophil to Lymphocyte and Platelet to Lymphocyte Ratios in Normal Tension Glaucoma
Kirgiz A
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 278-282 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Kimura A
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82624 Thinning rates of retinal nerve layer and ganglion cell-inner plexiform layer in various stages of normal tension glaucoma
Inuzuka M
British Journal of Ophthalmology 2020; 104: 1131-1136 (IGR: 20-4)

82342 Changes in intraocular pressure during reading or writing on smartphones in patients with normal-tension glaucoma
Kim JS
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82230 Comparison of peripapillary and subfoveal choroidal thickness in normal versus primary open-angle glaucoma (POAG) subjects using spectral domain optical coherence tomography (SD-OCT) and swept source optical coherence tomography (SS-OCT)
Ali MH
BMJ open ophthalmology 2019; 4: e000258 (IGR: 20-4)

82417 Lack of Correlation between ASB10 and Normal-tension Glaucoma in a Population from the Republic of Korea
Lee MY
Current Eye Research 2020; 45: 521-525 (IGR: 20-4)

82830 Latest Developments in Normal-Pressure Glaucoma: Diagnosis, Epidemiology, Genetics, Etiology, Causes and Mechanisms to Management
Zhang X
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 8: 457-468 (IGR: 20-4)

82503 Is "normal tension glaucoma" glaucoma?
Liu X
Medical Hypotheses 2019; 133: 109405 (IGR: 20-4)

82230 Comparison of peripapillary and subfoveal choroidal thickness in normal versus primary open-angle glaucoma (POAG) subjects using spectral domain optical coherence tomography (SD-OCT) and swept source optical coherence tomography (SS-OCT)
Garudadri CS
BMJ open ophthalmology 2019; 4: e000258 (IGR: 20-4)

82417 Lack of Correlation between ASB10 and Normal-tension Glaucoma in a Population from the Republic of Korea
Shin HY
Current Eye Research 2020; 45: 521-525 (IGR: 20-4)

82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Park CK
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Fang Y
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82398 Association of HK2 and NCK2 with normal-tension glaucoma in a population from the Republic of Korea
Shin HY
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2717-2721 (IGR: 20-4)

82825 Neutrophil to Lymphocyte and Platelet to Lymphocyte Ratios in Normal Tension Glaucoma
Asik Nacaroglu S
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 278-282 (IGR: 20-4)

82624 Thinning rates of retinal nerve layer and ganglion cell-inner plexiform layer in various stages of normal tension glaucoma
Yamamoto T
British Journal of Ophthalmology 2020; 104: 1131-1136 (IGR: 20-4)

82052 Effect of topical glaucoma medication on tear lipid layer thickness in patients with unilateral glaucoma
Jung JH
Indian Journal of Ophthalmology 2019; 67: 1297-1302 (IGR: 20-4)

82830 Latest Developments in Normal-Pressure Glaucoma: Diagnosis, Epidemiology, Genetics, Etiology, Causes and Mechanisms to Management
Chen LJ
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 8: 457-468 (IGR: 20-4)

82690 Reoperation rates after Ex-PRESS versus trabeculectomy for primary open-angle or normal-tension glaucoma: a national database study in Japan
Fushimi K
Eye 2019; 0: (IGR: 20-4)

82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Lee EJ
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)

82551 Parafoveal vessel changes in primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography angiography
Fawzi AA
Clinical Ophthalmology 2019; 13: 1935-1945 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Ohtani S
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Łukasik U
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82765 Baseline Central Visual Field Defect as a Risk Factor For NTG Progression: A 5-Year Prospective Study
Mohamad NF
Journal of Glaucoma 2019; 28: 952-957 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Takeyama A
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Guo X
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82342 Changes in intraocular pressure during reading or writing on smartphones in patients with normal-tension glaucoma
Jeoung JW
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Azuchi Y
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Aung T
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Tian T
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82830 Latest Developments in Normal-Pressure Glaucoma: Diagnosis, Epidemiology, Genetics, Etiology, Causes and Mechanisms to Management
Jonas JB
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 8: 457-468 (IGR: 20-4)

82765 Baseline Central Visual Field Defect as a Risk Factor For NTG Progression: A 5-Year Prospective Study
Kook MS
Journal of Glaucoma 2019; 28: 952-957 (IGR: 20-4)

82342 Changes in intraocular pressure during reading or writing on smartphones in patients with normal-tension glaucoma
Park KH
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82230 Comparison of peripapillary and subfoveal choroidal thickness in normal versus primary open-angle glaucoma (POAG) subjects using spectral domain optical coherence tomography (SD-OCT) and swept source optical coherence tomography (SS-OCT)
Senthil S
BMJ open ophthalmology 2019; 4: e000258 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Tomita G
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Harada C
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82052 Effect of topical glaucoma medication on tear lipid layer thickness in patients with unilateral glaucoma
Shin J
Indian Journal of Ophthalmology 2019; 67: 1297-1302 (IGR: 20-4)

82690 Reoperation rates after Ex-PRESS versus trabeculectomy for primary open-angle or normal-tension glaucoma: a national database study in Japan
Yasunaga H
Eye 2019; 0: (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Hashimoto N
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Ideta R
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82551 Parafoveal vessel changes in primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography angiography
Anchala AR
Clinical Ophthalmology 2019; 13: 1935-1945 (IGR: 20-4)

82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Kee C
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Moriya-Ito K
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Murakami A
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82690 Reoperation rates after Ex-PRESS versus trabeculectomy for primary open-angle or normal-tension glaucoma: a national database study in Japan
Aihara M
Eye 2019; 0: (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Hashimoto Y
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Khor CC
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82765 Baseline Central Visual Field Defect as a Risk Factor For NTG Progression: A 5-Year Prospective Study
Ramli N
Journal of Glaucoma 2019; 28: 952-957 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Pan Y
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Sasaki N
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Matsuda A
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Komaki Y
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82030 Estrogen receptor gene polymorphisms and their influence on clinical status of Caucasian patients with primary open angle glaucoma
Kocki J; Żarnowski T
Ophthalmic Genetics 2019; 40: 323-328 (IGR: 20-4)

82126 Twelve-month efficacy and safety of glaucoma filtration device for surgery in patients with normal-tension glaucoma
Shirato S
Japanese Journal of Ophthalmology 2019; 63: 402-409 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Lee CY
Scientific reports 2019; 9: 14852 (IGR: 20-4)

82354 Survival of Alpha and Intrinsically Photosensitive Retinal Ganglion Cells in NMDA-Induced Neurotoxicity and a Mouse Model of Normal Tension Glaucoma
Harada T
Investigative Ophthalmology and Visual Science 2019; 60: 3696-3707 (IGR: 20-4)

82627 Normal tension glaucoma-like degeneration of the visual system in aged marmosets
Okahara N; Guo X; Harada C; Kim E; Nakano T; Tsuneoka H; Inoue T; Sasaki E; Tokuno H; Harada T
Scientific reports 2019; 9: 14852 (IGR: 20-4)

80715 When 'glaucomatous fields' are not glaucoma: bilateral calcarine fissure strokes masquerading as glaucoma in a normal tension glaucoma suspect
Perera N
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Baek SU
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
He JN
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

81385 Optic disk hemorrhage and vitreous hemorrhage after phacoemulsification in a normal tension glaucoma patient: A case report
Hu R
Medicine 2019; 98: e16215 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Alward WLM
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Kim JS
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80901 A new biomechanical glaucoma factor to discriminate normal eyes from normal pressure glaucoma eyes
Pillunat KR
Acta Ophthalmologica 2019; 97: e962-e967 (IGR: 20-3)

81081 Impact of Posterior Sclera on Glaucoma Progression in Treated Myopic Normal-Tension Glaucoma Using Reconstructed Optical Coherence Tomographic Images
Kim YC
Investigative Ophthalmology and Visual Science 2019; 60: 2198-2207 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
He JN
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Nitta K
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)

80909 Association between Combined Structure Function Index and Glaucoma Severity
Ogawa S
Journal of Ophthalmology 2019; 2019: 9414675 (IGR: 20-3)

81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Kim JA
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Mursch-Edlmayr AS
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80628 Relationship between Macular Vessel Density and Focal Electroretinograms in Early Normal Tension Glaucoma
Honda H
Current Eye Research 2019; 44: 753-759 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Kwon J
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Baek SU
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

81467 Normal tension vs high tension glaucoma: an - overview
Lešták J
Česka a Slovenska Oftalmologie 2019; 75: 55-60 (IGR: 20-3)

81331 Changes of Central Corneal Thickness in Normotensive and Hypertensive Glaucoma
Lešták J
Česka a Slovenska Oftalmologie 2019; 74: 186-189 (IGR: 20-3)

81004 Melanopsin-mediated pupillary light reflex and sleep quality in patients with normal tension glaucoma
Ahmadi H
Acta Ophthalmologica 2020; 98: 65-73 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Marshall HN
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80563 Comparison of Visual Field Progression Rates Among the High Tension Glaucoma, Primary Angle Closure Glaucoma, and Normal Tension Glaucoma
Ballae Ganeshrao S
Investigative Ophthalmology and Visual Science 2019; 60: 889-900 (IGR: 20-3)

81071 Correlation between Basal Macular Circulation and Following Glaucomatous Damage in Progressed High-Tension and Normal-Tension Glaucoma
Lee CY
Ophthalmic Research 2019; 62: 46-54 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Tepelus TC
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80506 Different Disc Characteristics Associated With High Myopia and the Location of Glaucomatous Damage in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Lan YW
Journal of Glaucoma 2019; 28: 519-528 (IGR: 20-3)

80909 Association between Combined Structure Function Index and Glaucoma Severity
Tanabe Y
Journal of Ophthalmology 2019; 2019: 9414675 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Jo YH
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Sugiyama K
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)

81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Kim TW
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)

80628 Relationship between Macular Vessel Density and Focal Electroretinograms in Early Normal Tension Glaucoma
Anraku A
Current Eye Research 2019; 44: 753-759 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Song S
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Andrew NH
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
van der Heide C
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Ha A
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

80506 Different Disc Characteristics Associated With High Myopia and the Location of Glaucomatous Damage in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Chang SY
Journal of Glaucoma 2019; 28: 519-528 (IGR: 20-3)

81385 Optic disk hemorrhage and vitreous hemorrhage after phacoemulsification in a normal tension glaucoma patient: A case report
Shen L
Medicine 2019; 98: e16215 (IGR: 20-3)

81467 Normal tension vs high tension glaucoma: an - overview
Pitrová Š
Česka a Slovenska Oftalmologie 2019; 75: 55-60 (IGR: 20-3)

81004 Melanopsin-mediated pupillary light reflex and sleep quality in patients with normal tension glaucoma
Lund-Andersen H
Acta Ophthalmologica 2020; 98: 65-73 (IGR: 20-3)

81331 Changes of Central Corneal Thickness in Normotensive and Hypertensive Glaucoma
Pitrová Š
Česka a Slovenska Oftalmologie 2019; 74: 186-189 (IGR: 20-3)

81071 Correlation between Basal Macular Circulation and Following Glaucomatous Damage in Progressed High-Tension and Normal-Tension Glaucoma
Liu CH
Ophthalmic Research 2019; 62: 46-54 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Lu S
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Kim YK
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80901 A new biomechanical glaucoma factor to discriminate normal eyes from normal pressure glaucoma eyes
Herber R
Acta Ophthalmologica 2019; 97: e962-e967 (IGR: 20-3)

80715 When 'glaucomatous fields' are not glaucoma: bilateral calcarine fissure strokes masquerading as glaucoma in a normal tension glaucoma suspect
Shields M
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-3)

81081 Impact of Posterior Sclera on Glaucoma Progression in Treated Myopic Normal-Tension Glaucoma Using Reconstructed Optical Coherence Tomographic Images
Koo YH
Investigative Ophthalmology and Visual Science 2019; 60: 2198-2207 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Luft N
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80563 Comparison of Visual Field Progression Rates Among the High Tension Glaucoma, Primary Angle Closure Glaucoma, and Normal Tension Glaucoma
Senthil S
Investigative Ophthalmology and Visual Science 2019; 60: 889-900 (IGR: 20-3)

80901 A new biomechanical glaucoma factor to discriminate normal eyes from normal pressure glaucoma eyes
Herber R
Acta Ophthalmologica 2019; 97: e962-e967 (IGR: 20-3)

81081 Impact of Posterior Sclera on Glaucoma Progression in Treated Myopic Normal-Tension Glaucoma Using Reconstructed Optical Coherence Tomographic Images
Jung KI
Investigative Ophthalmology and Visual Science 2019; 60: 2198-2207 (IGR: 20-3)

80909 Association between Combined Structure Function Index and Glaucoma Severity
Itoh Y
Journal of Ophthalmology 2019; 2019: 9414675 (IGR: 20-3)

81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Wajima R
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)

80563 Comparison of Visual Field Progression Rates Among the High Tension Glaucoma, Primary Angle Closure Glaucoma, and Normal Tension Glaucoma
Choudhari N
Investigative Ophthalmology and Visual Science 2019; 60: 889-900 (IGR: 20-3)

81331 Changes of Central Corneal Thickness in Normotensive and Hypertensive Glaucoma
Nutterová E
Česka a Slovenska Oftalmologie 2019; 74: 186-189 (IGR: 20-3)

80901 A new biomechanical glaucoma factor to discriminate normal eyes from normal pressure glaucoma eyes
Spoerl E
Acta Ophthalmologica 2019; 97: e962-e967 (IGR: 20-3)

81071 Correlation between Basal Macular Circulation and Following Glaucomatous Damage in Progressed High-Tension and Normal-Tension Glaucoma
Chen HC
Ophthalmic Research 2019; 62: 46-54 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Borrelli E
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80715 When 'glaucomatous fields' are not glaucoma: bilateral calcarine fissure strokes masquerading as glaucoma in a normal tension glaucoma suspect
Perera M
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Jeong D
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Baek SU
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Kim DW
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Podkowinski D
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

81467 Normal tension vs high tension glaucoma: an - overview
Nutterová E
Česka a Slovenska Oftalmologie 2019; 75: 55-60 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Hassall M
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Borrelli E
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80506 Different Disc Characteristics Associated With High Myopia and the Location of Glaucomatous Damage in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Sun FJ
Journal of Glaucoma 2019; 28: 519-528 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Baek SU
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80628 Relationship between Macular Vessel Density and Focal Electroretinograms in Early Normal Tension Glaucoma
Ishida K
Current Eye Research 2019; 44: 753-759 (IGR: 20-3)

81385 Optic disk hemorrhage and vitreous hemorrhage after phacoemulsification in a normal tension glaucoma patient: A case report
Wang X
Medicine 2019; 98: e16215 (IGR: 20-3)

81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Lee EJ
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)

81004 Melanopsin-mediated pupillary light reflex and sleep quality in patients with normal tension glaucoma
Kolko M
Acta Ophthalmologica 2020; 98: 65-73 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Khanna CL
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

81467 Normal tension vs high tension glaucoma: an - overview
Nutterová E
Česka a Slovenska Oftalmologie 2019; 75: 55-60 (IGR: 20-3)

81331 Changes of Central Corneal Thickness in Normotensive and Hypertensive Glaucoma
Nutterová E
Česka a Slovenska Oftalmologie 2019; 74: 186-189 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Chen LJ
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Ha A
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

81004 Melanopsin-mediated pupillary light reflex and sleep quality in patients with normal tension glaucoma
Bach-Holm D
Acta Ophthalmologica 2020; 98: 65-73 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Ring M
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

81467 Normal tension vs high tension glaucoma: an - overview
Bartošová L
Česka a Slovenska Oftalmologie 2019; 75: 55-60 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Qassim A
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Tam POS
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80506 Different Disc Characteristics Associated With High Myopia and the Location of Glaucomatous Damage in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Hsieh JW
Journal of Glaucoma 2019; 28: 519-528 (IGR: 20-3)

81071 Correlation between Basal Macular Circulation and Following Glaucomatous Damage in Progressed High-Tension and Normal-Tension Glaucoma
Sun CC
Ophthalmic Research 2019; 62: 46-54 (IGR: 20-3)

81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Kim JM
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)

81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Tachibana G
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Jeoung JW
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

80563 Comparison of Visual Field Progression Rates Among the High Tension Glaucoma, Primary Angle Closure Glaucoma, and Normal Tension Glaucoma
Sri Durgam S
Investigative Ophthalmology and Visual Science 2019; 60: 889-900 (IGR: 20-3)

80901 A new biomechanical glaucoma factor to discriminate normal eyes from normal pressure glaucoma eyes
Erb C
Acta Ophthalmologica 2019; 97: e962-e967 (IGR: 20-3)

80715 When 'glaucomatous fields' are not glaucoma: bilateral calcarine fissure strokes masquerading as glaucoma in a normal tension glaucoma suspect
Adler PA
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-3)

81081 Impact of Posterior Sclera on Glaucoma Progression in Treated Myopic Normal-Tension Glaucoma Using Reconstructed Optical Coherence Tomographic Images
Park CK
Investigative Ophthalmology and Visual Science 2019; 60: 2198-2207 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Roos BR
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80909 Association between Combined Structure Function Index and Glaucoma Severity
Noro T
Journal of Ophthalmology 2019; 2019: 9414675 (IGR: 20-3)

80628 Relationship between Macular Vessel Density and Focal Electroretinograms in Early Normal Tension Glaucoma
Enomoto N
Current Eye Research 2019; 44: 753-759 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Nittala MG
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Shon K
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Schmetterer L
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Souzeau E
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Park KH
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Baghdasaryan E
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Kook MS
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Kim YW
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Sivaprasad S
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80628 Relationship between Macular Vessel Density and Focal Electroretinograms in Early Normal Tension Glaucoma
Tomita G
Current Eye Research 2019; 44: 753-759 (IGR: 20-3)

81004 Melanopsin-mediated pupillary light reflex and sleep quality in patients with normal tension glaucoma
Alberti M
Acta Ophthalmologica 2020; 98: 65-73 (IGR: 20-3)

80563 Comparison of Visual Field Progression Rates Among the High Tension Glaucoma, Primary Angle Closure Glaucoma, and Normal Tension Glaucoma
Garudadri CS
Investigative Ophthalmology and Visual Science 2019; 60: 889-900 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Zhang BN
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Yamada Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)

80909 Association between Combined Structure Function Index and Glaucoma Severity
Gunji H
Journal of Ophthalmology 2019; 2019: 9414675 (IGR: 20-3)

81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Girard MJA
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)

80901 A new biomechanical glaucoma factor to discriminate normal eyes from normal pressure glaucoma eyes
Pillunat LE
Acta Ophthalmologica 2019; 97: e962-e967 (IGR: 20-3)

81071 Correlation between Basal Macular Circulation and Following Glaucomatous Damage in Progressed High-Tension and Normal-Tension Glaucoma
Yao YP
Ophthalmic Research 2019; 62: 46-54 (IGR: 20-3)

81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Mari JM
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)

81004 Melanopsin-mediated pupillary light reflex and sleep quality in patients with normal tension glaucoma
Ba-Ali S
Acta Ophthalmologica 2020; 98: 65-73 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Leung CKS
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80909 Association between Combined Structure Function Index and Glaucoma Severity
Nakano T
Journal of Ophthalmology 2019; 2019: 9414675 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Ridge B
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Kam J
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

81071 Correlation between Basal Macular Circulation and Following Glaucomatous Damage in Progressed High-Tension and Normal-Tension Glaucoma
Chao SC
Ophthalmic Research 2019; 62: 46-54 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Jeoung JW
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80990 Risk factors for disease progression in low-teens normal-tension glaucoma
Kim YK
British Journal of Ophthalmology 2020; 104: 81-86 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Bolz M
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Sadda SR
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Nguyen T
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Pang CP
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Chopra V
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Ritch R
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Park KH
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Lotery A
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Fitzgerald J
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Tham CCY
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Awadalla MS
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

81280 Coding Region Mutation Screening in Optineurin in Chinese Normal-Tension Glaucoma Patients
Chu WK
Disease markers 2019; 2019: 5820537 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Igo RP; Cooke Bailey JN
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Burdon KP; Healey PR
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Stone EM; Scheetz TE
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Agar A; Galanopoulos A
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Kwon YH
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Hewitt AW
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Pasquale LR; Wiggs JL
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Graham SL
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma
Fingert JH
JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Landers J; Casson RJ
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80536 Myocilin Mutations in Patients With Normal-Tension Glaucoma

JAMA ophthalmology 2019; 137: 559-563 (IGR: 20-3)

80727 Macular Ganglion Cell-Inner Plexiform Layer Loss Precedes Peripapillary Retinal Nerve Fiber Layer Loss in Glaucoma with Lower Intraocular Pressure
Craig JE
Ophthalmology 2019; 126: 1119-1130 (IGR: 20-3)

80043 Glaucomatous optic disc changes despite normal baseline intraocular pressure in a child
Hoffman BB
American journal of ophthalmology case reports 2019; 13: 104-109 (IGR: 20-2)

79749 The Difference between Ganglion Cell Complex and Nerve Fiber Layer in the Same Altitudinal Halves of the Retina in Hyper-tension and Normal-tension Glaucomas
Lešták J
Česka a Slovenska Oftalmologie 0; 73: 218-221 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Vohra R
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

80031 The Effects of Optic Nerve Head Tilt on Visual Field Defects in Myopic Normal Tension Glaucoma: The Intereye Comparison Study
Choi JH
Journal of Glaucoma 2019; 28: 341-346 (IGR: 20-2)

79505 Melatonin Levels in Patients With Primary Open-angle Glaucoma With High or Low Intraocular Pressure
Kim JY
Journal of Glaucoma 2019; 28: 154-160 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Sakata R
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Liu HR
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Toshev AP
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Sano H
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

80084 Intraocular Pressure (IOP) Change and Frequency of IOP Spike After Cataract Surgery in Normal-tension Glaucoma: A Case-Control Study
Seol BR
Journal of Glaucoma 2019; 28: 201-206 (IGR: 20-2)

79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Wang XM
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)

79983 Intraocular pressure change during laparoscopic sacral colpopexy in patients with normal tension glaucoma
Moriyama Y
International urogynecology journal 2019; 30: 1933-1938 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Kuerten D
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

80019 Segmental inner macular layer analysis with spectral-domain optical coherence tomography for early detection of normal tension glaucoma
Lin JP
PLoS ONE 2019; 14: e0210215 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Trivli A
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Park JH
Medicine 2019; 98: e14044 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Chen YY
BMJ open 2018; 8: e022987 (IGR: 20-2)

80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Yoo C
Medicine 2019; 98: e14044 (IGR: 20-2)

79983 Intraocular pressure change during laparoscopic sacral colpopexy in patients with normal tension glaucoma
Miwa K
International urogynecology journal 2019; 30: 1933-1938 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Dalgaard LM
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Lai YJ
BMJ open 2018; 8: e022987 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Yang DY
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

80043 Glaucomatous optic disc changes despite normal baseline intraocular pressure in a child
Rosenfeld E
American journal of ophthalmology case reports 2019; 13: 104-109 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Namekata K
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

79505 Melatonin Levels in Patients With Primary Open-angle Glaucoma With High or Low Intraocular Pressure
Jeong AR
Journal of Glaucoma 2019; 28: 154-160 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Koliarakis I
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

80031 The Effects of Optic Nerve Head Tilt on Visual Field Defects in Myopic Normal Tension Glaucoma: The Intereye Comparison Study
Han JC
Journal of Glaucoma 2019; 28: 341-346 (IGR: 20-2)

79749 The Difference between Ganglion Cell Complex and Nerve Fiber Layer in the Same Altitudinal Halves of the Retina in Hyper-tension and Normal-tension Glaucomas
Pitrová Š
Česka a Slovenska Oftalmologie 0; 73: 218-221 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Schuster AK
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80084 Intraocular Pressure (IOP) Change and Frequency of IOP Spike After Cataract Surgery in Normal-tension Glaucoma: A Case-Control Study
Shin JY
Journal of Glaucoma 2019; 28: 201-206 (IGR: 20-2)

79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Sun XH
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Yoshitomi T
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Fuest M
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

80019 Segmental inner macular layer analysis with spectral-domain optical coherence tomography for early detection of normal tension glaucoma
Lin PW
PLoS ONE 2019; 14: e0210215 (IGR: 20-2)

79505 Melatonin Levels in Patients With Primary Open-angle Glaucoma With High or Low Intraocular Pressure
Chin HS
Journal of Glaucoma 2019; 28: 154-160 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Ul Hassan SN
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80084 Intraocular Pressure (IOP) Change and Frequency of IOP Spike After Cataract Surgery in Normal-tension Glaucoma: A Case-Control Study
Choi S
Journal of Glaucoma 2019; 28: 201-206 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Terzidou C
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Bienert M
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

80019 Segmental inner macular layer analysis with spectral-domain optical coherence tomography for early detection of normal tension glaucoma
Lai IC
PLoS ONE 2019; 14: e0210215 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Iwase A
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Vibaek J
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Dai Y
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)

80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Jung JH
Medicine 2019; 98: e14044 (IGR: 20-2)

79983 Intraocular pressure change during laparoscopic sacral colpopexy in patients with normal tension glaucoma
Yamada T
International urogynecology journal 2019; 30: 1933-1938 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Yen YF
BMJ open 2018; 8: e022987 (IGR: 20-2)

80043 Glaucomatous optic disc changes despite normal baseline intraocular pressure in a child
Grajewski AL
American journal of ophthalmology case reports 2019; 13: 104-109 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Kimura A
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

80031 The Effects of Optic Nerve Head Tilt on Visual Field Defects in Myopic Normal Tension Glaucoma: The Intereye Comparison Study
Kee C
Journal of Glaucoma 2019; 28: 341-346 (IGR: 20-2)

79749 The Difference between Ganglion Cell Complex and Nerve Fiber Layer in the Same Altitudinal Halves of the Retina in Hyper-tension and Normal-tension Glaucomas
Žáková M
Česka a Slovenska Oftalmologie 0; 73: 218-221 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Ma T
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Pfeiffer N
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Shitara H
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Girard MJA
Medicine 2019; 98: e14044 (IGR: 20-2)

80084 Intraocular Pressure (IOP) Change and Frequency of IOP Spike After Cataract Surgery in Normal-tension Glaucoma: A Case-Control Study
Kang TG
Journal of Glaucoma 2019; 28: 201-206 (IGR: 20-2)

79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Kong XM
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Matsumoto C
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Walter P
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

80019 Segmental inner macular layer analysis with spectral-domain optical coherence tomography for early detection of normal tension glaucoma
Tsai JC
PLoS ONE 2019; 14: e0210215 (IGR: 20-2)

79505 Melatonin Levels in Patients With Primary Open-angle Glaucoma With High or Low Intraocular Pressure
Kim NR
Journal of Glaucoma 2019; 28: 154-160 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Goulielmos GN
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Shi WY
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

79983 Intraocular pressure change during laparoscopic sacral colpopexy in patients with normal tension glaucoma
Sawaki A
International urogynecology journal 2019; 30: 1933-1938 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Shen YC
BMJ open 2018; 8: e022987 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Langbøl MA
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

80043 Glaucomatous optic disc changes despite normal baseline intraocular pressure in a child
Chang TC
American journal of ophthalmology case reports 2019; 13: 104-109 (IGR: 20-2)

79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Chen YH
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)

79983 Intraocular pressure change during laparoscopic sacral colpopexy in patients with normal tension glaucoma
Nishino Y
International urogynecology journal 2019; 30: 1933-1938 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Hoffmann EM
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Mari JM
Medicine 2019; 98: e14044 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Wang CY
BMJ open 2018; 8: e022987 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Higashide T
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Siganos CS
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

80084 Intraocular Pressure (IOP) Change and Frequency of IOP Spike After Cataract Surgery in Normal-tension Glaucoma: A Case-Control Study
Jeoung JW
Journal of Glaucoma 2019; 28: 201-206 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Bergersen LH
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Plange N
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Chen YH
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Guo X
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Pang RQ
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Harada C
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Spandidos DA
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

80084 Intraocular Pressure (IOP) Change and Frequency of IOP Spike After Cataract Surgery in Normal-tension Glaucoma: A Case-Control Study
Park KH
Journal of Glaucoma 2019; 28: 201-206 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Liang CY
BMJ open 2018; 8: e022987 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Shirakashi M
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Olsen NV
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Kim YY
Medicine 2019; 98: e14044 (IGR: 20-2)

79983 Intraocular pressure change during laparoscopic sacral colpopexy in patients with normal tension glaucoma
Kitagawa Y
International urogynecology journal 2019; 30: 1933-1938 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Dalianis G
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Mitamura Y
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Lin KH
BMJ open 2018; 8: e022987 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Du JL
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Hassel B
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Aihara M
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Chaudhry FA
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Zhu Q
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Sugiyama K
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

79859 Differential effects of N-acetylcysteine on retinal degeneration in two mouse models of normal tension glaucoma
Harada T
Cell Death and Disease 2019; 10: 75 (IGR: 20-2)

79501 Association between normal tension glaucoma and the risk of Alzheimer's disease: a nationwide population-based cohort study in Taiwan
Fan LW
BMJ open 2018; 8: e022987 (IGR: 20-2)

79968 Normal-tension glaucoma: Pathogenesis and genetics
Detorakis ET
Experimental and therapeutic medicine 2019; 17: 563-574 (IGR: 20-2)

79446 Preliminary study on the measurement of optic nerve subarachnoid space in patients with normal tension glaucoma
Wang NL
Chinese Journal of Ophthalmology 2018; 54: 827-832 (IGR: 20-2)

79862 Potential metabolic markers in glaucoma and their regulation in response to hypoxia
Kolko M
Acta Ophthalmologica 2019; 97: 567-576 (IGR: 20-2)

80071 Factors Associated with Progression of Japanese Open-Angle Glaucoma with Lower Normal Intraocular Pressure
Araie M;
Ophthalmology 2019; 126: 1107-1116 (IGR: 20-2)

78817 Ocular hypotensive effects of prostaglandin analogs in Japanese patients with normal-tension glaucoma: a literature review
Takagi Y
Clinical Ophthalmology 2018; 12: 1837-1844 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Tojo N
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Kojima H
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)

78357 Effect of quantitative intraocular pressure reduction on visual field defect progression in normal tension glaucoma under medical therapy applying Markov model
Yoshikawa K
Clinical Ophthalmology 2018; 12: 1617-1624 (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Zhao J
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Garcia GP
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78435 Intraocular retinal thickness asymmetry in early stage of primary open angle glaucoma and normal tension glaucoma
Lin PW
International Journal of Ophthalmology 2018; 11: 1342-1351 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Piotrowska-Nowak A
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Kojima H
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)

79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Kosior-Jarecka E
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Barbosa-Breda J
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Lindemann F
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78913 Normotensive glaucoma
Lestak J
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2018; 0: (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Nitta K
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Kuerten D
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Wróbel-Dudzińska D
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Van Keer K
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Kosior-Jarecka E
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

78913 Normotensive glaucoma
Jiraskova N
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2018; 0: (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Solano MM
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Hirooka K
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)

78817 Ocular hypotensive effects of prostaglandin analogs in Japanese patients with normal-tension glaucoma: a literature review
Santo K
Clinical Ophthalmology 2018; 12: 1837-1844 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Otsuka M
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

78357 Effect of quantitative intraocular pressure reduction on visual field defect progression in normal tension glaucoma under medical therapy applying Markov model
Santo K
Clinical Ophthalmology 2018; 12: 1617-1624 (IGR: 20-1)

78435 Intraocular retinal thickness asymmetry in early stage of primary open angle glaucoma and normal tension glaucoma
Chang HW
International Journal of Ophthalmology 2018; 11: 1342-1351 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Schab A
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Lavieri MS
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Abegão-Pinto L
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Hayashi A
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

78357 Effect of quantitative intraocular pressure reduction on visual field defect progression in normal tension glaucoma under medical therapy applying Markov model
Hizaki H
Clinical Ophthalmology 2018; 12: 1617-1624 (IGR: 20-1)

78435 Intraocular retinal thickness asymmetry in early stage of primary open angle glaucoma and normal tension glaucoma
Lai IC
International Journal of Ophthalmology 2018; 11: 1342-1351 (IGR: 20-1)

78817 Ocular hypotensive effects of prostaglandin analogs in Japanese patients with normal-tension glaucoma: a literature review
Hashimoto M
Clinical Ophthalmology 2018; 12: 1837-1844 (IGR: 20-1)

78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Nitta E
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)

78913 Normotensive glaucoma
Zakova M
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2018; 0: (IGR: 20-1)

79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Łukasik U
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Koch E
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Oldenburg CE
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Sonoda S
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Wrobel-Dudzinska D
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

78913 Normotensive glaucoma
Stredova M
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2018; 0: (IGR: 20-1)

78435 Intraocular retinal thickness asymmetry in early stage of primary open angle glaucoma and normal tension glaucoma
Tsai JC
International Journal of Ophthalmology 2018; 11: 1342-1351 (IGR: 20-1)

78817 Ocular hypotensive effects of prostaglandin analogs in Japanese patients with normal-tension glaucoma: a literature review
Fukuchi T
Clinical Ophthalmology 2018; 12: 1837-1844 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Fuest M
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78357 Effect of quantitative intraocular pressure reduction on visual field defect progression in normal tension glaucoma under medical therapy applying Markov model
Hashimoto M
Clinical Ophthalmology 2018; 12: 1617-1624 (IGR: 20-1)

79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Żarnowski T
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Andrews C
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Liu T
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Nassiri V
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

78435 Intraocular retinal thickness asymmetry in early stage of primary open angle glaucoma and normal tension glaucoma
Poon YC
International Journal of Ophthalmology 2018; 11: 1342-1351 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Fischer C
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Liu X
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Sakamoto T
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Wang Y
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Bartnik E
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Molenberghs G; Willekens K
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Wang N
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Zarnowski T
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Lobaza E
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Voss A
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Vandewalle E
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

79174 Prevalence of Normal-Tension Glaucoma in the Chinese Population: A Systematic Review and Meta-Analysis
Lin SC
American Journal of Ophthalmology 2019; 199: 101-110 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Plange N
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

79230 Investigation of whole mitochondrial genome variation in normal tension glaucoma
Tonska K
Experimental Eye Research 2019; 178: 186-197 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Van Oyen MP; Sugiyama K
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Rocha-Sousa A
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

79199 Using Kalman Filtering to Forecast Disease Trajectory for Patients With Normal Tension Glaucoma
Stein JD
American Journal of Ophthalmology 2019; 199: 111-119 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Stalmans I
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

77893 Investigation of lateral geniculate nucleus volume and diffusion tensor imaging in patients with normal tension glaucoma using 7 tesla magnetic resonance imaging
Schmidt MA
PLoS ONE 2018; 13: e0198830 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Muthu Krishnan V
Cureus 2018; 10: e2638 (IGR: 19-4)

77918 Association between the Frequency of Optic Disk Hemorrhage and Progression of NTG Related with the Initial Location of RNFL Defect
Cho HK
Ophthalmic Research 2018; 60: 152-160 (IGR: 19-4)

77713 Applicability of ISNT Rule Using BMO-MRW to Differentiate Between Healthy and Glaucomatous Eyes
Park DY
Journal of Glaucoma 2018; 27: 610-616 (IGR: 19-4)

77892 Carbohydrate ingestion induces differential autonomic dysregulation in normal-tension glaucoma and primary open angle glaucoma
Cao L
PLoS ONE 2018; 13: e0198432 (IGR: 19-4)

77713 Applicability of ISNT Rule Using BMO-MRW to Differentiate Between Healthy and Glaucomatous Eyes
Lee EJ
Journal of Glaucoma 2018; 27: 610-616 (IGR: 19-4)

77892 Carbohydrate ingestion induces differential autonomic dysregulation in normal-tension glaucoma and primary open angle glaucoma
Graham SL
PLoS ONE 2018; 13: e0198432 (IGR: 19-4)

77918 Association between the Frequency of Optic Disk Hemorrhage and Progression of NTG Related with the Initial Location of RNFL Defect
Lee MG
Ophthalmic Research 2018; 60: 152-160 (IGR: 19-4)

77893 Investigation of lateral geniculate nucleus volume and diffusion tensor imaging in patients with normal tension glaucoma using 7 tesla magnetic resonance imaging
Knott M
PLoS ONE 2018; 13: e0198830 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Datta Gulnar P
Cureus 2018; 10: e2638 (IGR: 19-4)

77918 Association between the Frequency of Optic Disk Hemorrhage and Progression of NTG Related with the Initial Location of RNFL Defect
Kee C
Ophthalmic Research 2018; 60: 152-160 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Vasudev Anand R
Cureus 2018; 10: e2638 (IGR: 19-4)

77713 Applicability of ISNT Rule Using BMO-MRW to Differentiate Between Healthy and Glaucomatous Eyes
Han JC
Journal of Glaucoma 2018; 27: 610-616 (IGR: 19-4)

77892 Carbohydrate ingestion induces differential autonomic dysregulation in normal-tension glaucoma and primary open angle glaucoma
Pilowsky PM
PLoS ONE 2018; 13: e0198432 (IGR: 19-4)

77893 Investigation of lateral geniculate nucleus volume and diffusion tensor imaging in patients with normal tension glaucoma using 7 tesla magnetic resonance imaging
Heidemann R; Michelson G
PLoS ONE 2018; 13: e0198830 (IGR: 19-4)

77713 Applicability of ISNT Rule Using BMO-MRW to Differentiate Between Healthy and Glaucomatous Eyes
Kee C
Journal of Glaucoma 2018; 27: 610-616 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Vijayakumar C; Balasubramaniyan G
Cureus 2018; 10: e2638 (IGR: 19-4)

76530 Normal tension glaucoma: review of current understanding and mechanisms of the pathogenesis
Killer HE
Eye 2018; 32: 924-930 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Pircher A
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Li BB
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Wang R
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Mursch-Edlmayr AS
Scientific reports 2018; 8: 5343 (IGR: 19-3)

76917 Intracranial and Intraocular Pressure at the Lamina Cribrosa: Gradient Effects
Jóhannesson G
Current neurology and neuroscience reports 2018; 18: 25 (IGR: 19-3)

76668 Structural changes of macular inner retinal layers in early normal-tension and high-tension glaucoma by spectral-domain optical coherence tomography
Edlinger FSM
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1245-1256 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Xu H
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Mastropasqua R
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

77026 Gene expression changes in the retina after systemic administration of aldosterone
Ono A
Japanese Journal of Ophthalmology 2018; 62: 499-507 (IGR: 19-3)

76860 Comparison of T Helper Cell Patterns in Primary Open-Angle Glaucoma and Normal-Pressure Glaucoma
Guo C
Medical Science Monitor 2018; 24: 1988-1996 (IGR: 19-3)

77268 Peripapillary choroidal thickness in untreated normal-tension glaucoma eyes with a single-hemifield retinal nerve fiber layer defect
Park JH
Medicine 2018; 97: e11001 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Kosior-Jarecka E
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Akaiwa K
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76644 Heart rate variability: the comparison between high tension and normal tension glaucoma
Kurysheva NI
The EPMA Journal 2018; 9: 35-45 (IGR: 19-3)

77268 Peripapillary choroidal thickness in untreated normal-tension glaucoma eyes with a single-hemifield retinal nerve fiber layer defect
Yoo C
Medicine 2018; 97: e11001 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Zhai R
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Tang Z
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

77026 Gene expression changes in the retina after systemic administration of aldosterone
Hirooka K
Japanese Journal of Ophthalmology 2018; 62: 499-507 (IGR: 19-3)

76860 Comparison of T Helper Cell Patterns in Primary Open-Angle Glaucoma and Normal-Pressure Glaucoma
Wu N
Medical Science Monitor 2018; 24: 1988-1996 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Montali M
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Luft N
Scientific reports 2018; 8: 5343 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Bartosińska J
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76644 Heart rate variability: the comparison between high tension and normal tension glaucoma
Ryabova TY
The EPMA Journal 2018; 9: 35-45 (IGR: 19-3)

76668 Structural changes of macular inner retinal layers in early normal-tension and high-tension glaucoma by spectral-domain optical coherence tomography
Schrems-Hoesl LM
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1245-1256 (IGR: 19-3)

76530 Normal tension glaucoma: review of current understanding and mechanisms of the pathogenesis
Pircher A
Eye 2018; 32: 924-930 (IGR: 19-3)

76917 Intracranial and Intraocular Pressure at the Lamina Cribrosa: Gradient Effects
Eklund A
Current neurology and neuroscience reports 2018; 18: 25 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Cai Y
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Agnifili L
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Namekata K; Azuchi Y
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Łukasik U
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76644 Heart rate variability: the comparison between high tension and normal tension glaucoma
Shlapak VN
The EPMA Journal 2018; 9: 35-45 (IGR: 19-3)

76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Podkowinski D
Scientific reports 2018; 8: 5343 (IGR: 19-3)

77268 Peripapillary choroidal thickness in untreated normal-tension glaucoma eyes with a single-hemifield retinal nerve fiber layer defect
Kim YY
Medicine 2018; 97: e11001 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Zong Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76860 Comparison of T Helper Cell Patterns in Primary Open-Angle Glaucoma and Normal-Pressure Glaucoma
Niu X
Medical Science Monitor 2018; 24: 1988-1996 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Borrelli E
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76917 Intracranial and Intraocular Pressure at the Lamina Cribrosa: Gradient Effects
Lindén C
Current neurology and neuroscience reports 2018; 18: 25 (IGR: 19-3)

77026 Gene expression changes in the retina after systemic administration of aldosterone
Nakano Y
Japanese Journal of Ophthalmology 2018; 62: 499-507 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Wostyn P
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

76668 Structural changes of macular inner retinal layers in early normal-tension and high-tension glaucoma by spectral-domain optical coherence tomography
Mardin CY
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1245-1256 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Sun X
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Pan YZ
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Pircher J
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

77026 Gene expression changes in the retina after systemic administration of aldosterone
Nitta E
Japanese Journal of Ophthalmology 2018; 62: 499-507 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Wu L
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Wróbel-Dudzińska D
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Sano H
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76668 Structural changes of macular inner retinal layers in early normal-tension and high-tension glaucoma by spectral-domain optical coherence tomography
Laemmer R
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1245-1256 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Li M
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76860 Comparison of T Helper Cell Patterns in Primary Open-Angle Glaucoma and Normal-Pressure Glaucoma
Wu Y
Medical Science Monitor 2018; 24: 1988-1996 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Fasanella V
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Kong X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Ring M
Scientific reports 2018; 8: 5343 (IGR: 19-3)

76668 Structural changes of macular inner retinal layers in early normal-tension and high-tension glaucoma by spectral-domain optical coherence tomography
Kruse FE
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1245-1256 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Guo X
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Fang Y
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Berberat J
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Wang J
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Schmetterer L
Scientific reports 2018; 8: 5343 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Krasowska D
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76860 Comparison of T Helper Cell Patterns in Primary Open-Angle Glaucoma and Normal-Pressure Glaucoma
Chen D
Medical Science Monitor 2018; 24: 1988-1996 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Jiang C
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Brescia L
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

77026 Gene expression changes in the retina after systemic administration of aldosterone
Nishiyama A
Japanese Journal of Ophthalmology 2018; 62: 499-507 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Zhong Y
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Chodorowska G
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Di Antonio L
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Kimura A
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Remonda L
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Tian T
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Bolz M
Scientific reports 2018; 8: 5343 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Sun X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

77026 Gene expression changes in the retina after systemic administration of aldosterone
Tsujikawa A
Japanese Journal of Ophthalmology 2018; 62: 499-507 (IGR: 19-3)

76668 Structural changes of macular inner retinal layers in early normal-tension and high-tension glaucoma by spectral-domain optical coherence tomography
Schrems WA
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1245-1256 (IGR: 19-3)

76860 Comparison of T Helper Cell Patterns in Primary Open-Angle Glaucoma and Normal-Pressure Glaucoma
Guo W
Medical Science Monitor 2018; 24: 1988-1996 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
He Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76650 The association between corneal biomechanical parameters and visual field progression in patients with normal tension glaucoma
Yan XM
Chinese Journal of Ophthalmology 2018; 54: 171-176 (IGR: 19-3)

76875 White Matter Abnormalities and Correlation With Severity in Normal Tension Glaucoma: A Whole Brain Atlas-Based Diffusion Tensor Study
Xiao Z
Investigative Ophthalmology and Visual Science 2018; 59: 1313-1322 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Mastropasqua L
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Żarnowski T
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Harada C
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76683 Impaired cerebrospinal fluid dynamics along the entire optic nerve in normal-tension glaucoma
Killer HE
Acta Ophthalmologica 2018; 96: e562-e569 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Mitamura Y
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Li X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76970 Topical Ripasudil Suppresses Retinal Ganglion Cell Death in a Mouse Model of Normal Tension Glaucoma
Harada T
Investigative Ophthalmology and Visual Science 2018; 59: 2080-2089 (IGR: 19-3)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Boye D
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Burdon KP
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75545 Choroidal hypoperfusion: an indicator of low tension neovascular glaucoma
Behera UC
International Ophthalmology 2017; 0: (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
DeLuca AP
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Nitta K
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75446 The Association of Single-Nucleotide Polymorphisms in the MMP-9 Gene with Normal Tension Glaucoma and Primary Open-Angle Glaucoma
Suh W
Current Eye Research 2018; 43: 534-538 (IGR: 19-2)

75645 The Efficacy and Safety of the Fixed Combination of Brinzolamide 1% and Brimonidine 0.2% in Normal Tension Glaucoma: An 18-Month Retrospective Study
Jin SW
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 274-279 (IGR: 19-2)

75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Kiyota N
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)

75583 Three-Dimensional Evaluation of Posterior Pole and Optic Nerve Head in Myopes with Glaucoma
Kim YC
Scientific reports 2017; 7: 18001 (IGR: 19-2)

75531 Measurement and Associations of the Optic Nerve Subarachnoid Space in Normal Tension and Primary Open-Angle Glaucoma
Liu H
American Journal of Ophthalmology 2018; 186: 128-137 (IGR: 19-2)

75256 Effect of primary Phacoviscocanalostomy/ Viscocanalostomy on intraocular pressure of normal tension glaucoma patients: 3-year results
Ho DK
BMC Ophthalmology 2017; 17: 201 (IGR: 19-2)

75446 The Association of Single-Nucleotide Polymorphisms in the MMP-9 Gene with Normal Tension Glaucoma and Primary Open-Angle Glaucoma
Won HH
Current Eye Research 2018; 43: 534-538 (IGR: 19-2)

75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Kunikata H
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)

75256 Effect of primary Phacoviscocanalostomy/ Viscocanalostomy on intraocular pressure of normal tension glaucoma patients: 3-year results
Garrick A
BMC Ophthalmology 2017; 17: 201 (IGR: 19-2)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Montali M
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75583 Three-Dimensional Evaluation of Posterior Pole and Optic Nerve Head in Myopes with Glaucoma
Jung KI
Scientific reports 2017; 7: 18001 (IGR: 19-2)

75531 Measurement and Associations of the Optic Nerve Subarachnoid Space in Normal Tension and Primary Open-Angle Glaucoma
Yang D
American Journal of Ophthalmology 2018; 186: 128-137 (IGR: 19-2)

75545 Choroidal hypoperfusion: an indicator of low tension neovascular glaucoma
Singh A
International Ophthalmology 2017; 0: (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Awadalla MS
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Wajima R
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75645 The Efficacy and Safety of the Fixed Combination of Brinzolamide 1% and Brimonidine 0.2% in Normal Tension Glaucoma: An 18-Month Retrospective Study
Lee SM
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 274-279 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Alward WLM
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75256 Effect of primary Phacoviscocanalostomy/ Viscocanalostomy on intraocular pressure of normal tension glaucoma patients: 3-year results
Aazem S
BMC Ophthalmology 2017; 17: 201 (IGR: 19-2)

75583 Three-Dimensional Evaluation of Posterior Pole and Optic Nerve Head in Myopes with Glaucoma
Park HL
Scientific reports 2017; 7: 18001 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Tachibana G
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Takahashi S
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Mitchell P
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75446 The Association of Single-Nucleotide Polymorphisms in the MMP-9 Gene with Normal Tension Glaucoma and Primary Open-Angle Glaucoma
Kee C
Current Eye Research 2018; 43: 534-538 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Liebmann J
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Miller NR
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75531 Measurement and Associations of the Optic Nerve Subarachnoid Space in Normal Tension and Primary Open-Angle Glaucoma
Ma T; Shi W
American Journal of Ophthalmology 2018; 186: 128-137 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Wang JJ
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75256 Effect of primary Phacoviscocanalostomy/ Viscocanalostomy on intraocular pressure of normal tension glaucoma patients: 3-year results
Mathews D
BMC Ophthalmology 2017; 17: 201 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Inoue S
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Ritch R
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Shiga Y
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Pircher A
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75583 Three-Dimensional Evaluation of Posterior Pole and Optic Nerve Head in Myopes with Glaucoma
Park CK
Scientific reports 2017; 7: 18001 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Kawase K
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
White A
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75531 Measurement and Associations of the Optic Nerve Subarachnoid Space in Normal Tension and Primary Open-Angle Glaucoma
Zhu Q
American Journal of Ophthalmology 2018; 186: 128-137 (IGR: 19-2)

75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Omodaka K
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Ohigashi T
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Gruber P; Killer HE
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Otsuka N
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Kwon YH
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75531 Measurement and Associations of the Optic Nerve Subarachnoid Space in Normal Tension and Primary Open-Angle Glaucoma
Kang J
American Journal of Ophthalmology 2018; 186: 128-137 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Keane MC
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Nakazawa T
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Robin AL
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Remonda L
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Kurashima H
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75531 Measurement and Associations of the Optic Nerve Subarachnoid Space in Normal Tension and Primary Open-Angle Glaucoma
Wang N
American Journal of Ophthalmology 2018; 186: 128-137 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Souzeau E
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Stone EM
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Graham SL
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75373 Flow dynamics of cerebrospinal fluid between the intracranial cavity and the subarachnoid space of the optic nerve measured with a diffusion magnetic resonance imaging sequence in patients with normal tension glaucoma
Berberat J
Clinical and Experimental Ophthalmology 2018; 46: 511-518 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Santo K
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Goldberg I
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Scheetz TE
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Hashimoto M
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Healey PR
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75131 Genomic Organization of TBK1 Copy Number Variations in Glaucoma Patients
Fingert JH
Journal of Glaucoma 2017; 26: 1063-1067 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Shibahara H; Hirukawa M
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Landers J
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

75271 Prediction of Visual Field Progression in Patients with Primary Open-Angle Glaucoma, Mainly Including Normal Tension Glaucoma
Sugiyama K
Scientific reports 2017; 7: 15048 (IGR: 19-2)

75574 DNA methylation at the 9p21 glaucoma susceptibility locus is associated with normal-tension glaucoma
Mills RAD; Best S; Hewitt AW; Sharma S; Craig JE
Ophthalmic Genetics 2018; 39: 221-227 (IGR: 19-2)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Igarashi R
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74603 Quantitative analysis of neural tissues around the optic disc after panretinal photocoagulation in patients with diabetic retinopathy
Yang HS
PLoS ONE 2017; 12: e0186229 (IGR: 19-1)

74210 Long-term results of deep sclerectomy in normal-tension glaucoma
Harju M
Acta Ophthalmologica 2018; 96: 154-160 (IGR: 19-1)

74604 Intereye comparison of ocular factors in normal tension glaucoma with asymmetric visual field loss in Korean population
Lee EJ
PLoS ONE 2017; 12: e0186236 (IGR: 19-1)

74095 The Relation Between Endothelial Nitric Oxide Synthase Polymorphisms and Normal Tension Glaucoma
Jeoung JW
Journal of Glaucoma 2017; 26: 1030-1035 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Lawlor M
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74169 Ocular and Systemic Risk Factors of Different Morphologies of Scotoma in Patients with Normal-Tension Glaucoma
Kosior-Jarecka E
Journal of Ophthalmology 2017; 2017: 1480746 (IGR: 19-1)

74292 Diurnal macular choroidal area fluctuation in normal and primary open angle glaucoma groups
Li M
International Journal of Ophthalmology 2017; 10: 1233-1238 (IGR: 19-1)

74678 Is atrial fibrillation a risk factor for normal-tension glaucoma?
Zaleska-Żmijewska A
Medicine 2017; 96: e8347 (IGR: 19-1)

74666 Diffuse brain damage in normal tension glaucoma
Giorgio A
Human Brain Mapping 2018; 39: 532-541 (IGR: 19-1)

74293 The change of anterior segment parameters after cataract surgery in normal-tension glaucoma
Lee W
International Journal of Ophthalmology 2017; 10: 1239-1245 (IGR: 19-1)

74081 Normal tension glaucoma management: a survey of contemporary practice
Symes RJ
Canadian Journal of Ophthalmology 2017; 52: 361-365 (IGR: 19-1)

74721 Oxygen venular saturation correlates with a functional loss in primary open-angle glaucoma and normal-tension glaucoma patients
Shimazaki T
Acta Ophthalmologica 2018; 96: e304-e308 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Omodaka K
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Demer JL
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Takemoto D
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74612 Cognitive functions and normal tension glaucoma
Daveckaite A
Indian Journal of Ophthalmology 2017; 65: 974-978 (IGR: 19-1)

74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Wong A
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Lindén C
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Naito T; Fujiwara M
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Quartilho A
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Ochiai S
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74169 Ocular and Systemic Risk Factors of Different Morphologies of Scotoma in Patients with Normal-Tension Glaucoma
Wróbel-Dudzińska D
Journal of Ophthalmology 2017; 2017: 1480746 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Kikawa T
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74721 Oxygen venular saturation correlates with a functional loss in primary open-angle glaucoma and normal-tension glaucoma patients
Hirooka K
Acta Ophthalmologica 2018; 96: e304-e308 (IGR: 19-1)

74293 The change of anterior segment parameters after cataract surgery in normal-tension glaucoma
Bae HW
International Journal of Ophthalmology 2017; 10: 1239-1245 (IGR: 19-1)

74678 Is atrial fibrillation a risk factor for normal-tension glaucoma?
Janiszewski M
Medicine 2017; 96: e8347 (IGR: 19-1)

74603 Quantitative analysis of neural tissues around the optic disc after panretinal photocoagulation in patients with diabetic retinopathy
Kim JG
PLoS ONE 2017; 12: e0186229 (IGR: 19-1)

74666 Diffuse brain damage in normal tension glaucoma
Zhang J
Human Brain Mapping 2018; 39: 532-541 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Higashide T
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74612 Cognitive functions and normal tension glaucoma
Grusauskiene E
Indian Journal of Ophthalmology 2017; 65: 974-978 (IGR: 19-1)

74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Matheos K
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Qvarlander S
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74292 Diurnal macular choroidal area fluctuation in normal and primary open angle glaucoma groups
Guo JM
International Journal of Ophthalmology 2017; 10: 1233-1238 (IGR: 19-1)

74210 Long-term results of deep sclerectomy in normal-tension glaucoma
Suominen S
Acta Ophthalmologica 2018; 96: 154-160 (IGR: 19-1)

74604 Intereye comparison of ocular factors in normal tension glaucoma with asymmetric visual field loss in Korean population
Han JC
PLoS ONE 2017; 12: e0186236 (IGR: 19-1)

74081 Normal tension glaucoma management: a survey of contemporary practice
Mikelberg FS
Canadian Journal of Ophthalmology 2017; 52: 361-365 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Clark RA
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74095 The Relation Between Endothelial Nitric Oxide Synthase Polymorphisms and Normal Tension Glaucoma
Kim DM; Oh S
Journal of Glaucoma 2017; 26: 1030-1035 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Saito Y
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74666 Diffuse brain damage in normal tension glaucoma
Costantino F
Human Brain Mapping 2018; 39: 532-541 (IGR: 19-1)

74612 Cognitive functions and normal tension glaucoma
Petrikonis K
Indian Journal of Ophthalmology 2017; 65: 974-978 (IGR: 19-1)

74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Prime Z
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)

74604 Intereye comparison of ocular factors in normal tension glaucoma with asymmetric visual field loss in Korean population
Kee C
PLoS ONE 2017; 12: e0186236 (IGR: 19-1)

74292 Diurnal macular choroidal area fluctuation in normal and primary open angle glaucoma groups
Xu XL
International Journal of Ophthalmology 2017; 10: 1233-1238 (IGR: 19-1)

74721 Oxygen venular saturation correlates with a functional loss in primary open-angle glaucoma and normal-tension glaucoma patients
Nakano Y
Acta Ophthalmologica 2018; 96: e304-e308 (IGR: 19-1)

74210 Long-term results of deep sclerectomy in normal-tension glaucoma
Allinen P
Acta Ophthalmologica 2018; 96: 154-160 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Miki T
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Bunce C
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Jóhannesson G
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74678 Is atrial fibrillation a risk factor for normal-tension glaucoma?
Wawrzyniak ZM
Medicine 2017; 96: e8347 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Sakaue Y
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74603 Quantitative analysis of neural tissues around the optic disc after panretinal photocoagulation in patients with diabetic retinopathy
Cha JB
PLoS ONE 2017; 12: e0186229 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Suh SY
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74169 Ocular and Systemic Risk Factors of Different Morphologies of Scotoma in Patients with Normal-Tension Glaucoma
Łukasik U
Journal of Ophthalmology 2017; 2017: 1480746 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Shiga Y
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74293 The change of anterior segment parameters after cataract surgery in normal-tension glaucoma
Kim CY
International Journal of Ophthalmology 2017; 10: 1239-1245 (IGR: 19-1)

74292 Diurnal macular choroidal area fluctuation in normal and primary open angle glaucoma groups
Wang JM
International Journal of Ophthalmology 2017; 10: 1233-1238 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Suetake A
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74293 The change of anterior segment parameters after cataract surgery in normal-tension glaucoma
Seong GJ
International Journal of Ophthalmology 2017; 10: 1239-1245 (IGR: 19-1)

74721 Oxygen venular saturation correlates with a functional loss in primary open-angle glaucoma and normal-tension glaucoma patients
Nitta E
Acta Ophthalmologica 2018; 96: e304-e308 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Giaconi JA
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Johansson E
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Araki R
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74210 Long-term results of deep sclerectomy in normal-tension glaucoma
Vesti E
Acta Ophthalmologica 2018; 96: 154-160 (IGR: 19-1)

74169 Ocular and Systemic Risk Factors of Different Morphologies of Scotoma in Patients with Normal-Tension Glaucoma
Żarnowski T
Journal of Ophthalmology 2017; 2017: 1480746 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Nathwani N
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74095 The Relation Between Endothelial Nitric Oxide Synthase Polymorphisms and Normal Tension Glaucoma
Lee JS
Journal of Glaucoma 2017; 26: 1030-1035 (IGR: 19-1)

74603 Quantitative analysis of neural tissues around the optic disc after panretinal photocoagulation in patients with diabetic retinopathy
Yun YI
PLoS ONE 2017; 12: e0186229 (IGR: 19-1)

74666 Diffuse brain damage in normal tension glaucoma
De Stefano N
Human Brain Mapping 2018; 39: 532-541 (IGR: 19-1)

74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Danesh-Meyer HV
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Ohkubo S
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74612 Cognitive functions and normal tension glaucoma
Vaitkus A
Indian Journal of Ophthalmology 2017; 65: 974-978 (IGR: 19-1)

74678 Is atrial fibrillation a risk factor for normal-tension glaucoma?
Kuch M
Medicine 2017; 96: e8347 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Tsuda S
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74603 Quantitative analysis of neural tissues around the optic disc after panretinal photocoagulation in patients with diabetic retinopathy
Park JH
PLoS ONE 2017; 12: e0186229 (IGR: 19-1)

74666 Diffuse brain damage in normal tension glaucoma
Frezzotti P
Human Brain Mapping 2018; 39: 532-541 (IGR: 19-1)

74612 Cognitive functions and normal tension glaucoma
Siaudvytyte L
Indian Journal of Ophthalmology 2017; 65: 974-978 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Yokoyama Y
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74095 The Relation Between Endothelial Nitric Oxide Synthase Polymorphisms and Normal Tension Glaucoma
Park SS
Journal of Glaucoma 2017; 26: 1030-1035 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Östlund F
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Fujiwara A
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Dowse E
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Iikawa R
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Nouri-Mahdavi K
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74721 Oxygen venular saturation correlates with a functional loss in primary open-angle glaucoma and normal-tension glaucoma patients
Ukegawa K
Acta Ophthalmologica 2018; 96: e304-e308 (IGR: 19-1)

74678 Is atrial fibrillation a risk factor for normal-tension glaucoma?
Szaflik J
Medicine 2017; 96: e8347 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Udagawa S
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Kamal D
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Malm J
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Sato H
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Takeda H
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Togano T
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74603 Quantitative analysis of neural tissues around the optic disc after panretinal photocoagulation in patients with diabetic retinopathy
Woo JE
PLoS ONE 2017; 12: e0186229 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Law SK
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74612 Cognitive functions and normal tension glaucoma
Januleviciene I
Indian Journal of Ophthalmology 2017; 65: 974-978 (IGR: 19-1)

74678 Is atrial fibrillation a risk factor for normal-tension glaucoma?
Szaflik JP
Medicine 2017; 96: e8347 (IGR: 19-1)

74095 The Relation Between Endothelial Nitric Oxide Synthase Polymorphisms and Normal Tension Glaucoma
Kim JY
Journal of Glaucoma 2017; 26: 1030-1035 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Shiode Y
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74721 Oxygen venular saturation correlates with a functional loss in primary open-angle glaucoma and normal-tension glaucoma patients
Tsujikawa A
Acta Ophthalmologica 2018; 96: e304-e308 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Bonelli L
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74728 Normal-Tension Glaucoma Has Normal Intracranial Pressure: A Prospective Study of Intracranial Pressure and Intraocular Pressure in Different Body Positions
Eklund A
Ophthalmology 2018; 125: 361-368 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Morizane Y
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74629 Patients With Normal Tension Glaucoma Have Relative Sparing of the Relative Afferent Pupillary Defect Compared to Those With Open Angle Glaucoma and Elevated Intraocular Pressure
Gazzard G
Investigative Ophthalmology and Visual Science 2017; 58: 5237-5241 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Miyamoto F
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74524 Intraocular pressure and visual field changes in normal-tension glaucoma patients treated using either unoprostone or latanoprost: a prospective comparative study
Sugiyama K
Clinical Ophthalmology 2017; 11: 1617-1624 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Ohuchi J
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Coleman AL
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Miyamoto D
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Nagayama M
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Matsumoto A
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74241 Effect of trabeculectomy on visual field progression in Japanese progressive normal-tension glaucoma with intraocular pressure < 15 mmHg
Shiraga F
PLoS ONE 2017; 12: e0184096 (IGR: 19-1)

74199 Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure
Caprioli J
Investigative Ophthalmology and Visual Science 2017; 58: 4114-4125 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Takahashi H
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Fukuchi T
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74505 Usefulness of axonal tract-dependent OCT macular sectors for evaluating structural change in normal-tension glaucoma
Akiba M; Nakazawa T
PLoS ONE 2017; 12: e0185649 (IGR: 19-1)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Anraku A
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72963 Relationship between the optic nerve sheath diameter and lumbar cerebrospinal fluid pressure in patients with normal tension glaucoma
Pircher A
Eye 2017; 31: 1365-1372 (IGR: 18-4)

72622 Clinical Features of Japanese Patients with Central Retinal Vein Occlusion Complicated by Normal-Tension Glaucoma: A Retrospective Study
Kida T
Ophthalmologica 2017; 237: 173-179 (IGR: 18-4)

73417 Vascular and metabolic comorbidities in open-angle glaucoma with low- and high-teen intraocular pressure: a cross-sectional study from South Korea
Lee SH
Acta Ophthalmologica 2017; 95: e564-e574 (IGR: 18-4)

72867 Long-term clinical course of normotensive preperimetric glaucoma
Sawada A
British Journal of Ophthalmology 2017; 101: 1649-1653 (IGR: 18-4)

72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Pircher A
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Kocatürk T
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

73020 Long-Term Clinical Course of Normal-Tension Glaucoma: 20 Years of Experience
Jin SW
Journal of Ophthalmology 2017; 2017: 2651645 (IGR: 18-4)

72701 Visual Field Defects in Young Patients With Open-angle Glaucoma: Comparison Between High-tension and Normal-tension Glaucoma
Park JH
Journal of Glaucoma 2017; 26: 541-547 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Lascaratos G
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Terelak-Borys B
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Seol BR
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)

72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Sung MS
Eye 2017; 31: 1051-1059 (IGR: 18-4)

72726 Differentiating Leber Hereditary Optic Neuropathy from Normal-Tension Glaucoma
Souto FM
Neuro-Ophthalmology 2017; 41: 99-102 (IGR: 18-4)

72666 Visual Field Progression is Associated with Systemic Concentration of Macrophage Chemoattractant Protein-1 in Normal-Tension Glaucoma
Lee NY
Current Eye Research 2017; 42: 1002-1006 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Mizoue S
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Kim S
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)

72726 Differentiating Leber Hereditary Optic Neuropathy from Normal-Tension Glaucoma
de Vasconcellos JP
Neuro-Ophthalmology 2017; 41: 99-102 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Chau KY
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

72666 Visual Field Progression is Associated with Systemic Concentration of Macrophage Chemoattractant Protein-1 in Normal-Tension Glaucoma
Kim MH
Current Eye Research 2017; 42: 1002-1006 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Ishida K
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Akgüllü Ç
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Grabska-Liberek I
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Heo H
Eye 2017; 31: 1051-1059 (IGR: 18-4)

73417 Vascular and metabolic comorbidities in open-angle glaucoma with low- and high-teen intraocular pressure: a cross-sectional study from South Korea
Kim GA
Acta Ophthalmologica 2017; 95: e564-e574 (IGR: 18-4)

72963 Relationship between the optic nerve sheath diameter and lumbar cerebrospinal fluid pressure in patients with normal tension glaucoma
Montali M
Eye 2017; 31: 1365-1372 (IGR: 18-4)

72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Montali M
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Nitta K
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

72701 Visual Field Defects in Young Patients With Open-angle Glaucoma: Comparison Between High-tension and Normal-tension Glaucoma
Yoo C
Journal of Glaucoma 2017; 26: 541-547 (IGR: 18-4)

72622 Clinical Features of Japanese Patients with Central Retinal Vein Occlusion Complicated by Normal-Tension Glaucoma: A Retrospective Study
Fukumoto M
Ophthalmologica 2017; 237: 173-179 (IGR: 18-4)

72867 Long-term clinical course of normotensive preperimetric glaucoma
Manabe Y
British Journal of Ophthalmology 2017; 101: 1649-1653 (IGR: 18-4)

73020 Long-Term Clinical Course of Normal-Tension Glaucoma: 20 Years of Experience
Noh SY
Journal of Ophthalmology 2017; 2017: 2651645 (IGR: 18-4)

72701 Visual Field Defects in Young Patients With Open-angle Glaucoma: Comparison Between High-tension and Normal-tension Glaucoma
Park J
Journal of Glaucoma 2017; 26: 541-547 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Zhu H
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Enomoto N
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72666 Visual Field Progression is Associated with Systemic Concentration of Macrophage Chemoattractant Protein-1 in Normal-Tension Glaucoma
Park CK
Current Eye Research 2017; 42: 1002-1006 (IGR: 18-4)

72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Ji YS
Eye 2017; 31: 1051-1059 (IGR: 18-4)

72867 Long-term clinical course of normotensive preperimetric glaucoma
Yamamoto T
British Journal of Ophthalmology 2017; 101: 1649-1653 (IGR: 18-4)

72622 Clinical Features of Japanese Patients with Central Retinal Vein Occlusion Complicated by Normal-Tension Glaucoma: A Retrospective Study
Sato T
Ophthalmologica 2017; 237: 173-179 (IGR: 18-4)

72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Kim DM
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Evliçoğlu GE
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Piekarniak-Wozniak A
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72726 Differentiating Leber Hereditary Optic Neuropathy from Normal-Tension Glaucoma
de Melo MB
Neuro-Ophthalmology 2017; 41: 99-102 (IGR: 18-4)

72963 Relationship between the optic nerve sheath diameter and lumbar cerebrospinal fluid pressure in patients with normal tension glaucoma
Berberat J
Eye 2017; 31: 1365-1372 (IGR: 18-4)

73417 Vascular and metabolic comorbidities in open-angle glaucoma with low- and high-teen intraocular pressure: a cross-sectional study from South Korea
Lee W
Acta Ophthalmologica 2017; 95: e564-e574 (IGR: 18-4)

72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Berberat J
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Shirakashi M
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Konieczka K
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Park SW
Eye 2017; 31: 1051-1059 (IGR: 18-4)

72726 Differentiating Leber Hereditary Optic Neuropathy from Normal-Tension Glaucoma
Sartorato EL
Neuro-Ophthalmology 2017; 41: 99-102 (IGR: 18-4)

73417 Vascular and metabolic comorbidities in open-angle glaucoma with low- and high-teen intraocular pressure: a cross-sectional study from South Korea
Bae HW
Acta Ophthalmologica 2017; 95: e564-e574 (IGR: 18-4)

72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Park KH
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)

72701 Visual Field Defects in Young Patients With Open-angle Glaucoma: Comparison Between High-tension and Normal-tension Glaucoma
Kim YY
Journal of Glaucoma 2017; 26: 541-547 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Nitta A
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

72963 Relationship between the optic nerve sheath diameter and lumbar cerebrospinal fluid pressure in patients with normal tension glaucoma
Remonda L
Eye 2017; 31: 1365-1372 (IGR: 18-4)

72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Remonda L
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)

72867 Long-term clinical course of normotensive preperimetric glaucoma
Nagata C
British Journal of Ophthalmology 2017; 101: 1649-1653 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Ömürlü İK
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Takagi S
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Gkotsi D
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

72622 Clinical Features of Japanese Patients with Central Retinal Vein Occlusion Complicated by Normal-Tension Glaucoma: A Retrospective Study
Oku H
Ophthalmologica 2017; 237: 173-179 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Ito H
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72622 Clinical Features of Japanese Patients with Central Retinal Vein Occlusion Complicated by Normal-Tension Glaucoma: A Retrospective Study
Ikeda T
Ophthalmologica 2017; 237: 173-179 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Yamabayashi S
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Kamal D
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

72726 Differentiating Leber Hereditary Optic Neuropathy from Normal-Tension Glaucoma
Moura FC
Neuro-Ophthalmology 2017; 41: 99-102 (IGR: 18-4)

72963 Relationship between the optic nerve sheath diameter and lumbar cerebrospinal fluid pressure in patients with normal tension glaucoma
Killer HE
Eye 2017; 31: 1365-1372 (IGR: 18-4)

73417 Vascular and metabolic comorbidities in open-angle glaucoma with low- and high-teen intraocular pressure: a cross-sectional study from South Korea
Seong GJ
Acta Ophthalmologica 2017; 95: e564-e574 (IGR: 18-4)

72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Killer HE
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Çakmak H
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Jeoung JW; Kim SH
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)

73417 Vascular and metabolic comorbidities in open-angle glaucoma with low- and high-teen intraocular pressure: a cross-sectional study from South Korea
Kim CY
Acta Ophthalmologica 2017; 95: e564-e574 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Gout I
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Kimura T
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Takeyama A
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Eryılmaz U
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Yagi F
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Dayanır V
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Ueda T
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Luthert PJ
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Takeda R
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Schapira AHV
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Tomita G
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Matsumoto S
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

73063 Systemic PTEN-Akt1-mTOR pathway activity in patients with normal tension glaucoma and ocular hypertension: A case series
Garway-Heath DF
Mitochondrion 2017; 36: 96-102 (IGR: 18-4)

73076 Multicenter, Randomized, Investigator-Masked Study Comparing Brimonidine Tartrate 0.1% and Timolol Maleate 0.5% as Adjunctive Therapies to Prostaglandin Analogues in Normal-Tension Glaucoma
Yoshikawa K
Advances in Therapy 2017; 34: 1438-1448 (IGR: 18-4)

71569 Risk factors for visual field progression of normal-tension glaucoma in patients with myopia
Bae HW
Canadian Journal of Ophthalmology 2017; 52: 107-113 (IGR: 18-3)

71349 Neuroprotection for treatment of glaucoma in adults
Sena DF
Cochrane Database of Systematic Reviews 2017; 1: CD006539 (IGR: 18-3)

71290 Association between Nocturnal Blood Pressure Dips and Optic Disc Hemorrhage in Patients with Normal-Tension Glaucoma
Kwon J
American Journal of Ophthalmology 2017; 176: 87-101 (IGR: 18-3)

71347 Normal-Tension Glaucoma Masqueraders: Detection Using Optical Coherence Tomography
Kuo DS
Journal of Glaucoma 2017; 26: e153-e156 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Hoban K
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71290 Association between Nocturnal Blood Pressure Dips and Optic Disc Hemorrhage in Patients with Normal-Tension Glaucoma
Lee J
American Journal of Ophthalmology 2017; 176: 87-101 (IGR: 18-3)

71569 Risk factors for visual field progression of normal-tension glaucoma in patients with myopia
Seo SJ
Canadian Journal of Ophthalmology 2017; 52: 107-113 (IGR: 18-3)

71347 Normal-Tension Glaucoma Masqueraders: Detection Using Optical Coherence Tomography
Asrani S
Journal of Glaucoma 2017; 26: e153-e156 (IGR: 18-3)

71349 Neuroprotection for treatment of glaucoma in adults
Lindsley K
Cochrane Database of Systematic Reviews 2017; 1: CD006539 (IGR: 18-3)

71461 Analysis of the Interleukin-6 (-174) Locus Polymorphism and Serum IL-6 Levels with the Severity of Normal Tension Glaucoma
Liang CY
Ophthalmic Research 2017; 57: 224-229 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Peden R; Megaw R
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71290 Association between Nocturnal Blood Pressure Dips and Optic Disc Hemorrhage in Patients with Normal-Tension Glaucoma
Choi J
American Journal of Ophthalmology 2017; 176: 87-101 (IGR: 18-3)

71569 Risk factors for visual field progression of normal-tension glaucoma in patients with myopia
Lee SY
Canadian Journal of Ophthalmology 2017; 52: 107-113 (IGR: 18-3)

71461 Analysis of the Interleukin-6 (-174) Locus Polymorphism and Serum IL-6 Levels with the Severity of Normal Tension Glaucoma
Feng SC
Ophthalmic Research 2017; 57: 224-229 (IGR: 18-3)

71569 Risk factors for visual field progression of normal-tension glaucoma in patients with myopia
Lee YH
Canadian Journal of Ophthalmology 2017; 52: 107-113 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Halpin P
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71461 Analysis of the Interleukin-6 (-174) Locus Polymorphism and Serum IL-6 Levels with the Severity of Normal Tension Glaucoma
Lin KH
Ophthalmic Research 2017; 57: 224-229 (IGR: 18-3)

71290 Association between Nocturnal Blood Pressure Dips and Optic Disc Hemorrhage in Patients with Normal-Tension Glaucoma
Jeong D
American Journal of Ophthalmology 2017; 176: 87-101 (IGR: 18-3)

71461 Analysis of the Interleukin-6 (-174) Locus Polymorphism and Serum IL-6 Levels with the Severity of Normal Tension Glaucoma
Lee HN
Ophthalmic Research 2017; 57: 224-229 (IGR: 18-3)

71290 Association between Nocturnal Blood Pressure Dips and Optic Disc Hemorrhage in Patients with Normal-Tension Glaucoma
Kook MS
American Journal of Ophthalmology 2017; 176: 87-101 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Tatham AJ
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71569 Risk factors for visual field progression of normal-tension glaucoma in patients with myopia
Hong S; Seong GJ
Canadian Journal of Ophthalmology 2017; 52: 107-113 (IGR: 18-3)

71461 Analysis of the Interleukin-6 (-174) Locus Polymorphism and Serum IL-6 Levels with the Severity of Normal Tension Glaucoma
Shen YC
Ophthalmic Research 2017; 57: 224-229 (IGR: 18-3)

71569 Risk factors for visual field progression of normal-tension glaucoma in patients with myopia
Kim CY
Canadian Journal of Ophthalmology 2017; 52: 107-113 (IGR: 18-3)

71461 Analysis of the Interleukin-6 (-174) Locus Polymorphism and Serum IL-6 Levels with the Severity of Normal Tension Glaucoma
Wei LC; Chang CJ; Hsu MY; Yang YY; Chiu CH; Wang CY
Ophthalmic Research 2017; 57: 224-229 (IGR: 18-3)

70641 Resident Compliance With the American Academy of Ophthalmology Preferred Practice Patterns for Primary Open-Angle Glaucoma Suspect
Mihlstin M
Journal of Glaucoma 2016; 25: 963-967 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Li BB
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70510 Change in Central Corneal Thickness After the Discontinuation of Latanoprost in Normal Tension Glaucoma-Change in Central Corneal Thickness After Stop of Latanoprost
Yoo R
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 57-61 (IGR: 18-2)

70055 The Fluctuation of Intraocular Pressure Measured by a Contact Lens Sensor in Normal-Tension Glaucoma Patients and Nonglaucoma Subjects
Tojo N
Journal of Glaucoma 2017; 26: 195-200 (IGR: 18-2)

70685 Differential diagnosis of juvenile normal pressure glaucoma
Geidel K
Ophthalmologe 2017; 114: 828-831 (IGR: 18-2)

70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Kwun Y
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)

70600 Microvascular Compromise Develops Following Nerve Fiber Layer Damage in Normal-Tension Glaucoma Without Choroidal Vasculature Involvement
Lee EJ
Journal of Glaucoma 2017; 26: 216-222 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Moon Y
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Dong Z
Heliyon 2016; 2: e00191 (IGR: 18-2)

70226 Vessel Caliber in Normal Tension and Primary Open Angle Glaucoma Eyes With Hemifield Damage
Rao A
Journal of Glaucoma 2017; 26: 46-53 (IGR: 18-2)

70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Pircher A
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Guo X
Scientific reports 2016; 6: 33950 (IGR: 18-2)

70173 Comparison study of intraocular pressure reduction efficacy and safety between latanoprost and tafluprost in Japanese with normal-tension glaucoma
Ikeda Y
Clinical Ophthalmology 2016; 10: 1633-1637 (IGR: 18-2)

70749 Elevated Plasma Endothelin-1 Levels in Normal Tension Glaucoma and Primary Open-Angle Glaucoma: A Meta-Analysis
Li S
Journal of Ophthalmology 2016; 2016: 2678017 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Kosior-Jarecka E
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Willekens K
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Fingert JH
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Kim SH
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Han G
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Kimura A
Scientific reports 2016; 6: 33950 (IGR: 18-2)

70641 Resident Compliance With the American Academy of Ophthalmology Preferred Practice Patterns for Primary Open-Angle Glaucoma Suspect
Juzych MS
Journal of Glaucoma 2016; 25: 963-967 (IGR: 18-2)

70173 Comparison study of intraocular pressure reduction efficacy and safety between latanoprost and tafluprost in Japanese with normal-tension glaucoma
Mori K
Clinical Ophthalmology 2016; 10: 1633-1637 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Lee EJ
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Kwon J
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70510 Change in Central Corneal Thickness After the Discontinuation of Latanoprost in Normal Tension Glaucoma-Change in Central Corneal Thickness After Stop of Latanoprost
Choi YA
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 57-61 (IGR: 18-2)

70055 The Fluctuation of Intraocular Pressure Measured by a Contact Lens Sensor in Normal-Tension Glaucoma Patients and Nonglaucoma Subjects
Abe S
Journal of Glaucoma 2017; 26: 195-200 (IGR: 18-2)

70600 Microvascular Compromise Develops Following Nerve Fiber Layer Damage in Normal-Tension Glaucoma Without Choroidal Vasculature Involvement
Kim S
Journal of Glaucoma 2017; 26: 216-222 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Miller K
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Shinmei Y
Heliyon 2016; 2: e00191 (IGR: 18-2)

70226 Vessel Caliber in Normal Tension and Primary Open Angle Glaucoma Eyes With Hemifield Damage
Agarwal K
Journal of Glaucoma 2017; 26: 46-53 (IGR: 18-2)

70749 Elevated Plasma Endothelin-1 Levels in Normal Tension Glaucoma and Primary Open-Angle Glaucoma: A Meta-Analysis
Zhang A
Journal of Ophthalmology 2016; 2016: 2678017 (IGR: 18-2)

70685 Differential diagnosis of juvenile normal pressure glaucoma
Wiedemann P
Ophthalmologe 2017; 114: 828-831 (IGR: 18-2)

70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Remonda L
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Cai Y
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Wróbel-Dudzińska D
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Bataillie S
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70055 The Fluctuation of Intraocular Pressure Measured by a Contact Lens Sensor in Normal-Tension Glaucoma Patients and Nonglaucoma Subjects
Ishida M
Journal of Glaucoma 2017; 26: 195-200 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Sarens I
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70641 Resident Compliance With the American Academy of Ophthalmology Preferred Practice Patterns for Primary Open-Angle Glaucoma Suspect
Kromrei HT
Journal of Glaucoma 2016; 25: 963-967 (IGR: 18-2)

70226 Vessel Caliber in Normal Tension and Primary Open Angle Glaucoma Eyes With Hemifield Damage
Mudunuri H
Journal of Glaucoma 2017; 26: 46-53 (IGR: 18-2)

70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Weinreb RN
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)

70685 Differential diagnosis of juvenile normal pressure glaucoma
Unterlauft JD
Ophthalmologe 2017; 114: 828-831 (IGR: 18-2)

70600 Microvascular Compromise Develops Following Nerve Fiber Layer Damage in Normal-Tension Glaucoma Without Choroidal Vasculature Involvement
Hwang S
Journal of Glaucoma 2017; 26: 216-222 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Han JC
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Łukasik U
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

70510 Change in Central Corneal Thickness After the Discontinuation of Latanoprost in Normal Tension Glaucoma-Change in Central Corneal Thickness After Stop of Latanoprost
Cho BJ
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 57-61 (IGR: 18-2)

70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Choy YJ
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Dong Y
Heliyon 2016; 2: e00191 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Azuchi Y
Scientific reports 2016; 6: 33950 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Hedberg-Buenz A
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

70173 Comparison study of intraocular pressure reduction efficacy and safety between latanoprost and tafluprost in Japanese with normal-tension glaucoma
Tada K
Clinical Ophthalmology 2016; 10: 1633-1637 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Jeong DW
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Pan YZ
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70749 Elevated Plasma Endothelin-1 Levels in Normal Tension Glaucoma and Primary Open-Angle Glaucoma: A Meta-Analysis
Cao W
Journal of Ophthalmology 2016; 2016: 2678017 (IGR: 18-2)

70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Killer HE
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)

70173 Comparison study of intraocular pressure reduction efficacy and safety between latanoprost and tafluprost in Japanese with normal-tension glaucoma
Ueno M
Clinical Ophthalmology 2016; 10: 1633-1637 (IGR: 18-2)

70749 Elevated Plasma Endothelin-1 Levels in Normal Tension Glaucoma and Primary Open-Angle Glaucoma: A Meta-Analysis
Sun X
Journal of Ophthalmology 2016; 2016: 2678017 (IGR: 18-2)

70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Han JC
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Roos BR
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Lee JY
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70641 Resident Compliance With the American Academy of Ophthalmology Preferred Practice Patterns for Primary Open-Angle Glaucoma Suspect
Hwang FS
Journal of Glaucoma 2016; 25: 963-967 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Li M
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Akiyama G
Scientific reports 2016; 6: 33950 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Odent S
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70055 The Fluctuation of Intraocular Pressure Measured by a Contact Lens Sensor in Normal-Tension Glaucoma Patients and Nonglaucoma Subjects
Yagou T
Journal of Glaucoma 2017; 26: 195-200 (IGR: 18-2)

70600 Microvascular Compromise Develops Following Nerve Fiber Layer Damage in Normal-Tension Glaucoma Without Choroidal Vasculature Involvement
Han JC
Journal of Glaucoma 2017; 26: 216-222 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Sohn SW
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Aung T
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Inafuku S
Heliyon 2016; 2: e00191 (IGR: 18-2)

70226 Vessel Caliber in Normal Tension and Primary Open Angle Glaucoma Eyes With Hemifield Damage
Padhy D; Roy AK
Journal of Glaucoma 2017; 26: 46-53 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Noro T
Scientific reports 2016; 6: 33950 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Fukuhara J
Heliyon 2016; 2: e00191 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Lewis CJ
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Rhee T
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Qiao RH
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Khor CC
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Kee C
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Lee JR
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70055 The Fluctuation of Intraocular Pressure Measured by a Contact Lens Sensor in Normal-Tension Glaucoma Patients and Nonglaucoma Subjects
Hayashi A
Journal of Glaucoma 2017; 26: 195-200 (IGR: 18-2)

70600 Microvascular Compromise Develops Following Nerve Fiber Layer Damage in Normal-Tension Glaucoma Without Choroidal Vasculature Involvement
Kee C
Journal of Glaucoma 2017; 26: 216-222 (IGR: 18-2)

70641 Resident Compliance With the American Academy of Ophthalmology Preferred Practice Patterns for Primary Open-Angle Glaucoma Suspect
Yin J
Journal of Glaucoma 2016; 25: 963-967 (IGR: 18-2)

70173 Comparison study of intraocular pressure reduction efficacy and safety between latanoprost and tafluprost in Japanese with normal-tension glaucoma
Kinoshita S
Clinical Ophthalmology 2016; 10: 1633-1637 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Abegão Pinto L
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Mullins RF
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Vandewalle E
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Kocki J
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Kee C
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70173 Comparison study of intraocular pressure reduction efficacy and safety between latanoprost and tafluprost in Japanese with normal-tension glaucoma
Sotozono C
Clinical Ophthalmology 2016; 10: 1633-1637 (IGR: 18-2)

70226 Vessel Caliber in Normal Tension and Primary Open Angle Glaucoma Eyes With Hemifield Damage
Mukherjee S
Journal of Glaucoma 2017; 26: 46-53 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Fang Y
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Ando R
Heliyon 2016; 2: e00191 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Harada C
Scientific reports 2016; 6: 33950 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Han S
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70418 Plasma endothelin-1 and single nucleotide polymorphisms of endothelin-1 and endothelin type A receptor genes as risk factors for normal tension glaucoma
Żarnowski T
Molecular Vision 2016; 22: 1256-1266 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Kitaichi N
Heliyon 2016; 2: e00191 (IGR: 18-2)

70837 Transgenic TBK1 mice have features of normal tension glaucoma
Anderson MG
Human Molecular Genetics 2017; 26: 124-132 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Van Keer K
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70916 Corneal Biomechanical Parameters and Asymmetric Visual Field Damage in Patients with Untreated Normal Tension Glaucoma
Tian T
Chinese Medical Journal 2017; 130: 334-339 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Namekata K
Scientific reports 2016; 6: 33950 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Kook MS
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Kanda A
Heliyon 2016; 2: e00191 (IGR: 18-2)

70277 Caloric restriction promotes cell survival in a mouse model of normal tension glaucoma
Harada T
Scientific reports 2016; 6: 33950 (IGR: 18-2)

69934 Funduscopic versus HRT III Confocal Scanner Vertical Cup-Disc Ratio Assessment in Normal Tension and Primary Open Angle Glaucoma (The Leuven Eye Study)
Stalmans I
Ophthalmic Research 2017; 57: 100-106 (IGR: 18-2)

70585 Effect of geranylgeranylacetone on the protection of retinal ganglion cells in a mouse model of normal tension glaucoma
Tanaka K; Noda K; Harada T; Chin S; Ishida S
Heliyon 2016; 2: e00191 (IGR: 18-2)

69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Yun IS
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)

69020 Incidence of and risk factors for glaucoma in lost-to-follow-up normal-tension glaucoma suspect patients
Lim JH
BMC Ophthalmology 2016; 16: 62 (IGR: 18-1)

69375 Retinal nerve fiber and optic disc morphology using spectral-domain optical coherence tomography in scleroderma patients
Sahin-Atik S
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Quaranta L
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Scheetz TE
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

69139 Juxtapapillary choroid is thinner in normal-tension glaucoma than in healthy eyes
Lee KM
Acta Ophthalmologica 2016; 94: e697-e708 (IGR: 18-1)

68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Sung MS
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)

69337 Factors Associated with Loss of Visual Function in Medically Treated Advanced Normal Tension Glaucoma
Kim S
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Hong Y
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Nishisako M
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69121 Juvenile-onset Normal Tension Glaucoma From Chronic, Recurrent Low Cerebrospinal Fluid Pressure
Yusuf IH
Journal of Glaucoma 2016; 25: e738-e740 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Bojikian KD
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Scripsema NK
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Ng SK
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68998 Human TBK1: A Gatekeeper of Neuroinflammation
Ahmad L
Trends in molecular medicine 2016; 22: 511-527 (IGR: 18-1)

69375 Retinal nerve fiber and optic disc morphology using spectral-domain optical coherence tomography in scleroderma patients
Koc F
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69121 Juvenile-onset Normal Tension Glaucoma From Chronic, Recurrent Low Cerebrospinal Fluid Pressure
Ratnarajan G
Journal of Glaucoma 2016; 25: e738-e740 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Garcia PM
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Kang YS
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)

69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Rho S
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Meguro A
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69337 Factors Associated with Loss of Visual Function in Medically Treated Advanced Normal Tension Glaucoma
Sung KR
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Burdon KP
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Chen CL
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Shoji N
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

69139 Juxtapapillary choroid is thinner in normal-tension glaucoma than in healthy eyes
Lee EJ
Acta Ophthalmologica 2016; 94: e697-e708 (IGR: 18-1)

69020 Incidence of and risk factors for glaucoma in lost-to-follow-up normal-tension glaucoma suspect patients
Park JS
BMC Ophthalmology 2016; 16: 62 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Katsanos A
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Roos BR
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

68998 Human TBK1: A Gatekeeper of Neuroinflammation
Zhang SY
Trends in molecular medicine 2016; 22: 511-527 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Morita T
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

69139 Juxtapapillary choroid is thinner in normal-tension glaucoma than in healthy eyes
Kim TW
Acta Ophthalmologica 2016; 94: e697-e708 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Fitzgerald JT
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Heo H
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)

69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Jang S
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)

69020 Incidence of and risk factors for glaucoma in lost-to-follow-up normal-tension glaucoma suspect patients
Lee SY
BMC Ophthalmology 2016; 16: 62 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Bavier RD
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69121 Juvenile-onset Normal Tension Glaucoma From Chronic, Recurrent Low Cerebrospinal Fluid Pressure
Kerr RS
Journal of Glaucoma 2016; 25: e738-e740 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Wen JC
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68998 Human TBK1: A Gatekeeper of Neuroinflammation
Casanova JL
Trends in molecular medicine 2016; 22: 511-527 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Riva I
Eye 2016; 30: 1481-1489 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Nomura E
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69375 Retinal nerve fiber and optic disc morphology using spectral-domain optical coherence tomography in scleroderma patients
Akin-Sari S
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Solivan-Timpe F
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Chui TY
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

68998 Human TBK1: A Gatekeeper of Neuroinflammation
Sancho-Shimizu V
Trends in molecular medicine 2016; 22: 511-527 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Zhang Q
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69121 Juvenile-onset Normal Tension Glaucoma From Chronic, Recurrent Low Cerebrospinal Fluid Pressure
Salmon JF
Journal of Glaucoma 2016; 25: e738-e740 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Hirasawa K
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

69375 Retinal nerve fiber and optic disc morphology using spectral-domain optical coherence tomography in scleroderma patients
Ozmen M
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Zhou T
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Yamane T
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69020 Incidence of and risk factors for glaucoma in lost-to-follow-up normal-tension glaucoma suspect patients
Hong YJ
BMC Ophthalmology 2016; 16: 62 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Miller K
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Park SW
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)

69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Ahn J
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Dastiridou A
Eye 2016; 30: 1481-1489 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Takeuchi M
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Xin C
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
DeLuca AP
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Choi JJ
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Matsumura K
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Krawitz BD
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Oddone F
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Fogarty R
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Kasahara M
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Mo S
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Stone EM
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Roberti G
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Souzeau E
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Lee M
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Ota M
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Gupta D
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Kashiwagi K
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Mudumbai RC
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69454 Comparison of corneal biomechanical properties in normal tension glaucoma patients with different visual field progression speed
Shimizu K
International Journal of Ophthalmology 2016; 9: 973-978 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Konstas AG
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Landers J
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Agemy SA
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Kwon YH
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Mabuchi F
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Mills RA
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Xu L
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Alward WL
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Johnstone MA; Wang RK
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Casson RJ
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Lin YB
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Wang K
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Iijima H
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69123 SQSTM1 Mutations and Glaucoma
Fingert JH
PLoS ONE 2016; 11: e0156001 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Kawase K
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Ridge B
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Panarelli JF
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Chen PP
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Graham SL
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Yamamoto T
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Sidoti PA
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Hewitt AW
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Tsai JC
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Nakamura M; Negi A
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69500 Optical Coherence Tomography Angiography Analysis of Perfused Peripapillary Capillaries in Primary Open-Angle Glaucoma and Normal-Tension Glaucoma
Rosen RB
Investigative Ophthalmology and Visual Science 2016; 57: OCT611-OCT620 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Mackey DA
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Sagara T
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Healey PR
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Nishida T
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Wang JJ
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Inatani M
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Mitchell P
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Tanihara H
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

69256 Genetic Association at the 9p21 Glaucoma Locus Contributes to Sex Bias in Normal-Tension Glaucoma
Macgregor S; Craig JE
Investigative Ophthalmology and Visual Science 2016; 57: 3416-3421 (IGR: 18-1)

68715 SLC1A1 Gene Variants and Normal Tension Glaucoma: An Association Study
Aihara M; Araie M; Fukuchi T; Abe H; Higashide T; Sugiyama K; Kanamoto T,
Ophthalmic Genetics 2016; 37: 194-200 (IGR: 18-1)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Nakano E
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67235 Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography
Khanal S
Clinical and Experimental Optometry 2016; 99: 373-381 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Samsudin A
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67173 Gold shunt for refractory advanced low-tension glaucoma with spared central acuity
Le R
International medical case reports journal 2016; 9: 69-72 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Naito T
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

67108 Prevalence of glaucoma in patients with vitiligo
Dertlioğlu SB
Cutis 2016; 97: E21-5 (IGR: 17-4)

67612 The Conjunctiva in Normal Tension Glaucoma Patients is Thinner Than in Primary Open-Angle Glaucoma Patients: A Comparative Histologic Study
Van Ginderdeuren R
Journal of Glaucoma 2016; 25: e546-e549 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Bulut M
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

67295 Identification of the Most Accurate Spectral-domain Optical Coherence Tomography Parameters in Eyes With Early High-Tension and Low-Tension Glaucoma
Gracitelli CP
Journal of Glaucoma 2016; 25: 854-859 (IGR: 17-4)

67593 Macular Ganglion Cell Analysis Determined by Cirrus HD Optical Coherence Tomography for Early Detecting Chiasmal Compression
Yum HR
PLoS ONE 2016; 11: e0153064 (IGR: 17-4)

67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Li L
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)

67507 Neurodegeneration beyond the primary visual pathways in a population with a high incidence of normal-pressure glaucoma
Boucard CC
Ophthalmic and Physiological Optics 2016; 36: 344-353 (IGR: 17-4)

67136 Unexpected Effect of Calcium Channel Blockers on the Optic Nerve Compartment Syndrome
Konieczka K
Klinische Monatsblätter für Augenheilkunde 2016; 233: 387-390 (IGR: 17-4)

67174 Corneal biomechanics in asymmetrical normal-tension glaucoma
Helmy H
Clinical Ophthalmology 2016; 10: 503-510 (IGR: 17-4)

67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Lee EJ
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)

67474 Effect of Morphological and Functional Parameters on Ocular Pulse Amplitudes: An Analysis in Ocular Hypertension and Different Types of Glaucoma
Milioti G
Klinische Monatsblätter für Augenheilkunde 2017; 234: 223-230 (IGR: 17-4)

66740 Ophthalmic segment of internal carotid artery aneurysm mimicking normal tension glaucoma
Nucci C
International Ophthalmology 2016; 36: 907-914 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Isaacs N
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67295 Identification of the Most Accurate Spectral-domain Optical Coherence Tomography Parameters in Eyes With Early High-Tension and Low-Tension Glaucoma
Moreno PA
Journal of Glaucoma 2016; 25: 854-859 (IGR: 17-4)

67593 Macular Ganglion Cell Analysis Determined by Cirrus HD Optical Coherence Tomography for Early Detecting Chiasmal Compression
Park SH
PLoS ONE 2016; 11: e0153064 (IGR: 17-4)

67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Choi YJ
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)

67136 Unexpected Effect of Calcium Channel Blockers on the Optic Nerve Compartment Syndrome
Todorova MG
Klinische Monatsblätter für Augenheilkunde 2016; 233: 387-390 (IGR: 17-4)

66740 Ophthalmic segment of internal carotid artery aneurysm mimicking normal tension glaucoma
Aiello F
International Ophthalmology 2016; 36: 907-914 (IGR: 17-4)

67235 Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography
Davey PG
Clinical and Experimental Optometry 2016; 99: 373-381 (IGR: 17-4)

67173 Gold shunt for refractory advanced low-tension glaucoma with spared central acuity
Gupta N
International medical case reports journal 2016; 9: 69-72 (IGR: 17-4)

67174 Corneal biomechanics in asymmetrical normal-tension glaucoma
Leila M
Clinical Ophthalmology 2016; 10: 503-510 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Yaman A
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

67612 The Conjunctiva in Normal Tension Glaucoma Patients is Thinner Than in Primary Open-Angle Glaucoma Patients: A Comparative Histologic Study
Vandewalle E
Journal of Glaucoma 2016; 25: e546-e549 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Hata M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67507 Neurodegeneration beyond the primary visual pathways in a population with a high incidence of normal-pressure glaucoma
Hanekamp S
Ophthalmic and Physiological Optics 2016; 36: 344-353 (IGR: 17-4)

67474 Effect of Morphological and Functional Parameters on Ocular Pulse Amplitudes: An Analysis in Ocular Hypertension and Different Types of Glaucoma
Langenbucher A
Klinische Monatsblätter für Augenheilkunde 2017; 234: 223-230 (IGR: 17-4)

67108 Prevalence of glaucoma in patients with vitiligo
Oğuz H
Cutis 2016; 97: E21-5 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Okuma S
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Bian A
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)

67136 Unexpected Effect of Calcium Channel Blockers on the Optic Nerve Compartment Syndrome
Bojinova RI
Klinische Monatsblätter für Augenheilkunde 2016; 233: 387-390 (IGR: 17-4)

67174 Corneal biomechanics in asymmetrical normal-tension glaucoma
Zaki AA
Clinical Ophthalmology 2016; 10: 503-510 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Oishi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67235 Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography
Racette L
Clinical and Experimental Optometry 2016; 99: 373-381 (IGR: 17-4)

67108 Prevalence of glaucoma in patients with vitiligo
Çiçek D
Cutis 2016; 97: E21-5 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Nagayama M
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

67593 Macular Ganglion Cell Analysis Determined by Cirrus HD Optical Coherence Tomography for Early Detecting Chiasmal Compression
Park HY
PLoS ONE 2016; 11: e0153064 (IGR: 17-4)

67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Kim TW
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)

67474 Effect of Morphological and Functional Parameters on Ocular Pulse Amplitudes: An Analysis in Ocular Hypertension and Different Types of Glaucoma
Seitz B
Klinische Monatsblätter für Augenheilkunde 2017; 234: 223-230 (IGR: 17-4)

67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Cheng G
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)

66740 Ophthalmic segment of internal carotid artery aneurysm mimicking normal tension glaucoma
Giuliano M
International Ophthalmology 2016; 36: 907-914 (IGR: 17-4)

67295 Identification of the Most Accurate Spectral-domain Optical Coherence Tomography Parameters in Eyes With Early High-Tension and Low-Tension Glaucoma
Leite MT
Journal of Glaucoma 2016; 25: 854-859 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Tai ML
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Erol MK
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

67612 The Conjunctiva in Normal Tension Glaucoma Patients is Thinner Than in Primary Open-Angle Glaucoma Patients: A Comparative Histologic Study
Pinto LA
Journal of Glaucoma 2016; 25: e546-e549 (IGR: 17-4)

67507 Neurodegeneration beyond the primary visual pathways in a population with a high incidence of normal-pressure glaucoma
Ćurčić-Blake B
Ophthalmic and Physiological Optics 2016; 36: 344-353 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Kurtuluş F
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

66740 Ophthalmic segment of internal carotid artery aneurysm mimicking normal tension glaucoma
Colosimo C
International Ophthalmology 2016; 36: 907-914 (IGR: 17-4)

67295 Identification of the Most Accurate Spectral-domain Optical Coherence Tomography Parameters in Eyes With Early High-Tension and Low-Tension Glaucoma
Prata TS
Journal of Glaucoma 2016; 25: 854-859 (IGR: 17-4)

67612 The Conjunctiva in Normal Tension Glaucoma Patients is Thinner Than in Primary Open-Angle Glaucoma Patients: A Comparative Histologic Study
Stalmans I
Journal of Glaucoma 2016; 25: e546-e549 (IGR: 17-4)

67474 Effect of Morphological and Functional Parameters on Ocular Pulse Amplitudes: An Analysis in Ocular Hypertension and Different Types of Glaucoma
Löw U
Klinische Monatsblätter für Augenheilkunde 2017; 234: 223-230 (IGR: 17-4)

67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Zhou Q
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)

67507 Neurodegeneration beyond the primary visual pathways in a population with a high incidence of normal-pressure glaucoma
Ida M
Ophthalmic and Physiological Optics 2016; 36: 344-353 (IGR: 17-4)

67136 Unexpected Effect of Calcium Channel Blockers on the Optic Nerve Compartment Syndrome
Binggeli T
Klinische Monatsblätter für Augenheilkunde 2016; 233: 387-390 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Mizoue S
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

67108 Prevalence of glaucoma in patients with vitiligo
Yücel H
Cutis 2016; 97: E21-5 (IGR: 17-4)

67235 Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open-angle glaucoma and normal-tension glaucoma using optical coherence tomography
Thapa M
Clinical and Experimental Optometry 2016; 99: 373-381 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Ramli N
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Hwang JM
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)

67593 Macular Ganglion Cell Analysis Determined by Cirrus HD Optical Coherence Tomography for Early Detecting Chiasmal Compression
Shin SY
PLoS ONE 2016; 11: e0153064 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Miyamoto K
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67507 Neurodegeneration beyond the primary visual pathways in a population with a high incidence of normal-pressure glaucoma
Yoshida M
Ophthalmic and Physiological Optics 2016; 36: 344-353 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Mimiwati Z
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Ozaki M
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

66740 Ophthalmic segment of internal carotid artery aneurysm mimicking normal tension glaucoma
Mancino R
International Ophthalmology 2016; 36: 907-914 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Uji A
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Toslak D
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

67136 Unexpected Effect of Calcium Channel Blockers on the Optic Nerve Compartment Syndrome
Chackathayil TN
Klinische Monatsblätter für Augenheilkunde 2016; 233: 387-390 (IGR: 17-4)

67612 The Conjunctiva in Normal Tension Glaucoma Patients is Thinner Than in Primary Open-Angle Glaucoma Patients: A Comparative Histologic Study
Zeyen T
Journal of Glaucoma 2016; 25: e546-e549 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Namiguchi K
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Coban DT
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Fujimoto M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Choo MM
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67507 Neurodegeneration beyond the primary visual pathways in a population with a high incidence of normal-pressure glaucoma
Cornelissen FW
Ophthalmic and Physiological Optics 2016; 36: 344-353 (IGR: 17-4)

67136 Unexpected Effect of Calcium Channel Blockers on the Optic Nerve Compartment Syndrome
Flammer J
Klinische Monatsblätter für Augenheilkunde 2016; 233: 387-390 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Miyata M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

67095 Cognitive performance of primary open-angle glaucoma and normal-tension glaucoma patients
Başar EK
Arquivos Brasileiros de Oftalmologia 2016; 79: 100-104 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Miyamoto K
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Yoshimura N
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)

66817 Sustainability of Intraocular Pressure Reduction of Travoprost Ophthalmic Solution in Subjects with Normal Tension Glaucoma
Tanito M; Yoshikawa K
Advances in Therapy 2016; 33: 435-446 (IGR: 17-4)

66215 Update on the Prevalence, Etiology, Diagnosis, and Monitoring of Normal-Tension Glaucoma
Kim KE
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 23-31 (IGR: 17-3)

66266 Comparison of the Effects of Dorzolamide/Timolol Fixed Combination versus Latanoprost on Intraocular Pressure and Ocular Perfusion Pressure in Patients with Normal-Tension Glaucoma: A Randomized, Crossover Clinical Trial
Lee NY
PLoS ONE 2016; 11: e0146680 (IGR: 17-3)

66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Lee SH
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)

66361 The height of the posterior staphyloma and corneal hysteresis is associated with the scleral thickness at the staphyloma region in highly myopic normal-tension glaucoma eyes
Park JH
British Journal of Ophthalmology 2016; 100: 1251-1256 (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Kosior-Jarecka E
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

65836 Intraeye retinal nerve fiber layer and macular thickness asymmetry measurements for the discrimination of primary open-angle glaucoma and normal tension glaucoma
Khanal S
Journal of optometry 2016; 9: 118-125 (IGR: 17-3)

65865 Nonresponders to Prostaglandin Analogs Among Normal-Tension Glaucoma Patients
Inoue K
Journal of Ocular Pharmacology and Therapeutics 2016; 32: 90-96 (IGR: 17-3)

65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Siaudvytyte L
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Wróbel-Dudzińska D
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

65918 Comparison of the intraocular pressure-lowering effect and safety of brimonidine/timolol fixed combination and 0.5 % timolol in normal-tension glaucoma patients
Kim JM
Japanese Journal of Ophthalmology 2016; 60: 20-26 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Yilmaz N
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

65836 Intraeye retinal nerve fiber layer and macular thickness asymmetry measurements for the discrimination of primary open-angle glaucoma and normal tension glaucoma
Davey PG
Journal of optometry 2016; 9: 118-125 (IGR: 17-3)

65865 Nonresponders to Prostaglandin Analogs Among Normal-Tension Glaucoma Patients
Setogawa A
Journal of Ocular Pharmacology and Therapeutics 2016; 32: 90-96 (IGR: 17-3)

65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Januleviciene I
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Kosior-Jarecka E
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

66489 Comparison of the Progression of High- and Low-tension Glaucoma as Determined by Two Different Criteria
Sung KR
Korean Journal of Ophthalmology 2016; 30: 40-47 (IGR: 17-3)

65918 Comparison of the intraocular pressure-lowering effect and safety of brimonidine/timolol fixed combination and 0.5 % timolol in normal-tension glaucoma patients
Kim TW
Japanese Journal of Ophthalmology 2016; 60: 20-26 (IGR: 17-3)

66215 Update on the Prevalence, Etiology, Diagnosis, and Monitoring of Normal-Tension Glaucoma
Park KH
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 23-31 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Coban DT
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Łukasik U
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

66361 The height of the posterior staphyloma and corneal hysteresis is associated with the scleral thickness at the staphyloma region in highly myopic normal-tension glaucoma eyes
Choi KR
British Journal of Ophthalmology 2016; 100: 1251-1256 (IGR: 17-3)

65918 Comparison of the intraocular pressure-lowering effect and safety of brimonidine/timolol fixed combination and 0.5 % timolol in normal-tension glaucoma patients
Kim CY
Japanese Journal of Ophthalmology 2016; 60: 20-26 (IGR: 17-3)

65836 Intraeye retinal nerve fiber layer and macular thickness asymmetry measurements for the discrimination of primary open-angle glaucoma and normal tension glaucoma
Racette L
Journal of optometry 2016; 9: 118-125 (IGR: 17-3)

65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Daveckaite A
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)

65865 Nonresponders to Prostaglandin Analogs Among Normal-Tension Glaucoma Patients
Tomita G
Journal of Ocular Pharmacology and Therapeutics 2016; 32: 90-96 (IGR: 17-3)

66489 Comparison of the Progression of High- and Low-tension Glaucoma as Determined by Two Different Criteria
Lee JY
Korean Journal of Ophthalmology 2016; 30: 40-47 (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Łukasik U
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Bayindir A
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

66361 The height of the posterior staphyloma and corneal hysteresis is associated with the scleral thickness at the staphyloma region in highly myopic normal-tension glaucoma eyes
Kim CY
British Journal of Ophthalmology 2016; 100: 1251-1256 (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Wróbel-Dudzińska D
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Erol MK
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Kocki J
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Kocki J
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

65836 Intraeye retinal nerve fiber layer and macular thickness asymmetry measurements for the discrimination of primary open-angle glaucoma and normal tension glaucoma
Thapa M
Journal of optometry 2016; 9: 118-125 (IGR: 17-3)

66361 The height of the posterior staphyloma and corneal hysteresis is associated with the scleral thickness at the staphyloma region in highly myopic normal-tension glaucoma eyes
Kim SS
British Journal of Ophthalmology 2016; 100: 1251-1256 (IGR: 17-3)

65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Ragauskas A
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)

65918 Comparison of the intraocular pressure-lowering effect and safety of brimonidine/timolol fixed combination and 0.5 % timolol in normal-tension glaucoma patients
Kim HK
Japanese Journal of Ophthalmology 2016; 60: 20-26 (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Bartosińska J
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Ellidag HY
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Siesky B
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)

65918 Comparison of the intraocular pressure-lowering effect and safety of brimonidine/timolol fixed combination and 0.5 % timolol in normal-tension glaucoma patients
Park KH
Japanese Journal of Ophthalmology 2016; 60: 20-26 (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Witczak A
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Witczak A
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Giray O
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Mosiewicz J
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Harris A
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)

65810 Risk Factors in Normal-Tension Glaucoma and High-Tension Glaucoma in relation to Polymorphisms of Endothelin-1 Gene and Endothelin-1 Receptor Type A Gene
Żarnowski T
Journal of Ophthalmology 2015; 2015: 368792 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Sayrac S
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Chodorowska G
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Tekeli SO
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Mosiewicz J
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

66261 Higher serum lipids and oxidative stress in patients with normal tension glaucoma, but not pseudoexfoliative glaucoma
Eren E
Bosnian journal of basic medical sciences 2016; 0: (IGR: 17-3)

66250 Risk Factors for Normal and High-Tension Glaucoma in Poland in Connection with Polymorphisms of the Endothelial Nitric Oxide Synthase Gene
Żarnowski T
PLoS ONE 2016; 11: e0147540 (IGR: 17-3)

61017 Progression to Legal Blindness in Patients With Normal Tension Glaucoma: Hospital-Based Study
Sawada A
Investigative Ophthalmology and Visual Science 2015; 56: 3635-3641 (IGR: 17-1)

61581 Ganglion Cell Complex Map for Detecting Early Damage in High Tension and Normal Tension Glaucoma
Vidinova CN
Klinische Monatsblätter für Augenheilkunde 2016; 233: 72-78 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Kaplowitz K
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Noro T
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61376 Association of n3 and n6 polyunsaturated fatty acids in red blood cell membrane and plasma with severity of normal tension glaucoma
Yu M
International Journal of Ophthalmology 2015; 8: 476-483 (IGR: 17-1)

61578 Plasma Homocysteine, Serum Folic Acid, Serum Vitamin B12, Serum Vitamin B6, MTHFR, and Risk of Normal-Tension Glaucoma
Li J
Journal of Glaucoma 2016; 25: e94-e98 (IGR: 17-1)

60995 Two-Year Clinical Results After Selective Laser Trabeculoplasty for Normal Tension Glaucoma
Lee JW
Medicine 2015; 94: e984 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Moon Y
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61000 The Different Characteristics of Cirrus Optical Coherence Tomography between Superior Segmental Optic Hypoplasia and Normal Tension Glaucoma with Superior Retinal Nerve Fiber Defect
Han JC
Journal of Ophthalmology 2015; 2015: 641204 (IGR: 17-1)

61612 Optineurin: The autophagy connection
Ying H
Experimental Eye Research 2016; 144: 73-80 (IGR: 17-1)

61118 Long-term (>8 years) evaluation of progression in patients with low-pressure glaucoma
Erdem E
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61503 Clinical impact of migraine for the management of glaucoma patients
Nguyen BN
Progress in Retinal and Eye Research 2016; 51: 107-124 (IGR: 17-1)

61555 Trabeculectomy for normal tension glaucoma: outcomes using the Moorfields Safer Surgery technique
Jayaram H
British Journal of Ophthalmology 2016; 100: 332-338 (IGR: 17-1)

61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Kim KE
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Shin HY
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61619 Visual and structural prognosis of the untreated fellow eyes of unilateral normal tension glaucoma patients
Cho HK
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 1547-1555 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Lee JY
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

60995 Two-Year Clinical Results After Selective Laser Trabeculoplasty for Normal Tension Glaucoma
Shum JJ
Medicine 2015; 94: e984 (IGR: 17-1)

61000 The Different Characteristics of Cirrus Optical Coherence Tomography between Superior Segmental Optic Hypoplasia and Normal Tension Glaucoma with Superior Retinal Nerve Fiber Defect
Choi da Y
Journal of Ophthalmology 2015; 2015: 641204 (IGR: 17-1)

61555 Trabeculectomy for normal tension glaucoma: outcomes using the Moorfields Safer Surgery technique
Strouthidis NG
British Journal of Ophthalmology 2016; 100: 332-338 (IGR: 17-1)

61578 Plasma Homocysteine, Serum Folic Acid, Serum Vitamin B12, Serum Vitamin B6, MTHFR, and Risk of Normal-Tension Glaucoma
Xu F
Journal of Glaucoma 2016; 25: e94-e98 (IGR: 17-1)

61017 Progression to Legal Blindness in Patients With Normal Tension Glaucoma: Hospital-Based Study
Rivera JA
Investigative Ophthalmology and Visual Science 2015; 56: 3635-3641 (IGR: 17-1)

61619 Visual and structural prognosis of the untreated fellow eyes of unilateral normal tension glaucoma patients
Suh W
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 1547-1555 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Blizzard S
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Park SW
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61581 Ganglion Cell Complex Map for Detecting Early Damage in High Tension and Normal Tension Glaucoma
Gouguchkova PT
Klinische Monatsblätter für Augenheilkunde 2016; 233: 72-78 (IGR: 17-1)

61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Kim DM
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Namekata K
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61612 Optineurin: The autophagy connection
Yue BY
Experimental Eye Research 2016; 144: 73-80 (IGR: 17-1)

61118 Long-term (>8 years) evaluation of progression in patients with low-pressure glaucoma
Williams A
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61503 Clinical impact of migraine for the management of glaucoma patients
Lek JJ
Progress in Retinal and Eye Research 2016; 51: 107-124 (IGR: 17-1)

61376 Association of n3 and n6 polyunsaturated fatty acids in red blood cell membrane and plasma with severity of normal tension glaucoma
Chen B
International Journal of Ophthalmology 2015; 8: 476-483 (IGR: 17-1)

61578 Plasma Homocysteine, Serum Folic Acid, Serum Vitamin B12, Serum Vitamin B6, MTHFR, and Risk of Normal-Tension Glaucoma
Zeng R
Journal of Glaucoma 2016; 25: e94-e98 (IGR: 17-1)

61017 Progression to Legal Blindness in Patients With Normal Tension Glaucoma: Hospital-Based Study
Takagi D
Investigative Ophthalmology and Visual Science 2015; 56: 3635-3641 (IGR: 17-1)

61619 Visual and structural prognosis of the untreated fellow eyes of unilateral normal tension glaucoma patients
Kee C
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 1547-1555 (IGR: 17-1)

61503 Clinical impact of migraine for the management of glaucoma patients
Vingrys AJ
Progress in Retinal and Eye Research 2016; 51: 107-124 (IGR: 17-1)

61118 Long-term (>8 years) evaluation of progression in patients with low-pressure glaucoma
Kuchar SD
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Jung SH
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61581 Ganglion Cell Complex Map for Detecting Early Damage in High Tension and Normal Tension Glaucoma
Vidinov KN
Klinische Monatsblätter für Augenheilkunde 2016; 233: 72-78 (IGR: 17-1)

61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Flammer J
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Azuchi Y
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61376 Association of n3 and n6 polyunsaturated fatty acids in red blood cell membrane and plasma with severity of normal tension glaucoma
Gong B
International Journal of Ophthalmology 2015; 8: 476-483 (IGR: 17-1)

60995 Two-Year Clinical Results After Selective Laser Trabeculoplasty for Normal Tension Glaucoma
Chan JC
Medicine 2015; 94: e984 (IGR: 17-1)

61000 The Different Characteristics of Cirrus Optical Coherence Tomography between Superior Segmental Optic Hypoplasia and Normal Tension Glaucoma with Superior Retinal Nerve Fiber Defect
Kee C
Journal of Ophthalmology 2015; 2015: 641204 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Jeong da W
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Blizzard DJ
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61555 Trabeculectomy for normal tension glaucoma: outcomes using the Moorfields Safer Surgery technique
Kamal DS
British Journal of Ophthalmology 2016; 100: 332-338 (IGR: 17-1)

60995 Two-Year Clinical Results After Selective Laser Trabeculoplasty for Normal Tension Glaucoma
Lai JS
Medicine 2015; 94: e984 (IGR: 17-1)

61578 Plasma Homocysteine, Serum Folic Acid, Serum Vitamin B12, Serum Vitamin B6, MTHFR, and Risk of Normal-Tension Glaucoma
Gong H
Journal of Glaucoma 2016; 25: e94-e98 (IGR: 17-1)

61376 Association of n3 and n6 polyunsaturated fatty acids in red blood cell membrane and plasma with severity of normal tension glaucoma
Shuai P
International Journal of Ophthalmology 2015; 8: 476-483 (IGR: 17-1)

61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Kim KN
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Kimura A
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61118 Long-term (>8 years) evaluation of progression in patients with low-pressure glaucoma
Waisbourd M
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Park HY
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61503 Clinical impact of migraine for the management of glaucoma patients
McKendrick AM
Progress in Retinal and Eye Research 2016; 51: 107-124 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Nwogu E
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61017 Progression to Legal Blindness in Patients With Normal Tension Glaucoma: Hospital-Based Study
Nishida T
Investigative Ophthalmology and Visual Science 2015; 56: 3635-3641 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Kim S
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Jung KI
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Han S
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Hamill CE
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Guo X
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61017 Progression to Legal Blindness in Patients With Normal Tension Glaucoma: Hospital-Based Study
Yamamoto T
Investigative Ophthalmology and Visual Science 2015; 56: 3635-3641 (IGR: 17-1)

61118 Long-term (>8 years) evaluation of progression in patients with low-pressure glaucoma
Spaeth GL
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61578 Plasma Homocysteine, Serum Folic Acid, Serum Vitamin B12, Serum Vitamin B6, MTHFR, and Risk of Normal-Tension Glaucoma
Lan Y
Journal of Glaucoma 2016; 25: e94-e98 (IGR: 17-1)

61376 Association of n3 and n6 polyunsaturated fatty acids in red blood cell membrane and plasma with severity of normal tension glaucoma
Wu ZZ; Lin W
International Journal of Ophthalmology 2015; 8: 476-483 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Kook MS
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Chung YJ
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Harada C
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Weinreb RN
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61710 No Evidence of Association of Heterozygous Galactosylceramidase Deletion With Normal-Tension Glaucoma in a Korean Population
Park CK
Journal of Glaucoma 2016; 25: e504-e506 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Nakano T
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

61013 Time Spent in Lateral Sleep Position and Asymmetry in Glaucoma
Mohsenin V; Loewen NA
Investigative Ophthalmology and Visual Science 2015; 56: 3869-3874 (IGR: 17-1)

61261 Spermidine Ameliorates Neurodegeneration in a Mouse Model of Normal Tension Glaucoma
Tsuneoka H; Harada T
Investigative Ophthalmology and Visual Science 2015; 56: 5012-5019 (IGR: 17-1)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Yanagisawa M
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Kobayashi W
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Wierzbowska J
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Omodaka K
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60440 Giant prolactinoma mimicking low-tension glaucoma at presentation
Karl D
British Medical Journal (Clinical Research Edition) Case Reports 2015; 2015: (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Lee JW
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Lee NY
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60278 Vascular dysregulation in normal-tension glaucoma is not affected by structure and function of the microcirculation or macrocirculation at rest: a case-control study
Bossuyt J
Medicine 2015; 94: e425 (IGR: 16-4)

60145 Predictors of success in selective laser trabeculoplasty for normal tension glaucoma
Lee JW
Medicine 2014; 93: e236 (IGR: 16-4)

60212 Significance of corneal biomechanical properties in patients with progressive normal-tension glaucoma
Park JH
British Journal of Ophthalmology 2015; 99: 746-751 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Shin J
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Chen Y
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60236 Efficacy of selective laser trabeculoplasty for normal tension glaucoma: 1 year results
Lee JW
BMC Ophthalmology 2015; 15: 1 (IGR: 16-4)

60174 Optic disc topography in Malay patients with normal-tension glaucoma and primary open-angle glaucoma
Adlina AR
Clinical Ophthalmology 2014; 8: 2533-2539 (IGR: 16-4)

60103 Comparison of lamina cribrosa thickness in normal tension glaucoma patients with unilateral visual field defect
Kwun Y
American Journal of Ophthalmology 2015; 159: 512-8.e1 (IGR: 16-4)

60335 Long-term effect of latanoprost on central corneal thickness in normal-tension glaucoma: five-year follow-up results
Lee H
Journal of Ocular Pharmacology and Therapeutics 2015; 31: 152-155 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Lee JW
Medicine 2014; 93: e238 (IGR: 16-4)

60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Jung YH
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)

60404 Detecting the progression of normal tension glaucoma: a comparison of perimetry, optic coherence tomography, and Heidelberg retinal tomography
Yoon JY
Korean Journal of Ophthalmology 2015; 29: 31-39 (IGR: 16-4)

60552 Effectiveness of Single-Digit IOP Targets on Decreasing Global and Localized Visual Field Progression After Filtration Surgery in Eyes With Progressive Normal-Tension Glaucoma
Iverson SM
Journal of Glaucoma 2016; 25: 408-414 (IGR: 16-4)

60743 Comparison of Risk Factors for Initial Central Scotoma versus Initial Peripheral Scotoma in Normal-tension Glaucoma
Kang JW
Korean Journal of Ophthalmology 2015; 29: 102-108 (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Kimura A
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Choy YJ
Eye 2015; 29: 1308-1314 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Orazbekov L
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60806 Visual outcome after trabeculectomy - a retrospective study
Dülli L
Klinische Monatsblätter für Augenheilkunde 2015; 232: 399-404 (IGR: 16-4)

60103 Comparison of lamina cribrosa thickness in normal tension glaucoma patients with unilateral visual field defect
Han JC
American Journal of Ophthalmology 2015; 159: 512-8.e1 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Hughes G
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60743 Comparison of Risk Factors for Initial Central Scotoma versus Initial Peripheral Scotoma in Normal-tension Glaucoma
Park B
Korean Journal of Ophthalmology 2015; 29: 102-108 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Park HY
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Guo X
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Horii T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Kwun Y
Eye 2015; 29: 1308-1314 (IGR: 16-4)

60236 Efficacy of selective laser trabeculoplasty for normal tension glaucoma: 1 year results
Ho WL
BMC Ophthalmology 2015; 15: 1 (IGR: 16-4)

60806 Visual outcome after trabeculectomy - a retrospective study
Winkler N
Klinische Monatsblätter für Augenheilkunde 2015; 232: 399-404 (IGR: 16-4)

60335 Long-term effect of latanoprost on central corneal thickness in normal-tension glaucoma: five-year follow-up results
Cho BJ
Journal of Ocular Pharmacology and Therapeutics 2015; 31: 152-155 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Fu L
Medicine 2014; 93: e238 (IGR: 16-4)

60440 Giant prolactinoma mimicking low-tension glaucoma at presentation
Gillan SN
British Medical Journal (Clinical Research Edition) Case Reports 2015; 2015: (IGR: 16-4)

60404 Detecting the progression of normal tension glaucoma: a comparison of perimetry, optic coherence tomography, and Heidelberg retinal tomography
Na JK
Korean Journal of Ophthalmology 2015; 29: 31-39 (IGR: 16-4)

60552 Effectiveness of Single-Digit IOP Targets on Decreasing Global and Localized Visual Field Progression After Filtration Surgery in Eyes With Progressive Normal-Tension Glaucoma
Schultz SK
Journal of Glaucoma 2016; 25: 408-414 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Yasukawa T
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60145 Predictors of success in selective laser trabeculoplasty for normal tension glaucoma
Liu CC
Medicine 2014; 93: e236 (IGR: 16-4)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Aida T
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Park HY
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)

60174 Optic disc topography in Malay patients with normal-tension glaucoma and primary open-angle glaucoma
Alisa-Victoria K
Clinical Ophthalmology 2014; 8: 2533-2539 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Kunikata H
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60212 Significance of corneal biomechanical properties in patients with progressive normal-tension glaucoma
Jun RM
British Journal of Ophthalmology 2015; 99: 746-751 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Wojtkiewicz S
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Fu L
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Lee JW
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60174 Optic disc topography in Malay patients with normal-tension glaucoma and primary open-angle glaucoma
Shatriah I
Clinical Ophthalmology 2014; 8: 2533-2539 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Omodaka K
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Chan JC
Medicine 2014; 93: e238 (IGR: 16-4)

60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Jung KI
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)

60404 Detecting the progression of normal tension glaucoma: a comparison of perimetry, optic coherence tomography, and Heidelberg retinal tomography
Park CK
Korean Journal of Ophthalmology 2015; 29: 31-39 (IGR: 16-4)

60212 Significance of corneal biomechanical properties in patients with progressive normal-tension glaucoma
Choi KR
British Journal of Ophthalmology 2015; 99: 746-751 (IGR: 16-4)

60552 Effectiveness of Single-Digit IOP Targets on Decreasing Global and Localized Visual Field Progression After Filtration Surgery in Eyes With Progressive Normal-Tension Glaucoma
Shi W
Journal of Glaucoma 2016; 25: 408-414 (IGR: 16-4)

60806 Visual outcome after trabeculectomy - a retrospective study
Töteberg-Harms M
Klinische Monatsblätter für Augenheilkunde 2015; 232: 399-404 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Chen X
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60103 Comparison of lamina cribrosa thickness in normal tension glaucoma patients with unilateral visual field defect
Kee C
American Journal of Ophthalmology 2015; 159: 512-8.e1 (IGR: 16-4)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Takeda T
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Takahashi S
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60743 Comparison of Risk Factors for Initial Central Scotoma versus Initial Peripheral Scotoma in Normal-tension Glaucoma
Cho BJ
Korean Journal of Ophthalmology 2015; 29: 102-108 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Park SH
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Han JC
Eye 2015; 29: 1308-1314 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Zbieć A
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Shum JW
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60440 Giant prolactinoma mimicking low-tension glaucoma at presentation
Goudie C
British Medical Journal (Clinical Research Edition) Case Reports 2015; 2015: (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Noro T
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Hirano Y
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60236 Efficacy of selective laser trabeculoplasty for normal tension glaucoma: 1 year results
Chan JC
BMC Ophthalmology 2015; 15: 1 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Choi BS
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60145 Predictors of success in selective laser trabeculoplasty for normal tension glaucoma
Chan JC
Medicine 2014; 93: e236 (IGR: 16-4)

60174 Optic disc topography in Malay patients with normal-tension glaucoma and primary open-angle glaucoma
Liza-Sharmini AT
Clinical Ophthalmology 2014; 8: 2533-2539 (IGR: 16-4)

60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Kee C
Eye 2015; 29: 1308-1314 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Ogura S
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60145 Predictors of success in selective laser trabeculoplasty for normal tension glaucoma
Lai JS
Medicine 2014; 93: e236 (IGR: 16-4)

60236 Efficacy of selective laser trabeculoplasty for normal tension glaucoma: 1 year results
Lai JS
BMC Ophthalmology 2015; 15: 1 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Qian S
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Lai JS
Medicine 2014; 93: e238 (IGR: 16-4)

60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Park CK
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)

60552 Effectiveness of Single-Digit IOP Targets on Decreasing Global and Localized Visual Field Progression After Filtration Surgery in Eyes With Progressive Normal-Tension Glaucoma
Feuer WJ
Journal of Glaucoma 2016; 25: 408-414 (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Harada C
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Togashi K
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Chan JCH
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60806 Visual outcome after trabeculectomy - a retrospective study
Funk J
Klinische Monatsblätter für Augenheilkunde 2015; 232: 399-404 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Yun EY
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Wierzbowski R
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Park CK
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Kikawa T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60440 Giant prolactinoma mimicking low-tension glaucoma at presentation
Sanders R
British Medical Journal (Clinical Research Edition) Case Reports 2015; 2015: (IGR: 16-4)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Namekata K
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Jung JH
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Tanaka K
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Harada T
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

60174 Optic disc topography in Malay patients with normal-tension glaucoma and primary open-angle glaucoma
Ahmad MS
Clinical Ophthalmology 2014; 8: 2533-2539 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Ryu M
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Liebert A
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Usui H
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60806 Visual outcome after trabeculectomy - a retrospective study
Schweier C
Klinische Monatsblätter für Augenheilkunde 2015; 232: 399-404 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Cao W
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60552 Effectiveness of Single-Digit IOP Targets on Decreasing Global and Localized Visual Field Progression After Filtration Surgery in Eyes With Progressive Normal-Tension Glaucoma
Greenfield DS
Journal of Glaucoma 2016; 25: 408-414 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Lai JS
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Matsumoto A
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Shinagawa R
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Maniewski R
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Kim EA
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Akiba M
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Nozaki M
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Namekata K
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Shiga Y
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Wang L
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60213 Valproic acid prevents retinal degeneration in a murine model of normal tension glaucoma
Harada T
Neuroscience Letters 2015; 588: 108-113 (IGR: 16-4)

60220 Vitrectomy without gas tamponade for macular retinoschisis associated with normal-tension glaucoma
Ogura Y
Ophthalmic surgery, lasers & imaging retina 2015; 46: 107-110 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Wang M
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

59909 The circadian changes of intraocular pressure and ocular perfusion pressure after tafluprost compared with travoprost in normal tension glaucoma
Caprioli J
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 803-809 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Maruyama K
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60664 Arundic acid attenuates retinal ganglion cell death by increasing glutamate/aspartate transporter expression in a model of normal tension glaucoma
Tanaka K
Cell Death and Disease 2015; 6: e1693 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Takeuchi G
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60527 Genetic variants associated with different risks for high tension glaucoma and normal tension glaucoma in a Chinese population
Sun X
Investigative Ophthalmology and Visual Science 2015; 56: 2595-2600 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Yuasa T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Yuasa T; Nakazawa T
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Akiba M
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Nakazawa T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)

58809 MTHFR C677T predisposes to POAG but not to PACG in a North Indian population: a case control study
Gupta S; Bhaskar PK; Bhardwaj R; Chandra A; Chaudhry VN; Chaudhry P; Ali A; Mukherjee A; Mutsuddi M
PLoS ONE 2014; 9: e103063 (IGR: 16-3)

58782 Hypothesis-independent pathway analysis implicates GABA and acetyl-CoA metabolism in primary open-angle glaucoma and normal-pressure glaucoma
Bailey JN; Yaspan BL; Pasquale LR; Hauser MA; Kang JH; Loomis SJ; Brilliant M; Budenz DL; Christen WG; Fingert J; Gaasterland D; Gaasterland T; Kraft P; Lee RK; Lichter PR; Liu Y; McCarty CA; Moroi SE; Richards JE; Realini T; Schuman JS; Scott WK; Singh K
Human Genetics 2014; 133: 1319-1330 (IGR: 16-3)

58861 Endothelin-1 levels and biomarkers of oxidative stress in glaucoma patients
López-Riquelme N; Villalba C; Tormo C; Belmonte A; Fernandez C; Torralba G; Hernández F
International Ophthalmology 2015; 35: 527-532 (IGR: 16-3)

58772 Renin-angiotensin system regulates neurodegeneration in a mouse model of normal tension glaucoma
Semba K; Namekata K; Guo X; Harada C; Harada T; Mitamura Y
Cell Death and Disease 2014; 5: e1333 (IGR: 16-3)

58852 Flammer syndrome
Konieczka K; Ritch R; Traverso CE; Kim DM; Kook MS; Gallino A; Golubnitschaja O; Erb C; Reitsamer HA; Kida T; Kurysheva N; Yao K
The EPMA Journal 2014; 5: 11 (IGR: 16-3)

59433 Progression of Normal-Tension Glaucoma After Ventriculoperitoneal Shunt to Decrease Cerebrospinal Fluid Pressure
Chen BH; Drucker MD; Louis KM; Richards DW
Journal of Glaucoma 2016; 25: e50-e52 (IGR: 16-3)

59108 Topographical Correlation Between Macular Layer Thickness and Clockwise Circumpapillary Retinal Nerve Fiber Layer Sectors in Patients with Normal Tension Glaucoma
Omodaka K; Yokoyama Y; Shiga Y; Inoue M; Takahashi S; Tsuda S; Maruyama K; Nakazawa T
Current Eye Research 2014; 0: 1-8 (IGR: 16-3)

59553 Differences in corneal parameters between normal tension glaucoma and primary open-angle glaucoma
Lee JW; Wong RL; Chan JC; Wong IY; Lai JS
International Ophthalmology 2014; 0: (IGR: 16-3)

59214 A Hierarchical Cluster Analysis of Normal-Tension Glaucoma Using Spectral-Domain Optical Coherence Tomography Parameters
Bae HW; Ji Y; Lee HS; Lee N; Hong S; Seong GJ; Sung KR; Kim CY
Journal of Glaucoma 2015; 24: 328-333 (IGR: 16-3)

58751 Selected autoantibodies and normal-tension glaucoma
Skonieczna K; Grabska-Liberek I; Terelak-Borys B; Jamrozy-Witkowska A
Medical Science Monitor 2014; 20: 1201-1209 (IGR: 16-3)

58941 Patterns of subsequent progression of localized retinal nerve fiber layer defects on red-free fundus photographs in normal-tension glaucoma
Kim TJ; Kim YK; Kim DM
Korean Journal of Ophthalmology 2014; 28: 330-336 (IGR: 16-3)

59206 Safety And Efficacy Of Achieving Single-Digit Intraocular Pressure Targets With Filtration Surgery In Eyes With Progressive Normal-Tension Glaucoma
Schultz SK; Iverson SM; Shi W; Greenfield DS
Journal of Glaucoma 2016; 25: 217-222 (IGR: 16-3)

59119 The efficacy and safety of add-on 0.1% brimonidine tartrate preserved with sodium chlorite in on-treatment Japanese normal-tension glaucoma patients
Tsumura T; Yoshikawa K; Kimura T; Suzumura H; Kawashima M; Nanno M; Ishijima K; Takeda R
Clinical Ophthalmology 2014; 8: 1681-1687 (IGR: 16-3)

59563 Torsion of the Optic Nerve Head is a Prominent Feature of Normal Tension Glaucoma
Park HY; Lee KI; Lee K; Shin HY; Park CK
Investigative Ophthalmology and Visual Science 2014; 0: (IGR: 16-3)

58920 Retinal vessel diameter in normal-tension glaucoma patients with asymmetric progression
Lee TE; Kim YY; Yoo C
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1795-1801 (IGR: 16-3)

59487 The diurnal and nocturnal effects of travoprost in normal-tension glaucoma
Seibold LK; Kahook MY
Clinical Ophthalmology 2014; 8: 2189-2193 (IGR: 16-3)

58795 Vascular comorbidity in patients with low-tension glaucoma
Tarkkanen AH; Kivelä TT
European Journal of Ophthalmology 2014; 24: 869-872 (IGR: 16-3)

59522 ''The association of normal tension glaucoma with Buerger's disease: a case report''
Koban Y; Bilgin G; Cagatay H; Bitargil M; Ozlece H; Ekinci M; Kalayci D
BMC Ophthalmology 2014; 14: 130 (IGR: 16-3)

59339 The effect of corneal biomechanical properties on rebound tonometer in patients with normal-tension glaucoma
Shin J; Lee JW; Kim EA; Caprioli J
American Journal of Ophthalmology 2015; 159: 144-154 (IGR: 16-3)

58954 Results of long-term monitoring of normal-tension glaucoma patients receiving medical therapy: results of an 18-year follow-up
Komori S; Ishida K; Yamamoto T
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1963-1970 (IGR: 16-3)

59185 The current research status of normal tension glaucoma
Mi XS; Yuan TF; So KF
Clinical Interventions in Aging 2014; 9: 1563-1571 (IGR: 16-3)

59580 Comparison of the Thickness of the Lamina Cribrosa and Vascular Factors in Early Normal-tension Glaucoma with Low and High Intraocular Pressures
Kim JH; Lee TY; Lee JW; Lee KW
Korean Journal of Ophthalmology 2014; 28: 473-478 (IGR: 16-3)

59659 Initial scotomas in normal tension glaucoma
Mizoue S; Iwase A; Matsumoto S; Yoshikawa K
Nippon Ganka Gakkai Zasshi 2014; 118: 826-830 (IGR: 16-3)

59654 Effect on intraocular pressure of switching from latanoprost and travoprost monotherapy to timolol fixed combinations in patients with normal-tension glaucoma
Igarashi R; Togano T; Sakaue Y; Yoshino T; Ueda J; Fukuchi T
Journal of Ophthalmology 2014; 2014: 720385 (IGR: 16-3)

59478 Posterior staphyloma is related to optic disc morphology and the location of visual field defect in normal tension glaucoma patients with myopia
Park HY; Jung Y; Park CK
Eye 2015; 29: 333-341 (IGR: 16-3)

59328 Determination of the individual normal range of intraocular pressure in differential diagnosis between pseudonormal tension glaucoma and ischemic optic neuropathies
Mamikonian VP; Galoian NS; Sheremet NL; Kazarian ÉÉ; Shmeleva-Demir OA; Antonov AA; Tatevosian AA
Vestnik Oftalmologii 2014; 130: 4-7 (IGR: 16-3)

58773 Brimonidine prevents neurodegeneration in a mouse model of normal tension glaucoma
Semba K; Namekata K; Kimura A; Harada C; Mitamura Y; Harada T
Cell Death and Disease 2014; 5: e1341 (IGR: 16-3)

58840 Prospective Study on the Efficacy of Treating Normal Tension Glaucoma With a Single Session of Selective Laser Trabeculoplasty
Lee JW; Gangwani RA; Chan JC; Lai JS
Journal of Glaucoma 2015; 24: 77-80 (IGR: 16-3)

57023 Circadian intraocular pressure patterns in healthy subjects, primary open angle and normal tension glaucoma patients with a contact lens sensor
Agnifili L; Mastropasqua R; Frezzotti P; Fasanella V; Motolese I; Pedrotti E; Iorio AD; Mattei PA; Motolese E; Mastropasqua L
Acta Ophthalmologica 2015; 93: e14-e21 (IGR: 16-2)

57277 Nocturnal Systemic Hypotension Increases the Risk of Glaucoma Progression
Charlson ME; De Moraes CG; Link A; Wells MT; Harmon G; Peterson JC; Ritch R; Liebmann JM
Ophthalmology 2014; 121: 2004-2012 (IGR: 16-2)

57474 Difference in the posterior pole profiles associated with the initial location of visual field defect in early-stage normal tension glaucoma
Choi JA; Park HY; Park CK
Acta Ophthalmologica 2015; 93: e94-e99 (IGR: 16-2)

57470 Effects of treatment with bimatoprost 0.03% for 3 years in patients with normal-tension glaucoma
Inoue K; Shiokawa M; Fujimoto T; Tomita G
Clinical Ophthalmology 2014; 8: 1179-1183 (IGR: 16-2)

56997 TBK1 gene duplication and normal-tension glaucoma
Ritch R; Darbro B; Menon G; Khanna CL; Solivan-Timpe F; Roos BR; Sarfarzi M; Kawase K; Yamamoto T; Robin AL; Lotery AJ; Fingert JH
JAMA ophthalmology 2014; 132: 544-548 (IGR: 16-2)

57009 Effect of brimonidine on retinal vascular autoregulation and short-term visual function in normal tension glaucoma
Feke GT; Bex PJ; Taylor CP; Rhee DJ; Turalba AV; Chen TC; Wand M; Pasquale LR
American Journal of Ophthalmology 2014; 158: 105-112.e1 (IGR: 16-2)

57304 New directions in the treatment of normal tension glaucoma
Song BJ; Caprioli J
Indian Journal of Ophthalmology 2014; 62: 529-537 (IGR: 16-2)

56979 Central visual field progression in normal-tension glaucoma patients with autonomic dysfunction
Park HY; Park SH; Park CK
Investigative Ophthalmology and Visual Science 2014; 55: 2557-2563 (IGR: 16-2)

57218 Metabolic syndrome as a risk factor in normal-tension glaucoma
Kim M; Jeoung JW; Park KH; Oh WH; Choi HJ; Kim DM
Acta Ophthalmologica 2014; 92: e637-e643 (IGR: 16-2)

57485 Choroidal excavation in eye with normal tension glaucoma
Asao K; Morimoto T; Nakada A; Kawasaki Y
Case Reports in Ophthalmology 2014; 5: 144-149 (IGR: 16-2)

56987 The risk of newly developed visual impairment in treated normal-tension glaucoma: 10-year follow-up
Choi YJ; Kim M; Park KH; Kim DM; Kim SH
Acta Ophthalmologica 2014; 92: e644-e649 (IGR: 16-2)

57256 Obstructive sleep apnea-hypopnea syndrome (OSAHS) and glaucomatous optic neuropathy
Pérez-Rico C; Gutiérrez-Díaz E; Mencía-Gutiérrez E; Díaz-de-Atauri MJ; Blanco R
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1345-1357 (IGR: 16-2)

56324 Association of blood pressure and body mass index with intraocular pressure in middle-aged and older Japanese residents: a cross-sectional and longitudinal study
Yoshida M; Ishikawa M; Karita K; Kokaze A; Harada M; Take S; Ohno H
Acta Medica Okayama 2014; 68: 27-34 (IGR: 16-1)

56661 Duplication of TBK1 Stimulates Autophagy in iPSC-derived Retinal Cells from a Patient with Normal Tension Glaucoma
Tucker BA; Solivan-Timpe F; Roos BR; Anfinson KR; Robin AL; Wiley LA; Mullins RF; Fingert JH
Journal of stem cell research & therapy 2014; 3: 161 (IGR: 16-1)

56260 Risk factors for optic disc hemorrhage in the low-pressure glaucoma treatment study
Furlanetto RL; De Moraes CG; Teng CC; Liebmann JM; Greenfield DS; Gardiner SK; Ritch R; Krupin T;
American Journal of Ophthalmology 2014; 157: 945-952 (IGR: 16-1)

56162 Mitochondrial DNA variant discovery in normal-tension glaucoma patients by next-generation sequencing
Jeoung JW; Seong MW; Park SS; Kim DM; Kim SH; Park KH
Investigative Ophthalmology and Visual Science 2014; 55: 986-992 (IGR: 16-1)

56599 Heidelberg Retina Tomography II parameters in evaluating high- and normal-pressure glaucoma progression
Risović D; Gvozdenović R; Marjanović I; Abazi Z; Stamenković M
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2014; 71: 341-345 (IGR: 16-1)

56412 Normal-tension glaucoma and obstructive sleep apnea syndrome: a prospective study
Bilgin G
BMC Ophthalmology 2014; 14: 27 (IGR: 16-1)

56171 Preperimetric normal tension glaucoma study: long-term clinical course and effect of therapeutic lowering of intraocular pressure
Jeong JH; Park KH; Jeoung JW; Kim DM
Acta Ophthalmologica 2014; 92: e185-e193 (IGR: 16-1)

55998 Effect of Ginkgo biloba on visual field and contrast sensitivity in Chinese patients with normal tension glaucoma: a randomized, crossover clinical trial
Guo X; Kong X; Huang R; Jin L; Ding X; He M; Liu X; Patel MC; Congdon NG
Investigative Ophthalmology and Visual Science 2014; 55: 110-116 (IGR: 16-1)

55605 Comparison of dynamic contour tonometry, Goldmann applanation Tonometry and tonopen for measuring intraocular pressure in normal tension glaucoma
Kurtz S; Soiberman U; Shemesh G
Harefuah 2013; 152: 643-646, 689 (IGR: 15-4)

55426 Arteriovenous passage times and visual field progression in normal tension glaucoma
Koch EC; Arend KO; Bienert M; Remky A; Plange N
TheScientificWorldJournal 2013; 2013: 726912 (IGR: 15-4)

55542 Initial central scotomas vs peripheral scotomas in normal-tension glaucoma: clinical characteristics and progression rates
Cho HK; Lee J; Lee M; Kee C
Eye 2014; 28: 303-311 (IGR: 15-4)

55568 Deep sclerectomy in normal-tension glaucoma with and without mitomycin-c
Suominen S; Harju M; Kurvinen L; Vesti E
Acta Ophthalmologica 2014; 92: 701-706 (IGR: 15-4)

55686 Anatomical attributes of the optic nerve head in eyes with parafoveal scotoma in normal tension glaucoma
Rao A; Mukherjee S
PLoS ONE 2014; 9: e90554 (IGR: 15-4)

55392 Comparison of Fluctuations of Intraocular Pressure Before and After Selective Laser Trabeculoplasty in Normal-tension Glaucoma Patients
Tojo N; Oka M; Miyakoshi A; Ozaki H; Hayashi A
Journal of Glaucoma 2014; 23: e138-e143 (IGR: 15-4)

55406 Relationship between disc margin to fovea distance and central visual field defect in normal tension glaucoma
Lee M; Jin H; Ahn J
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 307-314 (IGR: 15-4)

55204 Waveform analysis of ocular blood flow and the early detection of normal tension glaucoma
Shiga Y; Omodaka K; Kunikata H; Ryu M; Yokoyama Y; Tsuda S; Asano T; Maekawa S; Maruyama K; Nakazawa T
Investigative Ophthalmology and Visual Science 2013; 54: 7699-7706 (IGR: 15-4)

55496 Comparison of normal- and high-tension glaucoma: nerve fiber layer and optic nerve head damage
Häntzschel J; Terai N; Furashova O; Pillunat K; Pillunat LE
Ophthalmologica 2014; 231: 160-165 (IGR: 15-4)

55299 Comparison of localized retinal nerve fiber layer defects in highly myopic, myopic, and non-myopic patients with normal-tension glaucoma: a retrospective cross-sectional study
Kim JM; Park KH; Kim SJ; Jang HJ; Noh E; Kim MJ; Kim TW; Kim DM; Caprioli J
BMC Ophthalmology 2013; 13: 67 (IGR: 15-4)

55227 Pattern electroretinogram (PERG) in the early diagnosis of normal-tension preperimetric glaucoma: a case report
Karaśkiewicz J; Drobek-Słowik M; Lubiński W
Documenta Ophthalmologica 2014; 128: 53-58 (IGR: 15-4)

55656 Travoprost with sofZia® preservative system lowered intraocular pressure of Japanese normal tension glaucoma with minimal side effects
Mizoue S; Nakano T; Fuse N; Iwase A; Matsumoto S; Yoshikawa K
Clinical Ophthalmology 2014; 8: 347-354 (IGR: 15-4)

55397 Evaluation of peripapillary choroidal thickness in unilateral normal-tension glaucoma
Suh W; Cho HK; Kee C
Japanese Journal of Ophthalmology 2014; 58: 62-67 (IGR: 15-4)

54602 Relationship between 24-hour mean ocular perfusion pressure fluctuation and rate of paracentral visual field progression in normal-tension glaucoma
Choi J; Lee JR; Lee Y; Lee KS; Na JH; Han S; Kook MS
Investigative Ophthalmology and Visual Science 2013; 54: 6150-6157 (IGR: 15-3)

54698 Change in retinal blood flow and retinal arterial diameter after intraocular pressure reduction in glaucomatous eyes
Kurvinen L; Kytö JP; Summanen P; Vesti E; Harju M
Acta Ophthalmologica 2014; 92: 507-512 (IGR: 15-3)

54393 Aldosterone: a mediator of retinal ganglion cell death and the potential role in the pathogenesis in normal-tension glaucoma
Nitta E; Hirooka K; Tenkumo K; Fujita T; Nishiyama A; Nakamura T; Itano T; Shiraga F
Cell Death and Disease 2013; 4: e711 (IGR: 15-3)

54580 Hypotensive effect of latanoprost/timolol versus travoprost/timolol fixed combinations in NTG patients: a randomized, multicenter, crossover clinical trial
Shoji T; Sato H; Mizukawa A; Hirota N; Enoki T; Kojima T; Kanda T; Takeuchi M
Investigative Ophthalmology and Visual Science 2013; 54: 6242-6247 (IGR: 15-3)

54838 Optic disc topography of normal tension glaucoma patients in Malaysia
Adlina AR; Shatriah I; Liza Sharmini AT; Ahmad MS
Medical Journal of Malaysia 2013; 68: 338-342 (IGR: 15-3)

54828 Peculiarities of ocular blood flow in ischemic optic neuropathy and normal tension glaucoma
Mamikonian VR; Galoian NS; Sheremet NL; Kazarian EE; Kharlap SI; Shmeleva-Demir OA; Andzhelova DV; Tatevosian AA
Vestnik Oftalmologii 2013; 129: 3-8 (IGR: 15-3)

54761 Effects of optic disc size on progression of visual field defects in normal-tension glaucoma
Hayamizu F; Yamazaki Y
Nippon Ganka Gakkai Zasshi 2013; 117: 609-615 (IGR: 15-3)

54480 Effects of tafluprost treatment for 3 years in patients with normal-tension glaucoma
Inoue K; Tanaka A; Tomita G
Clinical Ophthalmology 2013; 7: 1411-1416 (IGR: 15-3)

54446 Dock3 attenuates neural cell death due to NMDA neurotoxicity and oxidative stress in a mouse model of normal tension glaucoma
Namekata K; Kimura A; Kawamura K; Guo X; Harada C; Tanaka K; Harada T
Cell Death and Differentiation 2013; 20: 1250-1256 (IGR: 15-3)

54751 Glaucoma in atomic bomb survivors
Kiuchi Y; Yokoyama T; Takamatsu M; Tsuiki E; Uematsu M; Kinoshita H; Kumagami T; Kitaoka T; Minamoto A; Neriishi K; Nakashima E; Khattree R; Hida A; Fujiwara S; Akahoshi M
Radiation research 2013; 180: 422-430 (IGR: 15-3)

53835 Intracranial pressure and glaucoma
Jonas JB; Wang N
Journal of Glaucoma 2013; 22: S13-4 (IGR: 15-2)

53651 Interocular Asymmetry of the Visual Field Defects in Newly Diagnosed Normal-tension Glaucoma, Primary Open-angle Glaucoma, and Chronic Angle-closure Glaucoma
Huang P; Shi Y; Wang X; Liu M; Zhang C
Journal of Glaucoma 2014; 23: 455-460 (IGR: 15-2)

53909 Increased Urinary 8-Hydroxy-2'-deoxyguanosine (8-OHdG)/Creatinine Level is Associated with the Progression of Normal-Tension Glaucoma
Yuki K; Tsubota K
Current Eye Research 2013; 38: 983-988 (IGR: 15-2)

53572 Reduction in blood glutathione levels occurs similarly in patients with primary-open angle or normal tension glaucoma
Gherghel D; Mroczkowska S; Qin L
Investigative Ophthalmology and Visual Science 2013; 54: 3333-3339 (IGR: 15-2)

53888 Comparison of Visual Field Progression Between Relatively Low and High Intraocular Pressure Groups in Normal Tension Glaucoma Patients
Lee J; Kong M; Kim J; Kee C
Journal of Glaucoma 2014; 23: 553-560 (IGR: 15-2)

53834 Low cerebrospinal fluid pressure in the pathogenesis of primary open-angle glaucoma: epiphenomenon or causal relationship? The Beijing Intracranial and Intraocular Pressure (iCOP) study
Wang N; Jonas JB
Journal of Glaucoma 2013; 22: S11-2 (IGR: 15-2)

53594 Senescent Changes in Cerebrospinal Fluid Circulatory Physiology and Their Role in the Pathogenesis of Normal-tension Glaucoma
Wostyn P; De Groot V; Van Dam D; Audenaert K; De Deyn PP
American Journal of Ophthalmology 2013; 156: 5-14.e2 (IGR: 15-2)

54060 The central corneal thickness in normal tension glaucoma, primary open angle glaucoma and ocular hypertension
Shetgar AC; Mulimani MB
Journal of clinical and diagnostic research : JCDR 2013; 7: 1063-1067 (IGR: 15-2)

53808 Differences in gene expression in lymphocytes  of patients with high-tension, PEX, and normal-tension glaucoma and in healthy subjects
Fraenkl SA; Golubnitschaja O; Yeghiazaryan K; Orgül S; Flammer J
European Journal of Ophthalmology 2013; 0: 0 (IGR: 15-2)

53852 Glaucoma and CNS. Comparison of fMRI results in high tension and normal tension glaucoma
Lestak J; Tintera J; Svata Z; Ettler L; Rozsival P
Biomedical papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia 2014; 158: 144-153 (IGR: 15-2)

53769 Clinical update on normal tension glaucoma
Mudumbai RC
Seminars in Ophthalmology 2013; 28: 173-179 (IGR: 15-2)

53876 Association study of genetic variants on chromosome 7q31 with susceptibility to normal tension glaucoma in a Japanese population
Kato T; Meguro A; Nomura E; Uemoto R; Nomura N; Ota M; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T; Nakamura M; Negi A; Sagara T; Nishida T; Inatani M; Tanihara H; Aihara M; Araie M; Fukuchi T; Abe H; Higashide T; Sugiyama K; Kanamoto T; Kiuchi
Eye 2013; 27: 979-983 (IGR: 15-2)

53990 Coexistence and Development of an Open-angle Glaucoma in Eyes With Superior Segmental Optic Hypoplasia
Lee HJ; Ozaki M; Okano M; Kee C
Journal of Glaucoma 2015; 24: 207-213 (IGR: 15-2)

53577 Cost-effectiveness of treating normal tension glaucoma
Li EY; Tham CC; Chi SC; Lam DS
Investigative Ophthalmology and Visual Science 2013; 54: 3394-3399 (IGR: 15-2)

52392 TBK1 and Flanking Genes in Human Retina
Fingert JH; Darbro BW; Qian Q; Van Rheeden R; Miller K; Riker M; Solivan-Timpe F; Roos BR; Robin AL; Mullins RF
Ophthalmic Genetics 2014; 35: 35-40 (IGR: 15-1)

53010 Molecular genetic analysis of primary open-angle glaucoma, normal tension glaucoma, and developmental glaucoma for the VAV2 and VAV3 gene variants in Japanese subjects
Shi D; Takano Y; Nakazawa T; Mengkegale M; Yokokura S; Nishida K; Fuse N
Biochemical and Biophysical Research Communications 2013; 432: 509-512 (IGR: 15-1)

53066 Comparison of disc analysis algorithms provided by cirrus OCT and stereo optic-disc photography in normal and open angle glaucoma patients
Lee M; Yoo H; Ahn J
Current Eye Research 2013; 38: 605-613 (IGR: 15-1)

52872 The role of confocal scanning laser ophthalmoscopy in stereometric differentiation of eye papilla in ocular hypertension, normal tension glaucoma and primary open-angle glaucoma
Gvozdenović R; Risović D; Marjanović I; Stamenković M; Joković Z; Abazi Z
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2013; 70: 304-308 (IGR: 15-1)

52394 Low nocturnal ocular perfusion pressure as a risk factor for normal tension glaucoma
Ramli N; Nurull BS; Hairi NN; Mimiwati Z
Preventive medicine 2013; 0: (IGR: 15-1)

52909 Results of selective laser trabeculoplasty (SLT) as initial treatment for normal tension glaucoma
Nitta K; Sugiyama K; Mawatari Y; Tanahashi T
Nippon Ganka Gakkai Zasshi 2013; 117: 335-343 (IGR: 15-1)

53224 Intraocular pressure reduction with topical medications and progression of normal-tension glaucoma: a 12-year mean follow-up study
Kim M; Kim DM; Park KH; Kim TW; Jeoung JW; Kim SH
Acta Ophthalmologica 2013; 91: e270-e275 (IGR: 15-1)

52466 Intraocular Pressure-lowering Efficacy of Dorzolamide/Timolol Fixed Combination in Normal-tension Glaucoma
Kim TW; Kim M; Lee EJ; Jeoung JW; Park KH
Journal of Glaucoma 2014; 23: 329-332 (IGR: 15-1)

52806 Contributing factors for progression of visual field loss in normal-tension glaucoma patients with medical treatment
Sakata R; Aihara M; Murata H; Mayama C; Tomidokoro A; Iwase A; Araie M
Journal of Glaucoma 2013; 22: 250-254 (IGR: 15-1)

52457 Morphological and functional differences between normal-tension and high-tension glaucoma
Häntzschel J; Terai N; Sorgenfrei F; Haustein M; Pillunat K; Pillunat LE
Acta Ophthalmologica 2013; 91: e386-e391 (IGR: 15-1)

53173 Comparison of clinical characteristics between Korean and Western normal-tension glaucoma patients
Kim JM; Jeoung JW; Bitrian E; Supawavej C; Mock D; Park KH; Caprioli J
American Journal of Ophthalmology 2013; 155: 852-857 (IGR: 15-1)

53150 Optic disc size and progression of visual field damage in patients with normal-tension glaucoma
Hayamizu F; Yamazaki Y; Nakagami T; Mizuki K
Clinical Ophthalmology 2013; 7: 807-813 (IGR: 15-1)

52514 Aqueous vascular endothelial growth factor and endothelin-1 levels in branch retinal vein occlusion associated with normal tension glaucoma
Sin BH; Song BJ; Park SP
Journal of Glaucoma 2013; 22: 104-109 (IGR: 15-1)

51656 Characteristics of patients with a localized retinal nerve fiber layer defect and normal optic disc appearance
Lee J; Kim J; Kee C
Eye 2012; 26: 1473-1478 (IGR: 14-4)

52054 Association of HK2 and NCK2 with normal tension glaucoma in the Japanese population
Shi D; Funayama T; Mashima Y; Takano Y; Shimizu A; Yamamoto K; Mengkegale M; Miyazawa A; Yasuda N; Fukuchi T; Abe H; Ideta H; Nishida K; Nakazawa T; Richards JE; Fuse N
PLoS ONE 2013; 8: e54115 (IGR: 14-4)

51844 Association between Heart Rate Variability and Systemic Endothelin-1 Concentration in Normal-tension Glaucoma
Lee NY; Park HY; Na KS; Park SH; Park CK
Current Eye Research 2013; 38: 516-519 (IGR: 14-4)

52035 Cerebrospinal fluid pressure decreases with older age
Fleischman D; Berdahl JP; Zaydlarova J; Stinnett S; Fautsch MP; Allingham RR
PLoS ONE 2012; 7: e52664 (IGR: 14-4)

52055 Comparison of normotensive and glaucoma simplex patients according to age and sex

Srpski Arhiv Celokupno Lekarstvo 2012; 140: 699-703 (IGR: 14-4)

51775 Superior segmental optic nerve hypoplasia accompanied by progressive normal-tension glaucoma
Yamazaki Y; Hayamizu F
Clinical Ophthalmology 2012; 6: 1713-1716 (IGR: 14-4)

51869 Optic disc rim area to retinal nerve fiber layer thickness correlation: comparison of diabetic and normal tension glaucoma eyes
Suh MH; Kim SH; Park KH; Yu HG; Huh JW; Kim DM
Japanese Journal of Ophthalmology 2013; 57: 156-165 (IGR: 14-4)

51397 Normal tension glaucoma and Alzheimer disease: comorbidity?
Bach-Holm D; Kessing SV; Mogensen U; Forman JL; Andersen PK; Kessing LV
Acta Ophthalmologica 2012; 90: 683-685 (IGR: 14-4)

51735 New insights in the pathogenesis and treatment of normal tension glaucoma
Mozaffarieh M; Flammer J
Current opinion in pharmacology 2013; 13: 43-49 (IGR: 14-4)

51737 Differentiation by imaging of superior segmental optic hypoplasia and normal-tension glaucoma with inferior visual field defects only
Yamada M; Ohkubo S; Higashide T; Nitta K; Takeda H; Sugiyama K
Japanese Journal of Ophthalmology 2013; 57: 25-33 (IGR: 14-4)

51713 Effect of Latanoprost on Central Corneal Thickness in Unilateral Normal-Tension Glaucoma
You JY; Cho BJ
Journal of Ocular Pharmacology and Therapeutics 2013; 29: 335-338 (IGR: 14-4)

52088 Acute bilateral angle closure glaucoma induced by methazolamide
Aref AA; Sayyad FE; Ayres B; Lee RK
Clinical Ophthalmology 2013; 7: 279-282 (IGR: 14-4)

51021 Association of Toll-like receptor 4 gene polymorphisms in Japanese subjects with primary open-angle, normal-tension, and exfoliation glaucoma
Takano Y; Shi D; Shimizu A; Funayama T; Mashima Y; Yasuda N; Fukuchi T; Abe H; Ideta H; Zheng X; Shiraishi A; Ohashi Y; Nishida K; Nakazawa T; Fuse N
American Journal of Ophthalmology 2012; 154: 825-832.e1 (IGR: 14-3)

50914 Progressive retinal degeneration in transgenic mice with overexpression of endothelin-1 in vascular endothelial cells
Mi XS; Zhang X; Feng Q; Lo AC; Chung SK; So KF
Investigative Ophthalmology and Visual Science 2012; 53: 4842-4851 (IGR: 14-3)

51269 A novel method to detect local ganglion cell loss in early glaucoma using spectral-domain optical coherence tomography
Takayama K; Hangai M; Durbin M; Nakano N; Morooka S; Akagi T; Ikeda HO; Yoshimura N
Investigative Ophthalmology and Visual Science 2012; 53: 6904-6913 (IGR: 14-3)

51244 Primary Open-Angle Glaucoma vs Normal-Tension Glaucoma: The Vascular Perspective
Mroczkowska S; Benavente-Perez A; Negi A; Sung V; Patel SR; Gherghel D
Archives of Ophthalmology 2012; 0: 1-8 (IGR: 14-3)

51081 Ginkgo biloba extract and bilberry anthocyanins improve visual function in patients with normal tension glaucoma
Shim SH; Kim JM; Choi CY; Kim CY; Park KH
Journal of medicinal food 2012; 15: 818-823 (IGR: 14-3)

51357 Bimatoprost ophthalmic solution 0.03% lowered intraocular pressure of normal-tension glaucoma with minimal adverse events
Tsumura T; Yoshikawa K; Suzumura H; Kimura T; Sasaki S; Kimura I; Takeda R
Clinical Ophthalmology 2012; 6: 1547-1552 (IGR: 14-3)

51253 Effects of BAK-free travoprost treatment for 3 years in patients with normal tension glaucoma
Inoue K; Iwasa M; Wakakura M; Tomita G
Clinical Ophthalmology 2012; 6: 1315-1319 (IGR: 14-3)

51305 Coexistence of macro- and micro-vascular abnormalities in newly diagnosed normal tension glaucoma patients
Mroczkowska S; Ekart A; Sung V; Negi A; Qin L; Patel SR; Jacob S; Atkins C; Benavente-Perez A; Gherghel D
Acta Ophthalmologica 2012; 90: e553-e559 (IGR: 14-3)

51159 No difference in genotype frequencies of polymorphisms of the nitric oxide pathway between Caucasian normal and high tension glaucoma patients
Weiss J; Fränkl SA; Flammer J; Grieshaber MC; Hollo G; Teuchner B; Haefeli WE
Molecular Vision 2012; 18: 2174-2181 (IGR: 14-3)

50946 Lack of spontaneous venous pulsation: possible risk indicator in normal tension glaucoma?
Abegão Pinto L; Vandewalle E; De Clerck E; Marques-Neves C; Stalmans I
Acta Ophthalmologica 2013; 91: 514-520 (IGR: 14-3)

51250 Analysis of systemic endothelin-1, matrix metalloproteinase-9, macrophage chemoattractant protein-1, and high-sensitivity C-reactive protein in normal-tension glaucoma
Young Lee N; Park HY; Park CK; Ahn MD
Current Eye Research 2012; 37: 1121-1126 (IGR: 14-3)

51233 Comparison of the progression rates of the superior, inferior, and both hemifield defects in normal-tension glaucoma patients
Cho HK; Kee C
American Journal of Ophthalmology 2012; 154: 958-968.e1 (IGR: 14-3)

51037 Evaluation of peripapillary choroidal thickness in patients with normal-tension glaucoma
Hirooka K; Tenkumo K; Fujiwara A; Baba T; Sato S; Shiraga F
BMC Ophthalmology 2012; 12: 29 (IGR: 14-3)

51103 Association of OPA1 polymorphisms with NTG and HTG: a meta-analysis
Guo Y; Chen X; Zhang H; Li N; Yang X; Cheng W; Zhao K
PLoS ONE 2012; 7: e42387 (IGR: 14-3)

51029 The association between retinal vessel diameter and retinal nerve fiber layer thickness in asymmetric normal tension glaucoma patients
Kim JM; Sae Kim M; Ju Jang H; Ho Park K; Caprioli J
Investigative Ophthalmology and Visual Science 2012; 53: 5609-5614 (IGR: 14-3)

50968 Common variants on chromosome 9p21 are associated with normal tension glaucoma
Takamoto M; Kaburaki T; Mabuchi A; Araie M; Amano S; Aihara M; Tomidokoro A; Iwase A; Mabuchi F; Kashiwagi K; Shirato S; Yasuda N; Kawashima H; Nakajima F; Numaga J; Kawamura Y; Sasaki T; Tokunaga K
PLoS ONE 2012; 7: e40107 (IGR: 14-3)

51027 Risk factors for visual field progression in the low-pressure glaucoma treatment study
De Moraes CG; Liebmann JM; Greenfield DS; Gardiner SK; Ritch R; Krupin T;
American Journal of Ophthalmology 2012; 154: 702-711 (IGR: 14-3)

50611 Orbital Cerebrospinal Fluid Space in Glaucoma: The Beijing iCOP Study
Wang N; Xie X; Yang D; Xian J; Li Y; Ren R; Peng X; Jonas JB; Weinreb RN
Ophthalmology 2012; 119: 2065-2073.e1 (IGR: 14-2)

50261 Glaucoma Risk Alleles at CDKN2B-AS1 Are Associated with Lower Intraocular Pressure, Normal-Tension Glaucoma, and Advanced Glaucoma
Burdon KP; Crawford A; Casson RJ; Hewitt AW; Landers J; Danoy P; Mackey DA; Mitchell P; Healey PR; Craig JE
Ophthalmology 2012; 119: 1539-1545 (IGR: 14-2)

50481 Measurement of Subfoveal Choroidal Thickness in Normal-tension Glaucoma in Korean Patients
Rhew JY; Kim YT; Choi KR
Journal of Glaucoma 2014; 23: 46-49 (IGR: 14-2)

50201 Anterior visual pathway assessment by magnetic resonance imaging in normal-pressure glaucoma
Zhang YQ; Li J; Xu L; Zhang L; Wang ZC; Yang H; Chen CX; Wu XS; Jonas JB
Acta Ophthalmologica 2012; 90: e295-e302 (IGR: 14-2)

50546 Visual Field Characteristics in Normal-Tension Glaucoma Patients with Autonomic Dysfunction and Abnormal Peripheral Microcirculation
Park HY; Jung KI; Na KS; Park SH; Park CK
American Journal of Ophthalmology 2012; 154: 466-475.e1 (IGR: 14-2)

50496 Diastolic double-product: a new entity to consider in normal-tension glaucoma patients
Nesher R; Kohen R; Shulman S; Siesky B; Nahum Y; Harris A
Israeli Medical Association Journal 2012; 14: 240-243 (IGR: 14-2)

50493 A Potential Neuroprotective Role of Apolipoprotein E-containing Lipoproteins through Low Density Lipoprotein Receptor-related Protein 1 in Normal Tension Glaucoma
Hayashi H; Eguchi Y; Fukuchi-Nakaishi Y; Takeya M; Nakagata N; Tanaka K; Vance JE; Tanihara H
Journal of Biological Chemistry 2012; 287: 25395-25406 (IGR: 14-2)

50400 Optic Disc Torsion Direction Predicts the Location of Glaucomatous Damage in Normal-Tension Glaucoma Patients with Myopia
Park HY; Lee K; Park CK
Ophthalmology 2012; 119: 1844-1851 (IGR: 14-2)

50632 Normotensive pseudoexfoliation glaucoma: a new phenotype?
Rao A
Seminars in Ophthalmology 2012; 27: 48-51 (IGR: 14-2)

50302 Risk factors for progression of normal-tension glaucoma under β-blocker monotherapy
Araie M; Shirato S; Yamazaki Y; Matsumoto C; Kitazawa Y; Ohashi Y;
Acta Ophthalmologica 2012; 90: e337-e343 (IGR: 14-2)

48707 Cerebrospinal fluid exchange in the optic nerve in normal-tension glaucoma
Killer HE; Miller NR; Flammer J; Meyer P; Weinreb RN; Remonda L; Jaggi GP
British Journal of Ophthalmology 2012; 96: 544-548 (IGR: 14-1)

48543 Evaluation of the choroidal thickness using high-penetration optical coherence tomography with long wavelength in highly myopic normal-tension glaucoma
Usui S; Ikuno Y; Miki A; Matsushita K; Yasuno Y; Nishida K
American Journal of Ophthalmology 2012; 153: 10-16.e1 (IGR: 14-1)

49315 Visual field loss morphology in high- and normal-tension glaucoma
Iester M; De Feo F; Douglas GR
Journal of Ophthalmology 2012; 2012: 327326 (IGR: 14-1)

49131 Low Diastolic Blood Pressure Is Associated with the Progression of Normal-Tension Glaucoma
Okumura Y; Yuki K; Tsubota K
Ophthalmologica 2012; 228: 36-41 (IGR: 14-1)

49027 The efficacy of a monocular drug trial in normal-tension glaucoma
Lee JY; Hwang YH; Kim YY
Korean Journal of Ophthalmology 2012; 26: 26-31 (IGR: 14-1)

48938 Circadian (24-hour) pattern of intraocular pressure and visual field damage in eyes with normal-tension glaucoma
Lee YR; Kook MS; Joe SG; Na JH; Han S; Kim S; Shin CJ
Investigative Ophthalmology and Visual Science 2012; 53: 881-887 (IGR: 14-1)

49256 Color Doppler sonography of retrobulbar vessels and hypercapnia in normal tension glaucoma
Plange N; Bienert M; Harris A; Remky A; Arend KO
Ophthalmologe 2012; 109: 250-256 (IGR: 14-1)

49010 Progression of Visual Field Defects in Eyes With Different Optic Disc Appearances in Patients With Normal Tension Glaucoma
Nakazawa T; Shimura M; Ryu M; Himori N; Nitta F; Omodaka K; Doi H; Yasui T; Fuse N; Nishida K
Journal of Glaucoma 2012; 21: 426-430 (IGR: 14-1)

48780 Intraocular pressure correlates with optic nerve sheath diameter in patients with normal tension glaucoma
Abegã,o Pinto L; Vandewalle E; Pronk A; Stalmans I
Graefe's Archive for Clinical and Experimental Ophthalmology 2012; 250: 1075-1080 (IGR: 14-1)

49205 Evaluation of the visual function in obstructive sleep apnea syndrome patients and normal-tension glaucoma by means of the multifocal visual evoked potentials
Gutié,rrez-Dí,az E; Pé,rez-Rico C; de Atauri MJ; Mencí,a-Gutié,rrez E; Blanco R
Graefe's Archive for Clinical and Experimental Ophthalmology 2012; 250: 1681-1688 (IGR: 14-1)

49324 Circulating total glutathione in normal tension glaucoma patients: comparison with normal control subjects
Park MH; Moon J
Korean Journal of Ophthalmology 2012; 26: 84-91 (IGR: 14-1)

49113 Relationship Between Ocular Pulse Amplitude and Glaucomatous Central Visual Field Defect in Normal-tension Glaucoma
Lee M; Cho EH; Lew HM; Ahn J
Journal of Glaucoma 2012; 21: 596-600 (IGR: 14-1)

49175 Cardiac autonomic dysfunction in patients with normal tension glaucoma: 24-h heart rate and blood pressure variability analysis
Wierzbowska J; Wierzbowski R; Stankiewicz A; Siesky B; Harris A
British Journal of Ophthalmology 2012; 96: 624-628 (IGR: 14-1)

48993 Relationship between progression of visual field damage and choroidal thickness in eyes with normal-tension glaucoma
Hirooka K; Fujiwara A; Shiragami C; Baba T; Shiraga F
Clinical and Experimental Ophthalmology 2012; 40: 576-582 (IGR: 14-1)

48335 Continuous IOP fluctuation recording in normal tension glaucoma patients
Pajic B; Pajic-Eggspuchler B; Haefliger I
Current Eye Research 2011; 36: 1129-1138 (IGR: 13-4)

47674 Differences of optic disc appearance between normal tension and high tension glaucoma patients
Stojcic M; Hentova-Sencic P; Stojcic B
Srpski Arhiv Celokupno Lekarstvo 2011; 139: 428-432 (IGR: 13-4)

47617 Enhanced Depth Imaging Detects Lamina Cribrosa Thickness Differences in Normal Tension Glaucoma and Primary Open-Angle Glaucoma
Park H-YL; Jeon SH; Park CK
Ophthalmology 2011; (IGR: 13-4)

48020 Corneal biomechanical properties in normal-tension glaucoma
Morita T; Shoji N; Kamiya K; Fujimura F; Shimizu K
Acta Ophthalmologica 2011; (IGR: 13-4)

47868 Effect of five years of treatment with nipradilol eye drops in patients with normal tension glaucoma
Inoue K; Noguchi K; Wakakura M; Tomita G
Clinical Ophthalmology 2011; 5: 1211-1216 (IGR: 13-4)

47792 Aqueous vascular endothelial growth factor and endothelin-1 levels in branch retinal vein occlusion associated with normal tension glaucoma
Sin BH; Song BJ; Park SP
Journal of Glaucoma 2011; (IGR: 13-4)

48319 Intraocular pressure reduction in normal-tension glaucoma patients in South Korea
Ma KT; Kim CY; Seong GJ; Lee SH; Park JW; Ha SJ; Cho BJ; Stewart JA; Kristoffersen MS; Nelson LA
International Ophthalmology 2011; 31: 355-361 (IGR: 13-4)

47826 Toll-like Receptor 4 gene polymorphisms do not associate with normal tension glaucoma in a Korean population
Suh W; Kim S; Ki C-S; Kee C
Molecular Vision 2011; 17: 2343-2348 (IGR: 13-4)

47865 Additive intraocular pressure-lowering effect of dorzolamide 1%/timolol 0.5% fixed combination on prostaglandin monotherapy in patients with normal tension glaucoma
Mizoguchi T; Ozaki M; Wakiyama H; Ogino N
Clinical Ophthalmology 2011; 5: 1515-1520 (IGR: 13-4)

47691 Is normal-tension glaucoma different from primary open-angle glaucoma
Zhang L; Zhang YQ; Xu L; Yang H; Wu XS
Chinese Journal of Ophthalmology 2011; 47: 105-108 (IGR: 13-4)

47913 Clock-hour laminar displacement and age in primary open-angle glaucoma and normal tension glaucoma
Rho CR; Park H-YL; Lee NY; Park CK
Clinical and Experimental Ophthalmology 2011; (IGR: 13-4)

47815 Efficacy and safety of switching from topical latanoprost to bimatoprost in patients with normal-tension glaucoma
Sato S; Hirooka K; Baba T; Mizote M; Fujimura T; Tenkumo K; Ueda H; Shiraga F
Journal of Ocular Pharmacology and Therapeutics 2011; 27: 499-502 (IGR: 13-4)

47676 Clinical characteristics of eyes with unilateral disc hemorrhage in normal tension glaucoma patients
Li M; Cai Y; Pan YZ; Qiao RH; Fang Y; Liu LN; Wang J
Zhonghua Yi Xue Za Zhi 2011; 91: 445-450 (IGR: 13-4)

46803 Assessment of Corneal Biomechanical Properties in Normal Tension Glaucoma and Comparison With Open-angle Glaucoma, Ocular Hypertension, and Normal Eyes
Grise-Dulac A; Saad A; Abitbol O; Febbraro J-L; Azan E; Moulin-Tyrode C; Gatinel D
Journal of Glaucoma 2011; (IGR: 13-3)

47055 Optineurin in neurodegenerative diseases
Mizuno Y; Osawa T; Fujita Y; Takatama M; Nakazato Y; Okamoto K
Neurodegenerative Diseases 2011; 8 (IGR: 13-3)

47044 Retinal ganglion cell loss in superoxide dismutase 1 deficiency
Yuki K; Ozawa Y; Yoshida T; Kurihara T; Hirasawa M; Ozeki N; Shiba D; Noda K; Ishida S; Tsubota K
Investigative ophthalmology & visual science 2011; 52: 4143-4150 (IGR: 13-3)

46949 Correlation between humphrey visual field, optical coherence tomography and heidelberg retina tomograph parameters in primary open-angle glaucoma, normal-tension glaucoma and ocular hypertension
Ayhan Z; Arikan G; Gunenc U; Cingil G
Turk Oftalmoloiji Dergisi 2011; 41: 143-150 (IGR: 13-3)

46690 The hemorheological mechanisms in normal tension glaucoma
Cheng H-C; Chan C-M; Yeh S-I; Yu J-H; Liu D-Z
Current Eye Research 2011; 36: 647-653 (IGR: 13-3)

46818 Comparison of macular ganglion cell complex thickness by fourier-domain OCT in normal tension glaucoma and primary open-angle glaucoma
Kim NR; Hong S; Kim JH; Rho SS; Seong GJ; Kim CY
Journal of Glaucoma 2011; (IGR: 13-3)

46559 Investigation of the correlation between the right-left differences of visual field defects and the right-left differences of ocular anatomical factors in patients with normal-tension glaucoma
Hayamizu F; Yamazaki Y; Nakagami T
Nippon Ganka Gakkai Zasshi 2011; 115: 362-367 (IGR: 13-3)

45981 Frequency doubling technology for earlier detection of functional damage in standard automated perimetry-normal hemifield in glaucoma with low-to-normal pressure
Nakagawa S; Murata H; Saito H; Nakahara H; Mataki N; Tomidokoro A; Iwase A; Araie M
Journal of Glaucoma 2011; (IGR: 13-2)

45466 Lack of Association between Glaucoma and Macular Choroidal Thickness Measured with Enhanced Depth-Imaging Optical Coherence Tomography
Mwanza JC; Hochberg JT; Banitt MR; Feuer WJ; Budenz DL
Investigative Ophthalmology and Visual Science 2011; 52: 3430-3435 (IGR: 13-2)

45838 Normal-tension glaucoma (Low-tension glaucoma)
Anderson D
Indian Journal of Ophthalmology 2011; 59: 97-101 (IGR: 13-2)

45806 Clinical profiles of primary open angle glaucoma versus normal tension glaucoma patients: A pilot study
Asrani S; Samuels B; Thakur M; Santiago C; Kuchibhatla M
Current Eye Research 2011; 36: 429-435 (IGR: 13-2)

45924 Copy number variations on chromosome 12q14 in patients with normal tension glaucoma
Fingert JH; Robin AL; Stone JL; Roos BR; Davis LK; Scheetz TE; Bennett SR; Wassink TH; Kwon YH; Alward WLM
Human Molecular Genetics 2011; 20: 2482-2494 (IGR: 13-2)

45948 Is symptomatic atherosclerotic cerebrovascular disease a risk factor for normal-tension glaucoma?
Gungor IU; Gungor L; Ozarslan Y; Ariturk N; Beden U; Erkan D; Onar MK; Oge I
Medical Principles and Practice 2011; 20: 220-224 (IGR: 13-2)

45594 Optic nerve sheath diameter in normal-tension glaucoma patients
Jaggi GP; Miller NR; Flammer J; Weinreb RN; Remonda L; Killer HE
British Journal of Ophthalmology 2011; (IGR: 13-2)

45496 Rigidity of Retinal Vessel in Untreated Eyes of Normal Tension Primary Open-angle Glaucoma Patients
Oettli A; Gugleta K; Kochkorov A; Katamay R; Flammer J; Orgul S
Journal of Glaucoma 2011; 20: 303-306 (IGR: 13-2)

46144 Period prevalence and incidence of optic disc haemorrhage in normal tension glaucoma and primary open-angle glaucoma
Suh MH; Park KH
Clinical and Experimental Ophthalmology 2011; 39: 513-519 (IGR: 13-2)

46068 Investigation of the association between SLC1A3 gene polymorphisms and normal tension glaucoma
Yasumura R; Meguro A; Ota M; Nomura E; Uemoto R; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T
Molecular Vision 2011; 17: 792-796 (IGR: 13-2)

45870 Macular retinoschisis associated with normal tension glaucoma
Zhao M; Li X
Graefe's Archive for Clinical and Experimental Ophthalmology 2011; (IGR: 13-2)

27959 Comparison of peripapillary retinal nerve fiber layer thickness measured by spectral vs. time domain optical coherence tomography
Hong S; Seong GJ; Kim SS; Kang SY; Kim CY
Current Eye Research 2011; 36: 125-134 (IGR: 13-1)

27800 A Randomized Trial of Brimonidine Versus Timolol in Preserving Visual Function: Results From the Low-pressure Glaucoma Treatment Study
Krupin T; Liebmann JM; Greenfield DS; Ritch R; Gardiner S
American Journal of Ophthalmology 2011; 151: 671-681 (IGR: 13-1)

28113 Long-term effect of latanoprost on central corneal thickness in normal tension glaucoma
Kim HJ; Cho BJ
Journal of Ocular Pharmacology and Therapeutics 2011; 27: 73-76 (IGR: 13-1)

27743 Investigation of the Association between Helicobacter pylori Infection and Normal Tension Glaucoma
Kim JM; Kim SH; Park KH; Han SY; Shim HS
Investigative Ophthalmology and Visual Science 2011; 52: 665-668 (IGR: 13-1)

27809 Retinal vessel diameter, retinal nerve fiber layer thickness, and intraocular pressure in Korean patients with normal-tension glaucoma
Chang M; Yoo C; Kim S-W; Kim YY
American Journal of Ophthalmology 2011; 151: 100-105 (IGR: 13-1)

27691 Does the Enlargement of Retinal Nerve Fiber Layer Defects Relate to Disc Hemorrhage or Progressive Visual Field Loss in Normal-tension Glaucoma?
Nitta K; Sugiyama K; Higashide T; Ohkubo S; Tanahashi T; Kitazawa Y
Journal of Glaucoma 2011; 20: 189-195 (IGR: 13-1)

27521 ASK1 deficiency attenuates neural cell death in GLAST-deficient mice, a model of normal tension glaucoma
Harada C; Namekata K; Guo X; Yoshida H; Mitamura Y; Matsumoto Y; Tanaka K; Ichijo H; Harada T
Cell Death and Differentiation 2010; 17: 1751-1759 (IGR: 12-4)

27447 Peptidylarginine deiminase type 2 is over expressed in the glaucomatous optic nerve
Cafaro TA; Santo S; Robles LA; Crim N; Urrets-Zavalia JA; Serra HM
Molecular Vision 2010; 16: 654-1658 (IGR: 12-4)

27566 Variations in NTF4, VAV2, and VAV3 genes are not involved with primary open-angle and primary angle-closure glaucomas in an indian population
Rao KN; Kaur I; Parikh RS; Mandal AK; Chandrasekhar G; Thomas R; Chakrabarti S
Investigative ophthalmology & visual science 2010; 51: 4937-4941 (IGR: 12-4)

26993 Association between Genetic Polymorphisms of Adrenergic Receptor and Diurnal Intraocular Pressure in Japanese Normal-Tension Glaucoma.
Gao Y; Sakurai M; Takeda H; Higashide T; Kawase K; Sugiyama K
Ophthalmology 2010; 117: 2359-2364 (IGR: 12-4)

27122 Relation between blue-on-yellow perimetry and optical coherence tomography in normal tension glaucoma
Zhong Y; Zhou X; Cheng Y; Xie L
Canadian Journal of Ophthalmology 2010; 45: 494-500 (IGR: 12-4)

27023 Is nail fold capillaroscopy useful in normotensive and primary open angle glaucoma? A pilot study.
Božić M; Senćanić PH; Spahić G; Kontić D; Marković V; Marjanović I; Stojkovic M; Dorđević-Jocić J
Current Eye Research 2010; 35: 1099-1104 (IGR: 12-4)

27378 Normal tension glaucoma in patients with obstructive sleep apnea/hypopnea syndrome
Lin P-W; Friedman M; Lin H-C; Chang H-W; Wilson M; Lin M-C
Journal of Glaucoma 2010; (IGR: 12-4)

27462 Genotyping HLA-DRB1 and HLA-DQB1 alleles in Japanese patients with normal tension glaucoma
Suzuki M; Meguro A; Ota M; Nomura E; Kato T; Nomura N; Kashiwagi K; Mabuchi F; Iijima H; Kawase K
Molecular Vision 2010; 16: 1874-1879 (IGR: 12-4)

27635 Calcium channel blockers: Their use in normal tension glaucoma
Mozaffarieh M; Konieczka K; Flammer J
Expert Review of Ophthalmology 2010; 5: 617-625 (IGR: 12-4)

26990 Plasma homocysteine levels in patients with normal tension glaucoma.
Rössler CW; Baleanu D; Reulbach U; Lewczuk P; Bleich S; Kruse FE; Kornhuber J; Schlötzer-Schrehardt U; Juenemann AG
Journal of Glaucoma 2010; 19: 576-580 (IGR: 12-4)

27642 Increased serum total antioxidant status and decreased urinary 8-hydroxy-2'-deoxyguanosine levels in patients with normal-tension glaucoma
Yuki K; Murat D; Kimura I; Tsubota K
Acta Ophthalmologica 2010; 88: 259-264 (IGR: 12-4)

27497 Selective laser trabeculoplasty reduces mean IOP and IOP variation in normal tension glaucoma patients
El Mallah MK; Walsh MM; Stinnett SS; Asrani SG
Clinical Ophthalmology 2010; 4: 889-893 (IGR: 12-4)

27513 Normal tension glaucoma
Potop V; Dumitrache M; Ciocalteu A
Oftalmologia 2010; 54: 11-14 (IGR: 12-4)

27498 Effect of travoprost on 24-hour intraocular pressure in normal tension glaucoma
Nomura Y; Nakakura S; Moriwaki M; Takahashi Y; Shiraki K
Clinical Ophthalmology 2010; 4: 643-647 (IGR: 12-4)

27531 Comparative study of three prostaglandin analogues in the treatment of newly diagnosed cases of ocular hypertension, open-angle and normal tension glaucoma
Faridi UA; Saleh TA; Ewings P; Venkateswaran M; Cadman DH; Samarasinghe RA; Vodden J; Claridge KG
Clinical and Experimental Ophthalmology 2010; 38: 678-682 (IGR: 12-4)

26853 Significance of peripheral blood levels of IL-6 and IL-12 in patients with normal tension glaucoma
Wei B; Sheng X-D; Kadir J; Yin H-Y
International Journal of Ophthalmology 2010; 10: 1070-1072 (IGR: 12-3)

26312 Autonomic dysfunction in normal tension glaucoma: the short-term heart rate variability analysis
Na KS; Lee NY; Park SH; Park CK
Journal of Glaucoma 2010; 19: 377-381 (IGR: 12-3)

26543 Keratoconus and normal-tension glaucoma: A study of the possible association with abnormal biomechanical properties as measured by corneal hysteresis
Cohen EJ; Myers JS
Cornea 2010; 29: 955-970 (IGR: 12-3)

26814 Neurologic evaluations in normal-tension glaucoma workups: Are they worth the effort?
Kesler A; Haber I; Kurtz S
Israeli Medical Association Journal 2010; 12: 287-288 (IGR: 12-3)

26502 Genome-wide association study of normal tension glaucoma: Common variants in SRBD1 and ELOVL5 contribute to disease susceptibility
Writing Committee for the Normal Tension Glaucoma Genetic Study Group of Japan Glaucoma Society; Meguro A; Inoko H; Ota M; Mizuki N; Bahram S
Ophthalmology 2010; 117: 1331-1338 (IGR: 12-3)

25859 Analysis of microsatellite polymorphisms within the GLC1F locus in Japanese patients with normal tension glaucoma
Murakami K; Meguro A; Ota M; Shiota T; Nomura N; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T
Molecular Vision 2010; 16: 462-466 (IGR: 12-2)

25929 ASK1 deficiency attenuates neural cell death in GLAST-deficient mice, a model of normal tension glaucoma
Harada C; Namekata K; Guo X; Yoshida H; Mitamura Y; Matsumoto Y; Tanaka K; Ichijo H; Harada T
Cell Death and Differentiation ; (IGR: 12-2)

26109 Postural Response of Intraocular Pressure and Visual Field Damage in Patients With Untreated Normal-tension Glaucoma
Kiuchi T; Motoyama Y; Oshika T
Journal of Glaucoma 2010; 19: 191-193 (IGR: 12-2)

25848 Association of toll-like receptor 2 gene polymorphisms with normal tension glaucoma
Nakamura J; Meguro A; Ota M; Nomura E; Nishide T; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T
Molecular Vision 2009; 15: 2905-2910 (IGR: 12-2)

26260 Patterns of progression of localized retinal nerve fibre layer defect on red-free fundus photographs in normal-tension glaucoma
Suh MH; Kim DM; Kim YK; Kim TW; Park KH
Eye 2010; 24: 857-863 (IGR: 12-2)

25982 Keratoconus and normal-tension glaucoma: A study of the possible association with abnormal biomechanical properties as measured by corneal hysteresis (an AOS thesis)
Cohen EJ
Transactions of the American Ophthalmological Society 2009; 107: 282-299 (IGR: 12-2)

26273 Risk factors associated with optic disc haemorrhage in patients with normal tension glaucoma
Kim YD; Han SB; Park KH; Kim SH; Kim SJ; Seong M; Kim TW; Kim DM
Eye 2010; 24: 567-572 (IGR: 12-2)

26171 Chiasmal compression misdiagnosed as normal-tension glaucoma: can we avoid the pitfalls?
Drummond SR; Weir C
International Ophthalmology 2010; 30: 215-219 (IGR: 12-2)

25832 A pilot study for the effects of donepezil therapy on cerebral and optic nerve head blood flow, visual field defect in normal-tension glaucoma
Yoshida Y; Sugiyama T; Utsunomiya K; Ogura Y; Ikeda T
Journal of Ocular Pharmacology and Therapeutics 2010; 26: 187-192 (IGR: 12-2)

25857 Smell perception in normal tension glaucoma patients
Mozaffarieh M; Hauenstein D; Schoetzau A; Konieczka K; Flammer J
Molecular Vision 2010; 16: 506-510 (IGR: 12-2)

25892 Serum free fatty acids levels not associated with normal tension glaucoma
Yuki K; Kimura I; Tsubota K
Clinical Ophthalmology 2010; 4: 91-94 (IGR: 12-2)

25281 Quality of life evaluation in elderly normal tension glaucoma patients using the Japanese version of VFQ-25
Yamagishio K; Keiji Y; Kimura T; Yamabayashi S; Katsushima H
Nippon Ganka Gakkai Zasshi 2009; 113: 964-971 (IGR: 12-1)

25275 OPA1 increases the risk of normal but not high tension glaucoma
Yu-Wai-Man P; Stewart J D; Hudson G; Andrews R M; Griffiths P G; Birch M K; Chinnery P F
Journal of Medical Genetics 2010; 47: 120-125 (IGR: 12-1)

25452 Investigation of the association between the GLC3A locus and normal tension glaucoma in Japanese patients by microsatellite analysis
Kamio M; Meguro A; Ota M; Nomura N; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T; Nakamura M
Clinical Ophthalmology 2009; 3: 183-188 (IGR: 12-1)

25373 L-PGDS (betatrace protein) inhibits astrocyte proliferation and mitochondrial ATP production in vitro
Xin X; Huber A; Meyer P; Flammer J; Neutzner A; Miller N R; Killer H E
Journal of Molecular Neuroscience 2009; 39: 366-371 (IGR: 12-1)

25507 Brain-derived neurotrophic factor in patients with normal-tension glaucoma
Ghaffariyeh A; Honarpisheh N; Shakiba Y; Puyan S; Chamacham T; Zahedi F; Zarrineghbal M
Optometry 2009; 80: 635-638 (IGR: 12-1)

25286 Evaluation of Plasma Glutamate Levels in Normal Tension Glaucoma
Bunting H; Still R; Williams D R; Gravenor M; Austin M W
Ophthalmic Research 2009; 43: 197-200 (IGR: 12-1)

25405 C-reactive protein and lipid profiles in Korean patients with normal tension glaucoma.
Choi J; Joe S G; Seong M; Choi J Y; Sung K R; Kook M S
Korean Journal of Ophthalmology 2009; 23: 193-197 (IGR: 12-1)

25245 Simvastatin and Disease Stabilization in Normal Tension Glaucoma: A Cohort Study
Leung DY; Li FC; Kwong YY; Tham CC; Chi SC; Lam DS
Ophthalmology 2010; 117: 471-476 (IGR: 12-1)

25237 Lysyl oxidase-like 1 gene polymorphisms in German patients with normal tension glaucoma, pigmentary glaucoma and exfoliation glaucoma
Wolf C; Gramer E; Müller-Myhsok B; Pasutto F; Gramer G; Wissinger B; Weisschuh N
Journal of Glaucoma 2010; 19: 136-141 (IGR: 12-1)

25602 The effect of deep sclerectomy on intraocular pressure of normal-tension glaucoma patients: 1-year results
Suominen S; Harju M; Ihanamaki T; Vesti E
Acta Ophthalmologica 2010; 88: 27-32 (IGR: 12-1)

25209 Macular and peripapillary retinal nerve fiber layer measurements by spectral domain optical coherence tomography in normal-tension glaucoma
Seong M; Sung KR; Choi EH; Kang SY; Cho JW; Um TW; Kim YJ; Park SB; Hong HE; Kook MS
Investigative Ophthalmology and Visual Science 2010; 51: 1446-1452 (IGR: 12-1)

25121 Corneal thickness measurements in normal-tension glaucoma workups: is it worth the effort?
Kurtz S; Haber I; Kesler A
Journal of Glaucoma 2010; 19: 58-60 (IGR: 12-1)

25458 Association of microsatellite polymorphisms of the GPDS1 locus with normal tension glaucoma in the Japanese population
Nakamura K; Ota M; Meguro A; Nomura N; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T; Nakamura M
Clinical Ophthalmology 2009; 3: 307-312 (IGR: 12-1)

25043 Reduced-serum vitamin C and increased uric acid levels in normal-tension glaucoma
Yuki K; Murat D; Kimura I; Ohtake Y; Tsubota K
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 243-248 (IGR: 12-1)

25170 Changes in corneal endothelial cell density in patients with normal-tension glaucoma
Cho SW; Kim JM; Choi CY; Park KH
Japanese Journal of Ophthalmology 2009; 53: 569-573 (IGR: 12-1)

25542 Perceptive aspects of visual aura
Aleci C; Liboni W
Neurological Sciences 2009; 30: 447-452 (IGR: 12-1)

25425 Intraocular pressure (IOP) reduction by latanoprost in japanese normal tension glaucoma patients over a five-year period stratified by presenting IOP
Tsuda M; Ando A; Matsuyama K; Otsuji T; Fukui C; Maenishi N; Kuwahara A; Nishimura T; Jo N; Nambu H
Journal of Ocular Pharmacology and Therapeutics 2009; 25: 441-445 (IGR: 12-1)

24684 Aerobic exercise and intraocular pressure in normotensive and glaucoma patients
Natsis K; Asouhidou I; Nousios G; Chatzibalis T; Vlasis K; Karabatakis V
BMC Ophthalmology 2009; 9: 6 (IGR: 11-4)

24914 Color Doppler imaging and pattern visual evoked potential in normal tension glaucoma and hypertension glaucoma
Zhong Y; Min Y; Jiang Y; Cheng Y; Qin J; Shen X
Documenta Ophthalmologica 2009; 119: 171-180 (IGR: 11-4)

24868 Risk factors for normal-tension glaucoma among subgroups of patients
Park SC; Lee DH; Lee HJ; Kee C
Archives of Ophthalmology 2009; 127: 1275-1283 (IGR: 11-4)

24819 Twenty-four hour ocular perfusion pressure fluctuation and risk of normal-tension glaucoma progression
Sung KR; Lee S; Park SB; Choi J; Kim ST; Yun SC; Kang SY; Cho JW; Kook MS
Investigative Ophthalmology and Visual Science 2009; 50: 5266-5274 (IGR: 11-4)

24178 Optic nerve head morphologic characteristics in chronic angle-closure glaucoma and normal-tension glaucoma
Zhao L; Wu L; Wang X
Journal of Glaucoma 2009; 18: 460-463 (IGR: 11-3)

24214 Vascular profile of patients with normal tension glaucoma
Ali El Afrit M; Trojet S; Mazlout H; Hamdouni M; Korchene N; Kraiem A
Tunisie Medicale 2008; 86: 355-357 (IGR: 11-3)

24309 Twenty-four hour blood pressure pattern in patients with normal tension glaucoma in the habitual position
Joe SG; Choi J; Sung KR; Park SB; Kook MS
Korean Journal of Ophthalmology 2009; 23: 32-39 (IGR: 11-3)

24081 Silent cerebral infarct and visual field progression in newly diagnosed normal-tension glaucoma: a cohort study
Leung DY; Tham CC; Li FC; Kwong YY; Chi SC; Lam DS
Ophthalmology 2009; 116: 1250-1256 (IGR: 11-3)

23937 Long axial length as risk factor for normal tension glaucoma
Oku Y; Oku H; Park M; Hayashi K; Takahashi H; Shouji T; Chihara E
Graefe's Archive for Clinical and Experimental Ophthalmology 2009; 247: 781-787 (IGR: 11-2)

23516 Potential benefit of intraocular pressure reduction in normal-tension glaucoma in South Korea
Je Seong G; Rho SH; Sik Kim C; Moon JI; Kook MS; Kim YY; Tak Ma K; Jae Hong Y; Nelson LA; Kruft B
Journal of Ocular Pharmacology and Therapeutics 2009; 25: 91-96 (IGR: 11-2)

24004 Primary open angle glaucoma in subjects harbouring the predicted GLC1L haplotype reveals a normotensive phenotype
Sherwin JC; Hewitt AW; Bennett SL; Baird PN; Craig JE; Mackey DA
Clinical and Experimental Ophthalmology 2009; 37: 201-207 (IGR: 11-2)

22814 Investigation of the biomechanical properties of the cornea in patients with normotensive and primary open-angle glaucoma
Avetisov SE; Bubnova IA; Antonov AA
Vestnik Oftalmologii 2008; 124: 14-16 (IGR: 11-1)

22623 Correlation between corneal and scleral thickness in glaucoma
Mohamed-Noor J; Bochmann F; Siddiqui MA; Atta HR; Leslie T; Maharajan P; Wong YM; Azuara-Blanco A
Journal of Glaucoma 2009; 18: 32-36 (IGR: 11-1)

22911 Comparison of OCT and HRT findings among normal, normal tension glaucoma, and high tension glaucoma
Shin IH; Kang SY; Hong S; Kim SK; Seong GJ; Tak MK; Kim CY
Korean Journal of Ophthalmology 2008; 22: 236-241 (IGR: 11-1)

22730 Effect of travoprost on intraocular pressure during 12 months of treatment for normal-tension glaucoma
Suh MH; Park KH; Kim DM
Japanese Journal of Ophthalmology 2009; 53: 18-23 (IGR: 11-1)

22694 Comparison of risk factors for bilateral and unilateral eye involvement in normal-tension glaucoma
Kim C; Kim TW
Investigative Ophthalmology and Visual Science 2009; 50: 1215-1220 (IGR: 11-1)

22498 Investigation of the association between 677C>T and 1298A>C 5,10-methylenetetra- hydrofolate reductase gene polymorphisms and normal-tension glaucoma
Woo SJ; Kim JY; Kim DM; Park SS; Ko HS; Yoo T
Eye 2009; 23: 17-24 (IGR: 11-1)

22802 Long-term study of nipradilol ophthalmic solution in patients with normal-tension glaucoma
Yukawa E; Nitta N; Taketani F; Matsuura T; Morishita K; Hara Y
Nippon Ganka Gakkai Zasshi 2008; 112: 994-998 (IGR: 11-1)

22951 Normotensive glaucoma
Dumitrica DM; Stefan C
Oftalmologia 2008; 52: 31-35 (IGR: 11-1)

21518 Retinal nerve fiber layer measures in high- and normal-tension glaucoma
Konstantakopoulou E; Reeves BC; Fenerty C; Harper RA
Optometry and Vision Science 2008; 85: 538-542 (IGR: 10-3)

21830 Microsatellite analysis of the GLC1B locus on chromosome 2 points to NCK2 as a new candidate gene for normal-tension glaucoma
Akiyama M; Yatsu K; Ota M; Katsuyama Y; Kashiwagi K; Mabuchi F; Iijima H; Kawase K; Yamamoto T; Nakamura M
British Journal of Ophthalmology 2008; 92: 1293-1296 (IGR: 10-3)

21640 Observation study on the relationship between the asymmetry of intraocular tension and glaucoma without previous diagnosis and treatment in Shaanxi rural people aged above 50
Zhang X-L; Ren B-C; He Y; Chen L; Sun N-X; Yang J-G
International Journal of Ophthalmology 2008; 8: 1194-1197 (IGR: 10-3)

21726 Prolonged retinal arteriovenous passage time is correlated to ocular perfusion pressure in normal tension glaucoma
Plange N; Kaup M; Remky A; Arend KO
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 1147-1152 (IGR: 10-3)

21878 Ocular pulse amplitude in normal-tension and primary open-angle glaucoma
Stalmans I; Harris A; Vanbellinghen V; Zeyen T; Siesky B
Journal of Glaucoma 2008; 17: 403-407 (IGR: 10-3)

21685 Corneal biomechanical properties in primary open-angle glaucoma and normal-tension glaucoma
Ang GS; Bochmann F; Townend J; Azuara-Blanco A
Journal of Glaucoma 2008; 17: 259-262 (IGR: 10-3)

21824 Clinical efficacy of topical nipradilol and timolol on visual field performance in normal-tension glaucoma: A multi-center, randomized, double-masked comparative study
Araie M; Shirato S; Yamazaki Y; Kitazawa Y; Ohashi Y; the Nipradilol-Timolol Study Group
Japanese Journal of Ophthalmology 2008; 52: 255-264 (IGR: 10-3)

21459 Central corneal thickness in patients with normal-tension glaucoma
Konareva-Kostianeva MI; Atanassov MA
Folia Medica 2007; 49: 36-41 (IGR: 10-3)

21858 The effect of travoprost on daytime intraocular pressure in normal tension glaucoma: A randomised controlled trial
Ang GS; Kersey JP; Shepstone L; Broadway DC
British Journal of Ophthalmology 2008; 92: 1129-1133 (IGR: 10-3)

21148 Disc hemorrhages in patients with both normal tension glaucoma and branch retinal vein occlusion in different eyes
Yoo YC; Park KH
Korean Journal of Ophthalmology 2007; 21: 222-227 (IGR: 10-2)

21071 Ocular pulse amplitude in patients with open-angle glaucoma, normal-tension glaucoma, and ocular hypertensionby dynamic observing tonometry
Kawabata K; Kimura T; Fujiki K; Murakami A
Nippon Ganka Gakkai Zasshi 2007; 111: 946-952 (IGR: 10-2)

21155 Effects of switching from topical β-blockers to latanoprost on intraocular pressure in patients with normal-tension glaucoma
Ikeda Y; Mori K; Ishibashi T; Naruse S; Nakajima N; Kinoshita S
Journal of Ocular Pharmacology and Therapeutics 2008; 24: 230-234 (IGR: 10-2)

21110 Study of MR imaging of optic nerve in the case with complication of disc anomaly and normal tension glaucoma
Nakao Y
Neuro-Ophthalmology Japan 2007; 24: 397-404 (IGR: 10-2)

20494 Clinical and morphological characteristics of the scleral drainage area in normotensive glaucoma
Shmyreva VF; Ziangirova GG; Mazurova IV; Petrov SI
Vestnik Oftalmologii 2007; 123: 32-35 (IGR: 10-1)

20746 Oxygen saturation levels in the juxta-papillary retina in eyes with glaucoma
Ito M; Murayama K; Deguchi T; Takasu M; Gil T; Araie M; Peyman G; Yoneya S
Experimental Eye Research 2008; 86: 512-518 (IGR: 10-1)

20700 Optic disc asymmetry: Normal tension glaucoma or a space-occupying lesion?
Gupta A; Rahman I; Mohan M
Annals of ophthalmology (Skokie, Ill.) 2007; 39: 246-248 (IGR: 10-1)

20826 Prevalence of serum autoantibodies and paraproteins in patients with glaucoma
Hammam T; Montgomery D; Morris D; Imrie F
Eye 2008; 22: 349-353 (IGR: 10-1)

20733 Disease proteomics reveals altered basic gene expression regulation in leukocytes of Normal-Tension and Primary Open-Angle glaucoma patients
Golubnitschaja O; Yeghiazaryan K; Wunderlich K; Schild HH; Flammer J
Proteomics - Clinical Applications 2007; 1: 1316-1323 (IGR: 10-1)

20583 Update on the natural history of glaucoma
Hitchings R
Eye 2007; 21: S2-S5 (IGR: 10-1)

20751 Normal-tension glaucoma: is it different from primary open-angle glaucoma?
Shields MB
Current Opinions in Ophthalmology 2008; 19: 85-88 (IGR: 10-1)

20572 A clinical trial studying neuroprotection in low-pressure glaucoma
Krupin T
Eye 2007; 21: S51-S54 (IGR: 10-1)

19960 Comparison of peripapillary atrophy in eyes with unilateral visual field defect in patients with primary open-angle glaucoma and normal tension glaucoma
Pan YZ; Ren ZQ; Li M; Qiao RH
Zhonghua Yan Ke Za Zhi 2007; 43: 784-787 (IGR: 9-4)

20016 Decreased nasal-temporal asymmetry of the second-order kernel response of multifocal electroretinograms in eyes with normal-tension glaucoma
Asano E; Mochizuki K; Sawada A; Nagasaka E; Kondo Y; Yamamoto T
Japanese Journal of Ophthalmology 2007; 51: 379-389 (IGR: 9-4)

19849 The plasma levels of Aβ(1-40) and Aβ(1-42) in Uyghur patients with normal-tension glaucoma
Wei B; Zhang H; Wang X-J; Fu L-L; Ju E-T
International Journal of Ophthalmology 2007; 7: 1031-1033 (IGR: 9-4)

19997 Systemic antihypertensive medication and incident open-angle glaucoma
Müskens RP; de Voogd S; Wolfs RC; Witteman JC; Hofman A; De Jong PT; Stricker BH; Jansonius NM
Ophthalmology 2007; 114: 2221-2226 (IGR: 9-4)

19545 Comparison of central and peripheral corneal thicknesses between normal subjects and patients with primary open-angle glaucoma, normal-tension glaucoma and pseudoexfoliation glaucoma
Rüfer F; Westphal S; Erb C
Klinische Monatsblätter für Augenheilkunde 2007; 224: 636-640 (IGR: 9-3)

19249 The potential role of glutamate transporters in the pathogenesis of normal tension glaucoma
Harada T; Harada C; Nakamura K; Quah H-MA; Okumura A; Namekata K; Saeki T; Aihara M; Yoshida H; Mitani A
Journal of Clinical Investigation 2007; 117: 1763-1770 (IGR: 9-3)

19348 Investigation of the association between normal-tension glaucoma and single nucleotide polymorphisms in natriuretic peptide gene
Jeoung JW; Kim DM; Ko HS; Park SS; Kim JY; Kim SY; Yoo TW
Korean Journal of Ophthalmology 2007; 21: 33-38 (IGR: 9-3)

19440 Antibodies to α B-crystallin, vimentin, and heat shock protein 70 in aqueous humor of patients with normal tension glaucoma and IgG antibody patterns against retinal antigen in aqueous humor
Joachim SC; Bruns K; Lackner KJ; Pfeiffer N; Grus FH
Current Eye Research 2007; 32: 501-59 (IGR: 9-3)

19495 Risk factors for noncompliance with follow-up among normal-tension glaucoma suspects
Ngan R; Lam DL; Mudumbai RC; Chen PP
American Journal of Ophthalmology 2007; 144: 310-311 (IGR: 9-3)

19357 Clinical experience in the treatment of normal tension glaucoma with latanoprost in Germany
Thelen U; Weiler W; Kirchhoff E; Fuchs H-B; Stewart WC
Journal of Ocular Pharmacology and Therapeutics 2007; 23: 311-313 (IGR: 9-3)

19365 Investigation of the association between interleukin-1β polymorphism and normal tension glaucoma
Wang CY; Shen Y-C; Su C-H; Lo F-Y; Lee S-H; Tsai H-Y; Fan S-S
Molecular Vision 2007; 13: 719-723 (IGR: 9-3)

19362 Variations in the WDR36 gene in German patients with normal tension glaucoma
Weisschuh N; Wolf C; Wissinger B; Gramer E
Molecular Vision 2007; 13: 724-729 (IGR: 9-3)

18127 Comparison of localized retinal nerve fiber layer defects between a low-teen intraocular pressure group and a high-teen intraocular pressure group in normal-tension glaucoma patients
Kim DM; Seo JH; Kim SH; Hwang SS
Journal of Glaucoma 2007; 16: 293-296 (IGR: 9-2)

18101 Positive ibopamine provocative test in normal-tension glaucoma suspects
Kniestedt C; Romppainen T; Gloor BP; Stürmer J
Klinische Monatsblätter für Augenheilkunde 2007; 224: 255-259 (IGR: 9-2)

18010 Special considerations in low-tension glaucoma
Krupin T
Canadian Journal of Ophthalmology 2007; 42: 414-417 (IGR: 9-2)

17584 Renal sodium handling in patients with normal pressure glaucoma
Pechere-Bertschi A; Sunaric-Megevand G; Haefliger I; Panarello F; Maillard M; Burnier M
Clinical Science 2007; 112: 337-344 (IGR: 9-2)

18117 Effect of concomitant use of latanoprost and brinzolamide on 24-hour variation of IOP in normal-tension glaucoma
Nakamoto K; Yasuda N
Journal of Glaucoma 2007; 16: 352-357 (IGR: 9-2)

16857 Central corneal thickness and visual field progression in patients with chronic primary angle-closure glaucoma with low intraocular pressure
Hong S; Kim CY; Seong GJ; Hong YJ
American Journal of Ophthalmology 2007; 143: 362-363 (IGR: 9-1)

16854 The OPA1 gene polymorphism is associated with normal tension and high tension glaucoma
Mabuchi F; Tang S; Kashiwagi K; Yamagata Z; Iijima H; Tsukahara S
American Journal of Ophthalmology 2007; 143: 125-130 (IGR: 9-1)

16805 The 'two global flash' mfERG in high and normal tension primary open-angle glaucoma
Palmowski-Wolfe AM; Todorova MG; Orguel S; Flammer J; Brigell M
Documenta Ophthalmologica 2007; 114: 9-19 (IGR: 9-1)

16886 Retinal mean transit time in patients with primary open-angle glaucoma and normal-tension glaucoma
Bjarnhall G; Tomic L; Mishima HK; Tsukamoto H; Alm A
Acta Ophthalmologica Scandinavica 2007; 85: 67-72 (IGR: 9-1)

16971 No apparent association between ocular perfusion pressure and visual field damage in normal-tension glaucoma patients
Kurita N; Tomidokoro A; Mayama C; Aihara M; Araie M
Japanese Journal of Ophthalmology 2006; 50: 547-549 (IGR: 9-1)

16888 Prevalence of normal tension glaucoma in obstructive sleep apnea syndrome patients
Sergi M; Salerno DE; Rizzi M; Blini M; Andreoli A; Messenio D; Pecis M; Bertoni G
Journal of Glaucoma 2007; 16: 42-46 (IGR: 9-1)

16953 Visual field and intraocular pressure asymmetry in the low-pressure glaucoma treatment study
Greenfield DS; Liebmann JM; Ritch R; Krupin T; Low-Pressure Glaucoma Study Group
Ophthalmology 2007; 114: 460-465 (IGR: 9-1)

16846 Normal tension glaucoma is not associated with the interleukin -1α (-889) genetic polymorphism
Wang C-Y; Shen Y-C; Lo F-Y; Su C-H; Lee S-H; Tsai H-Y; Fan S-S
Journal of Glaucoma 2007; 16: 230-233 (IGR: 9-1)

17139 Long-term effects of isopropyl unoprostone monotherapy on intraocular pressure and visual field for normal-tension glaucoma and primary open-angle glaucoma patients
Saito Y; Saeki T; Sugiyama K
Nippon Ganka Gakkai Zasshi 2006; 110: 717-722 (IGR: 9-1)

15169 Scanning laser polarimetry with variable corneal compensation in the area of apparently normal hemifield in eyes with normal-tension glaucoma
Choi J; Cho HS; Lee CH; Kook MS
Ophthalmology 2006; 113: 1954-1960 (IGR: 8-4)

15043 Compromised autoregulatory control of ocular hemodynamics in glaucoma patients after postural change
Galambos P; Vafiadis J; Vilchez SE; Wagenfeld L; Matthiessen ET; Richard G; Klemm M; Zeitz O
Ophthalmology 2006; 113: 1832-1836 (IGR: 8-4)

15177 Distribution of optineurin sequence variations in an ethnically diverse population of low-tension glaucoma patients from the United States
Hauser MA; Sena DF; Flor J; Walter J; Auguste J; Larocque-Abramson K; Graham F; Delbono E; Haines JL; Pericak-Vance MA
Journal of Glaucoma 2006; 15: 358-363 (IGR: 8-4)

14759 Investigations on the association between normal tension glaucoma and single nucleotide polymorphisms of the endothelin-1 and endothelin receptor genes
Kim SH; Kim JY; Kim DM; Ko HS; Kim SY; Yoo T; Hwang SS; Park SS
Molecular Vision 2006; 12: 1016-1021 (IGR: 8-4)

15173 Relationship of progression of visual field damage to postural changes in intraocular pressure in patients with normal-tension glaucoma
Kiuchi T; Motoyama Y; Oshika T
Ophthalmology 2006; 113: 2150-2150 (IGR: 8-4)

14658 Effect of latanoprost for normal-tension glaucoma by measuring the intraocular pressure at fixed time of day
Mima A; Hata H; Murao F; Shiota H
Japanese Journal of Clinical Ophthalmology 2006; 60: 1613-1616 (IGR: 8-4)

14656 Effect of monotherapy with nipradilol ophthalmic solution for normal-tension glaucoma
Yukawa E; Nitta N; Taketani F; Yoshii T; Matsuura T; Morishita K; Hara Y
Japanese Journal of Clinical Ophthalmology 2006; 60: 1685-1689 (IGR: 8-4)

14622 Normal tension glaucoma
Wang Y-Y; Zheng Y-L; Huang Z-Z; Liu J-L
International Journal of Ophthalmology 2006; 6: 833-836 (IGR: 8-4)

15016 A case of normal-tension glaucoma with impaired eye movements in a young patient
Yoshida Y; Sugiyama T; Sugasawa J; Nakajima M; Ikeda T; Utsunomiya K
Nippon Ganka Gakkai Zasshi 2006; 110: 477-483 (IGR: 8-4)

14719 Effects of bimatoprost 0.03% on ocular hemodynamics in normal tension glaucoma
Chen M-J; Cheng C-Y; Chen Y-C; Chou C-K; Hsu W-M
Journal of Ocular Pharmacology and Therapeutics 2006; 22: 188-193 (IGR: 8-4)

14415 A 3-month clinical trial comparing the IOP-lowering efficacy of bimatoprost and latanoprost in patients with normal-tension glaucoma
Dirks MS; Noecker RJ; Earl M; Roh S; Silverstein SM; Williams RD
Advances in Therapy 2006; 23: 385-394 (IGR: 8-4)

15176 Effect of latanoprost on the diurnal variations in the intraocular and ocular perfusion pressure in normal tension glaucoma
Ishibashi S; Hirose N; Tawara A; Kubota T
Journal of Glaucoma 2006; 15: 354-357 (IGR: 8-4)

13974 Correlation between hemifield visual field damage and corresponding parapapillary atrophy in normal-tension glaucoma
Kawano J; Tomidokoro A; Mayama C; Kunimatsu S; Tomita G; Araie M
American Journal of Ophthalmology 2006; 142: 40-45 (IGR: 8-3)

14331 Clinical application of the 24-hour IOP monitoring in the diagnose of the normal tension glaucoma suspects
Du C; Peng S; Huang W
Eye Science 2006; 22: 68-70 (IGR: 8-3)

13970 Effect of hospitalization on intraocular pressure in patients with high tension and normal tension glaucoma
Haufschild T; Orgul S; Flammer J
American Journal of Ophthalmology 2006; 142: 179-181 (IGR: 8-3)

14025 Decreased blood flow at neuroretinal rim of optic nerve head corresponds with visual field deficit in eyes with normal tension glaucoma
Sato EA; Ohtake Y; Shinoda K; Mashima Y; Kimura I
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 795-801 (IGR: 8-3)

14135 Comparison of retinal nerve fiber layer measurements between NTG and HTG using GDx-vCC
Jung JI; Kim JH; Kook MS
Korean Journal of Ophthalmology 2006; 20: 26-32 (IGR: 8-3)

14051 Abnormal flow-mediated vasodilation in normal-tension glaucoma using a noninvasive determination for peripheral endothelial dysfunction
Su WW; Cheng ST; Hsu TS; Ho WJ
Investigative Ophthalmology and Visual Science 2006; 47: 3390-3394 (IGR: 8-3)

14093 Additional reduction in intraocular pressure achieved with latanoprost in normal-tension glaucoma patients previously treated with unoprostone
Enoki M; Saito J; Hara M; Uchida T; Sagara T; Nishida T
Japanese Journal of Ophthalmology 2006; 50: 334-337 (IGR: 8-3)

14001 Plasma endothelin-1 level in Japanese normal tension glaucoma patients
Kunimatsu S; Mayama C; Tomidokoro A; Araie M
Current Eye Research 2006; 31: 727-731 (IGR: 8-3)

14142 Effect of topical glaucoma medications on optic disc topography in normal tension glaucoma
Namba H; Namba R; Murofushi C
Nippon Ganka Gakkai Zasshi 2006; 110: 404-409 (IGR: 8-3)

13717 Central corneal thickness and normal tension glaucoma: a cross-sectional study
Sullivan-Mee M; Halverson KD; Saxon MC; Saxon GB; Qualls C
Optometry 2006; 77: 134-140 (IGR: 8-2)

13736 Altered endothelin-1 vasoreactivity in patients with untreated normal-pressure glaucoma
Henry E; Newby DE; Webb DJ; Hadoke PW; O'brien CJ
Investigative Ophthalmology and Visual Science 2006; 47: 2528-2532 (IGR: 8-2)

13621 24-h blood pressure monitoring in normal tension glaucoma: Night-time blood pressure variability
Plange N; Kaup M; Daneljan L; Predel HG; Remky A; Arend O
Journal of Human Hypertension 2006; 20: 137-142 (IGR: 8-2)

13392 Central and paracentral corneal pachymetry in patients with normal tension glaucoma and ocular hypertension
Jordan JF; Joergens S; Dinslage S; Dietlein TS; Krieglstein GK
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 177-182 (IGR: 8-1)

13255 Relationship between diurnal intraocular pressure variations and blood pressure in glaucoma patients with normal tension glaucoma
Endo Y
Yokohama Medical Journal 2005; 56: 161-165 (IGR: 8-1)

13544 Colour Doppler imaging in normal pressure glaucoma patients
Huber KK; Plange N; Arend O; Remky A
Klinische Monatsblätter für Augenheilkunde 2006; 223: 156-160 (IGR: 8-1)

13547 Prognostic factors for progression of visual field damage in patients with normal-tension glaucoma
Nakagami T; Yamazaki Y; Hayamizu F
Japanese Journal of Ophthalmology 2006; 50: 38-43 (IGR: 8-1)

12577 Are endothelin-1 and neuropeptide Y involved in the pathogenesis of glaucoma?
Terelak Borys B
Klinika Oczna 2005; 107: 306-311 (IGR: 7-3)

13150 Episcleral venous pressure in untreated primary open-angle and normal-tension glaucoma
Selbach JM; Posielek K; Steuhl KP; Kremmer S
Ophthalmologica 2005; 219: 357-361 (IGR: 7-3)

13099 Diagnostics and therapy for normal tension glaucoma
Baleanu D; Michelson G
Klinische Monatsblätter für Augenheilkunde 2005; 222: 760-771 (IGR: 7-3)

13185 C-reactive protein levels in normal tension glaucoma
Leibovitch I; Kurtz S; Kesler A; Feithliher N; Shemesh G; Sela BA
Journal of Glaucoma 2005; 14: 384-386 (IGR: 7-3)

13149 Therapeutic strategies for normal-tension glaucoma
Orgul S; Zawinka C; Gugleta K; Flammer J
Ophthalmologica 2005; 219: 317-323 (IGR: 7-3)

13220 The comparison study of renin and angiotensin a ii levels on normal tension glaucoma patients and normal individuals
Yun H; FuP; Ding K; Yang Q
Eye Science 2005; 21: 192-195 (IGR: 7-3)

12750 Clinical approach to normal intraocular pressure glaucoma
Cerovski B; Popovic Suic S; Bujger Z; Miljenka T; Cerovski J
Acta Medica Croatica 2005; 59: 123-128 (IGR: 7-3)

12387 Retinal nerve fiber layer thickness in the fellow eyes of normal-tension glaucoma patients with unilateral visual field defect
Kim DM; Hwang US; Park KH; Kim SH
American Journal of Ophthalmology 2005; 140: 165-166 (IGR: 7-2)

12495 Clinical Features and Course of Patients with Glaucoma with the E50K Mutation in the Optineurin Gene
Aung T; Rezaie T; Okada K; Viswanathan AC; Child AH; Brice G; Bhattacharya SS; Lehmann OJ; Sarfarazi M; Hitchings RA
Investigative Ophthalmology and Visual Science 2005; 46: 2816-2822 (IGR: 7-2)

12478 Efficacy and complications after trabeculectomy with mitomycin C in normal-tension glaucoma
Jongsareejit B; Tomidokoro A; Mimura T; Tomita G; Shirato S; Araie M
Japanese Journal of Ophthalmology 2005; 49: 223-227 (IGR: 7-2)

12300 Red blood cell deformability, aggregability and cytosolic calcium concentration in normal tension glaucoma
Vetrugno M; Cicco G; Cantatore F; Arnese L; Delle Noci N; Sborgia C
Clinical Hemorheology and Microcirculation 2004; 31: 295-302 (IGR: 7-2)

11982 Difference of optic disc topography between a low-tension group and a high-tension group in normal-tension glaucoma patients
Shiraki R; Uchida H; Ishida K; Yamamoto T
Nippon Ganka Gakkai Zasshi 2005; 109: 19-25 (IGR: 7-1)

11722 Enhanced endothelium derived hyperpolarising factor activity in resistance arteries from normal pressure glaucoma patients: implications for vascular function in the eye
Cleary C; Buckley CH; Henry E; McLoughlin P; O'Brien C; Hadoke PW
British Journal of Ophthalmology 2005; 89: 223-228 (IGR: 7-1)

11847 The Low-pressure Glaucoma Treatment Study (LoGTS) study design and baseline characteristics of enrolled patients
Krupin T; Liebmann JM; Greenfield DS; Rosenberg LF; Ritch R; Yang JW; Low-Pressure Glaucoma Study Group
Ophthalmology 2005; 112: 376-385 (IGR: 7-1)

11869 Effect of nimodipine on ocular blood flow and colour contrast sensitivity in patients with normal tension glaucoma
Luksch A; Rainer G; Koyuncu D; Ehrlich P; Maca T; Gschwandtner ME; Vass C; Schmetterer L
British Journal of Ophthalmology 2005; 89: 21-25 (IGR: 7-1)

11914 Optic nerve compression by normal carotid artery in patients with normal tension glaucoma
Ogata N; Imaizumi M; Kurokawa H; Arichi M; Matsumura M
British Journal of Ophthalmology 2005; 89: 174-179 (IGR: 7-1)

12140 A comparative study of optic nerve damage between primary open angle glaucoma and normal tension glaucoma
Xia CR; Xu L; Yang Y
Zhonghua Yi Xue Za Zhi 2005; 41: 136-40 (IGR: 7-1)

11233 Investigation of the association between OPA1 polymorphisms and normal-tension glaucoma in Korea
Woo SJ; Kim DM; Kim JY; Park SS; Ko HS; Yoo T
Journal of Glaucoma 2004; 13: 492-495 (IGR: 6-3)

11536 Confocal laser scanning Doppler flowmetry in primary open-angle glaucoma with normal IOP
Li J; Chu R; Shen Y; Sun X
Chinese Ophthalmic Research 2004; 22: 399-402 (IGR: 6-3)

11489 Coincidence of normal tension glaucoma, progressive sensorineural hearing loss, and elevated antiphosphatidylserine antibodies
Kremmer S; Kreuzfelder E; Bachor E; Jahnke K; Selbach JM; Seidahmadi S
British Journal of Ophthalmology 2004; 88: 1259-1262 (IGR: 6-3)

11308 A three-year prospective, randomized and open comparison between latanoprost and timolol in Japanese normal-tension glaucoma patients
Tomita G; Araie M; Kitazawa Y; Tsukahara S
Eye 2004; 18: 984-989 (IGR: 6-3)

10770 Retinal nerve fiber loss in high- and normal-tension glaucoma by optical coherence tomography
Mok KH; Lee VW; So KF
Optometry and Vision Science 2004; 81: 369-72 (IGR: 6-2)

10779 Optic disc topography as measured by confocal scanning laser ophthalmoscopy and visual field loss in Japanese patients with primary open-angle or normal-tension glaucoma
Nakatsue T; Shirakashi M; Yaoeda K; Funaki S; Funaki H; Fukushima A; Ofuchi N; Abe H
Journal of Glaucoma 2004; 13: 291-8 (IGR: 6-2)

10812 Regulation of optic nerve head blood flow in normal tension glaucoma patients
Pournaras CJ; Riva CE; Bresson Dumont H; De Gottrau P; Bechetoille A
European Journal of Ophthalmology 2004; 14: 226-235 (IGR: 6-2)

10604 Therapeutic effect of intraocular pressure reduction on normal-tension glaucoma
Dai W; Lu Y; Pan X
Chinese Ophthalmic Research 2004; 22: 197-199 (IGR: 6-2)

10861 Visual Field Damage in Normal-tension Glaucoma Patients With or Without Ischemic Changes in Cerebral Magnetic Resonance Imaging
Suzuki J; Tomidokoro A; Araie M; Tomita G; Yamagami J; Okubo T; Masumoto T
Japanese Journal of Ophthalmology 2004; 48: 340-4 (IGR: 6-2)

10877 Association between Nocturnal Blood Pressure Reduction and Progression of Visual Field Defect in Patients with Primary Open-Angle Glaucoma or Normal-Tension Glaucoma
Tokunaga T; Kashiwagi K; Tsumura T; Taguchi K; Tsukahara S
Japanese Journal of Ophthalmology 2004; 48: 380-5 (IGR: 6-2)

10930 Ocular hemodynamics in normal tension glaucoma: effect of bimatoprost
Zeitz O; Matthiessen ET; Wiermann A; Reuss J; Richard G; Klemm M
Klinische Monatsblätter für Augenheilkunde 2004; 221: 550-4 (IGR: 6-2)

10292 Normal tension glaucoma is not associated with the common apolipoprotein E gene polymorphisms
Lake S; Liverani E; Desai M; Casson R; James B; Clark A; Salmon JF
British Journal of Ophthalmology 2004; 88: 491-493 (IGR: 6-1)

10296 Mutations in the optineurin gene in Japanese patients with primary open-angle glaucoma and normal tension glaucoma
Toda Y; Tang S; Kashiwagi K; Mabuchi F; Iijima H; Tsukahara S; Yamagata Z
American Journal of Medical Genetics 2004; 125: 1-4 (IGR: 6-1)

10418 Four cases of normal-tension glaucoma with disc hemorrhage combined with branch retinal vein occlusion in the contralateral eye
Kim SJ; Park KH
American Journal of Ophthalmology 2004; 137: 357-359 (IGR: 6-1)

10415 MR images of optic nerve compression by the intracranial carotid artery; including the patients with normal tension glaucoma
Kurokawa H; Kin K; Shimizu K; Akai M; Ikeda K; Sawada S; Arichi M; Ogata N; Matsumura M
Japanese Journal of Clinical Radiology 2003; 48: 1655-1662 (IGR: 6-1)

10417 Normal-pressure glaucoma: a hypothesis of pathogenesis
Nesterov AP; Aliab'eva ZI; Lavrent'ev AV
Vestnik Oftalmologii 2003; 119: 3-6 (IGR: 6-1)

10504 Interventions for normal tension glaucoma
Sycha T; Vass C; Findl O; Bauer P; Groke I; Schmetterer L; Eichler H
Cochrane Database of Systematic Reviews 2003; 4: CD002222 (IGR: 6-1)

9702 A comparison of visual field and optic disc appearance depending on the peak intraocular pressure in patients with normal-tension glaucoma
Ishikawa K; Tanino T; Ohtake Y; Kimura I; Miyata H; Mashima Y
Nippon Ganka Gakkai Zasshi 2003; 107: 433-439 (IGR: 5-3)

9831 Factors that predict the benefit of lowering intraocular pressure in normal tension glaucoma
Anderson DR; Drance SM; Schulzer M; Collaborative Normal-Tension Glaucoma Study Group
American Journal of Ophthalmology 2003; 136: 820-829 (IGR: 5-3)

9833 Diurnal variation of intraocular pressure in normal-tension glaucoma
Kano K; Kuwayama Y
Nippon Ganka Gakkai Zasshi 2003; 107: 375-379 (IGR: 5-3)

9080 Comparison of localised nerve fibre layer defects in normal tension glaucoma and primary open angle glaucoma
Woo SJ; Park KH; Kim DM
British Journal of Ophthalmology 2003; 87: 695-698 (IGR: 5-2)

9105 A comparison of optic disc topographic parameters in patients with primary open angle glaucoma, normal tension glaucoma, and ocular hypertension
Kiriyama N; Ando A; Fukui C; Nambu H; Nishikawa M; Terauchi H; Kuwahara A; Matsumura M
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 541-545 (IGR: 5-2)

9169 Colour Doppler imaging and fluorescein filling defects of the optic disc in normal tension glaucoma
Plange N; Remky A; Arend O
British Journal of Ophthalmology 2003; 87: 731-736 (IGR: 5-2)

9181 Relationship between optic nerve head microcirculation and visual field loss in glaucoma
Yaoeda K; Shirakashi M; Fukushima A; Funaki S; Funaki H; Abe H; Tanabe N
Acta Ophthalmologica Scandinavica 2003; 81: 253-259 (IGR: 5-2)

9237 Effect of hospitalization on intraocular pressure in patients with normal-tension glaucoma
Kashiwagi K; Kohno K; Tsukahara S
Ophthalmologica 2003; 217: 284-287 (IGR: 5-2)

9236 Therapy of normal tension glaucoma: effect of brinzolamide on ocular haemodynamics
Klemm M; Zeitz O; Reuss J; Matthiessen ET; Richard G
Klinische Monatsblätter für Augenheilkunde 2003; 330-333 (IGR: 5-2)

8373 The phenotype of normal tension glaucoma patients with and without OPA1 polymorphisms
Aung T; Okada K; Poinoosawmy D; Membrey L; Brice G; Child AH; Bhattacharya SS; Lehmann OJ; Garway-Heath DF; Hitchings RA
British Journal of Ophthalmology 2003; 87: 149-152 (IGR: 5-1)

8771 The negative correlation between age and intraocular pressures measured nyctohemerally in elderly normal-tension glaucoma patients
Okada K; Tsumamoto Y; Yamasaki M; Takamatsu M; Mishima HK
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 19-23 (IGR: 5-1)

8791 Autonomic system activity and 24-hour blood pressure variations in subjects with normal- and high-tension glaucoma
Riccadonna M; Covi G; Pancera P; Presciuttini B; Babighian S; Perfetti S; Bonomi L; Lechi A
Journal of Glaucoma 2003; 12: 156-163 (IGR: 5-1)

8711 Characteristics of visual field progression in patients with normal-tension glaucoma with optic disc hemorrhages
Kono Y; Sugiyama K; Ishida K; Yamamoto T; Kitazawa Y
American Journal of Ophthalmology 2003; 135: 499-503 (IGR: 5-1)

8745 Optic disc excavation in the atrophic stage of Leber's hereditary optic neuropathy: comparison with normal tension glaucoma
Mashima Y; Kimura I; Yamamoto Y; Ohde H; Ohtake Y; Tanino T; Tomita G; Oguchi Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 75-80 (IGR: 5-1)

8649 Clinical aspects of normal pressure glaucoma
Grigor'eva EG
Vestnik Oftalmologii 2003; 119: 7-10 (IGR: 5-1)

8216 The apolipoprotein epsilon4 gene is associated with elevated risk of normal tension glaucoma
Vickers JC; Craig JE; Stankovich J; McCormack GH; West AK; Dickinson JL; McCartney PJ; Coote MA; Healey DL; Mackey DA
Molecular Vision 2002; 8: 389-393 (IGR: 4-3)

8275 A comparison of glaucoma patients identified through mass screening and in routine clinical practice
Grodum K; Heijl A; Bengtsson B
Acta Ophthalmologica Scandinavica 2002; 80: 627-631 (IGR: 4-3)

8355 Is normal tension glaucoma actually an unrecognized hereditary optic neuropathy? New evidence from genetic analysis
Buono LM; Foroozan R; Sergott RC; Savino PJ
Current Eye Research 2002; 13: 362-370 (IGR: 4-3)

8123 Triplex scanning of orbital vessels in patients with normal pressure glaucoma
Grigor'eva E; Tarasova LN; Abaimov MA
Vestnik Oftalmologii 2002; 118: 6-8 (IGR: 4-3)

8122 Status of the cardiovascular system in patients with normal pressure glaucoma
Tarasova LN; Grigor'eva E; Abaimov MA; Andronova OA
Vestnik Oftalmologii 2002; 118: 32-34 (IGR: 4-3)

3696 Prevalence of glaucoma and normal intraocular pressure among adults aged 50 years or above in Shunyi county of Beijing
Zhao J; Sui R; Jia L
Chinese Journal of Ophthalmology 2002; 38: 335-339 (IGR: 4-2)

3417 Pattern of retinal nerve fiber layer damage in Korean eyes with normal-tension glaucoma and hemifield visual field defect
Kook MS; Lee SU; Sung KR; Tchah H; Kim ST; Kim KR; Kang W
Graefe's Archive for Clinical and Experimental Ophthalmology 2002; 240: 448-456 (IGR: 4-2)

3526 Impaired cardiovascular responses to baroreflex stimulation in open-angle and normal-pressure glaucoma
Brown CM; Dutsch M; Michelson G; Neundorfer B; Hilz MJ
Clinical Science 2002; 102: 623-630 (IGR: 4-2)

3527 Neuroradiologic screening in normal-pressure glaucoma: study results and literature review
Ahmed IIK; Feldman F; Kucharczyk W; Trope GE
Journal of Glaucoma 2002; 11: 279-286 (IGR: 4-2)

3528 Normal-tension glaucoma is associated with sleep apnea syndrome
Mojon DS; Hess CW; Goldblum D; Boehnke M; Koerner F; Gugger M; Bassetti C; Mathis J
Ophthalmologica 2002; 216: 180-184 (IGR: 4-2)

6727 Long-term follow-up of visual field progression after trabeculectomy in progressive normal-tension glaucoma
Shigeeda T; Tomidokoro A; Araie M; Koseki N; Yamamoto S
Ophthalmology 2002; 109: 766-770 (IGR: 4-1)

6703 Color Doppler imaging of retrobulbar hemodynamics after topical carteolol in normal tension glaucoma
Chen MJ; Chou JC; Chiou HJ; Hsu WM
Zhonghua Yi Xue Za Zhi 2001; 64: 575-580 (IGR: 4-1)

6764 Systemic vascular endothelial cell dysfunction in normal pressure glaucoma
Buckley C; Hadoke PWF; Henry E; O'Brien C
British Journal of Ophthalmology 2002; 86: 227-232 (IGR: 4-1)

6765 Characteristics of morphological and functional state of erythrocytes in patients with primary open-angle glaucoma with normalized intraocular pressure
Egorov V; Bachaldin IL; Sorokin EL
Vestnik Oftalmologii 2001; 117: 5-8 (IGR: 4-1)

18428 Preliminary clinical study on the management of angle-closure glaucoma by phacoemulsification with foldable posterior chamber intraocular lens implantation
Ge J; Guo Y; Liu Yet al.
Chinese Journal of Ophthalmology 2001; 37: 355-358 (IGR: 3-3)

18427 Epidemiology of acute primary angle-closure glaucoma in the Hong Kong Chinese population: prospective study
Lai JSM; Liu DT; Tham CCY; Li RT; Lam DSC
Honk Kong Medical Journal 2001; 7: 118-123 (IGR: 3-3)

18426 Ocular biometry in the subtypes of primary angle closure glaucoma in University Malaya Medical Centre
Mimiwati Z; Fathilah J
Medical Journal of Malaysia 2001; 56: 341-349 (IGR: 3-3)

6317 Central corneal thickness measurements in patients with normal tension glaucoma, primary open angle glaucoma, pseudoexfoliation glaucoma, or ocular hypertension
Sobottka Ventura AC; Böhnke M; Mojon DS
British Journal of Ophthalmology 2001; 85: 792-795 (IGR: 3-2)

6408 Papillary hemodynamics in patients with normal pressure glaucoma and hemorrhage of the optic papilla circumference
Pillunat LE; Boehm AG; Bernd AS; Köller AU; Müller MF
Ophthalmologe 2001; 98: 446-450 (IGR: 3-2)

6421 Systemic circulatory parameters: comparison between patients with normal tension glaucoma and normal subjects using ambulatory monitoring
Kashiwagi K; Hosaka O; Kashiwagi F; Taguchi K; Mochizuki J; Ishii H; Ijiri H; Tamura K; Tsukahara S
Japanese Journal of Ophthalmology 2001; 45: 388-396 (IGR: 3-2)

6422 Risk factors for glaucoma progression: where does intraocular pressure fit in? (editorial)
Palmberg P
Archives of Ophthalmology 2001; 119: 897 (IGR: 3-2)

6423 Clinical factors associated with progression of glaucomatous optic disc damage in treated patients
Tezel G; Siegmund KD; Trinkaus K; Wax MB; Kass MA; Kolker AE
Archives of Ophthalmology 2001; 119: 813-818 (IGR: 3-2)

6424 Normal tension glaucoma: a review of clinical aspects of diagnosis and management
Devlin HC; O'Brien C
CME Journal Ophthalmology 2001; 5: 13-17 (IGR: 3-2)

6425 Risk factors for progression of visual field abnormalities in normal-tension glaucoma
Drance S; Anderson DR; Schulzer M
American Journal of Ophthalmology 2001; 131: 699-708 (IGR: 3-2)

6426 Sleep disorders: a risk factor for normal-tension glaucoma?
Marcus DM; Costarides AP; Gokhale P; Papastergiou G; Miller JJ; Johnson MH; Chaudhary BA
Journal of Glaucoma 2001; 10: 177-183 (IGR: 3-2)

6427 Two cases of empty sella syndrome masquerading as normal-tension glaucoma
Nakagawa R; Kikuchi H; Kodama Y; Shoji N; Yoshitomi T
Japanese Journal of Clinical Ophthalmology 2001; 55: 1453-1456 (IGR: 3-2)

19046 Natural history of normal-tension glaucoma
Anderson DR; Drance SM; Schulzer M
Ophthalmology 2001; 108: 247-253 (IGR: 3-1)

19047 The 'not quite' natural history of normal-tension glaucoma
Caprioli J; Maguire M
Ophthalmology 2001; 108: 245-246 (IGR: 3-1)

19048 Normal tension glaucoma, sleep apnea syndrome and nasal continuous positive airway pressure therapy: case report and literature review
Kremmer S; Selbach JM; Ayertey HD; Steuhl KP
Klinische Monatsblätter für Augenheilkunde 2001; 218: 262-268 (IGR: 3-1)

15688 Central corneal thickness of normal tension glaucoma patients in Japan
Wu LL; Suzuki Y; Ideta R; Araie M
Japanese Journal of Ophthalmology 2000; 44: 643-647 (IGR: 2-3)

15701 Longitudinal nerve fibre layer thickness change in normal-pressure glaucoma
Poinoosawmy DP; Tan JHC; Bunce C; Membrey W; Hitchings RA
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 965-969 (IGR: 2-3)

15707 Glaucomatous optic disc changes in the contralateral eye of unilateral normal pressure glaucoma patients
Wollstein G; Garway-Heath DF; Poinoosawmy DP; Hitchings RA
Ophthalmology 2000; 107: 2267-2271 (IGR: 2-3)

15730 Altitudinal visual field asymmetry is coupled with altered retinal circulation in patients with normal pressure glaucoma
Arend O; Remky A; Cantor LB; Harris A
British Journal of Ophthalmology 2000; 84: 1008-1012 (IGR: 2-3)

15874 Retrobulbar hemodynamics in normal-tension glaucoma with asymmetric visual field change and asymmetric ocular perfusion pressure
Kondo Y; Niwa Y; Yamamoto T; Sawada A; Harris A; Kitazawa Y
American Journal of Ophthalmology 2000; 130: 454-460 (IGR: 2-3)

15686 The multifocal ERG in open angle glaucoma: a comparison of high and low contrast recordings in high- and low-tension open-angle glaucoma
Palmowski AM; Allgayer R; Heinemann-Vemaleken B
Documenta Ophthalmologica 2000; 101: 35-49 (IGR: 2-3)

15687 Normal-tension glaucoma with reversed ophthalmic artery flow
Hashimoto M; Ohtsuka K; Ohtsuka H; Nakagawa T
American Journal of Ophthalmology 2000; 130: 670-672 (IGR: 2-3)

15685 Serum methanol levels in subjects with or without optic nerve head disease
Hayasaka Y; Hayasaka S; Hiraki S; Kadoi C; Nagaki Y; Matsumoto M
Ophthalmic Research 2000; 32: 299-304 (IGR: 2-3)

15870 Comparison of visual field progression in patients with normal pressure glaucoma between eyes with and without visual field loss that threatens fixation
Membrey W; Poinoosawmy DP; Bunce C; Fitzke FW; Hitchings RA
British Journal of Ophthalmology 2000; 84: 1154-1158 (IGR: 2-3)

15963 Study on the progression of visual field defect and clinical factors in normal-tension glaucoma
Tanaka C; Yamazaki Y; Yokoyama H
Nippon Ganka Gakkai Zasshi 2000; 104: 590-595 (IGR: 2-3)

15951 Normal-tension glaucoma
Tanna AP; Jampel HD
Ophthalmology Clinics of North America 2000; 13: 455-464 (IGR: 2-3)

6107 Disc hemorrhages and glaucoma management
Piltz-Seymour J; Nicolela M; Jonas JB
Journal of Glaucoma 2000; 9: 273-277 (IGR: 2-2)

6109 Nocturnal intraocular pressures in patients with normal-tension glaucoma and sleep apnea syndrome
Goldblum D; Mathis J; Bohnke M; Bassetti C; Hess CW; Gugger M; Mojon DS
Klinische Monatsblätter für Augenheilkunde 2000; 216: 246-249 (IGR: 2-2)

6110 Circadian rhythm of autonomic nervous function in patients with normal-tension glaucoma compared with normal subjects using ambulatory electrocardiography
Kashiwagi K; Tsumura T; Ishii H; Ijiri H; Tamura K; Tsukahara S
Journal of Glaucoma 2000; 9: 239-246 (IGR: 2-2)

6111 Glaucoma surgery with or without adjunctive antiproliferatives in normal tension glaucoma: 1. Intraocular pressure control and complications
Membrey WL; Poinoosawmy DP; Bunce C; Hitchings RA
British Journal of Ophthalmology 2000; 84: 586-590 (IGR: 2-2)

6112 Spontaneous intraocular pressure reduction in normal-tension glaucoma and associated clinical factors
Oguri A; Yamamoto T; Kitazawa Y
Japanese Journal of Ophthalmology 2000; 44: 263-267 (IGR: 2-2)

6113 Effects of long-term methylcobalamin treatment on the progression of visual field defects in normal-tension glaucoma
Yamazaki Y; Hayamizu F; Tanaka C
Current Therapeutic Research - Clinical and Experimental 2000; 61: 443-451 (IGR: 2-2)

6114 Comparison between normal tension glaucoma and primary open angle glaucoma
Zheng Y
Chinese Ophthalmic Research 2000; 18: 185-188 (IGR: 2-2)

5671 Fluorescein angiographic features of normal-tension glaucoma with asymmetrical visual field defect
Hayashi K; Nakamura H; Maeda T; Inoue Y
Japanese Journal of Clinical Ophthalmology 1999; 53:1889-1893 (IGR: 2-1)

5677 A comparative study of betaxolol and dorzolamide effect on ocular circulation in normal-tension glaucoma patients
Harris A; Arend O; Hak Sung Chung; Kagemann L; Cantor L; Martin B
Ophthalmology 2000; 107: 430-434 (IGR: 2-1)

5687 Evaluation of the circulation in the retina, peripapillary choroid and optic disk in normal-tension glaucoma
Sugiyama T; Schwartz B; Takamoto T; Azuma I
Ophthalmic Research 2000; 32: 79-86 (IGR: 2-1)

5710 Migraine and tension headache in high-pressure and normal-pressure glaucoma
Cursiefen C; Wisse M; Cursiefen S; Juenemann A; Martus P; Korth M
American Journal of Ophthalmology 2000; 129:102-104 (IGR: 2-1)

5713 The effect of mitomycin C trabeculectomy on the progression of visual field defect in normal-tension glaucoma
Hagiwara Y; Yamamoto T; Kitazawa Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 232-236 (IGR: 2-1)

5714 Association between watershed zone and visual field defect in normal tension glaucoma
Sato Y; Tomita G; Onda E; Goto Y; Oguri A; Kitazawa Y
Japanese Journal of Ophthalmology 2000; 44:39-45 (IGR: 2-1)

15344 Central corneal thickness in low-tension glaucoma
Emara BY; Tingey DP; Probst LE; Motolko MA
Canadian Journal of Ophthalmology 1999; 34: 19-24 (IGR: 1-3)

15362 Comparative study of retinal nerve fiber layer damage in Japanese patients with normal- and high-tension glaucoma
Kubota T; Khalik A; Honda M; Ito S; Nishioka Y; Inomata H
Journal of Glaucoma 1999; 8: 363-366 (IGR: 1-3)

15452 Clinical factors influencing the visual prognosis of the fellow eyes of normal tension glaucoma patients with unilateral field loss
Fontana L; Armas R; Garway-Heath DF; Bunce CV; Poinoosawmy D; Hitchings RA
British Journal of Ophthalmology 1999; 83: 1002-1005 (IGR: 1-3)

15453 Long-term course of normal-tension glaucoma evaluated by Humphrey perimetry
Matsumoto Y; Hara H; Shirakashi M; Fukuchi T; Abe H; Iwata K; Sawaguchi S
Japanese Journal of Clinical Ophthalmology 1999; 53: 1679-1685 (IGR: 1-3)

15454 Normal-tension glaucoma and central corneal thickness
Peplinski L; Torkelson K
Optometry and Vision Science 1999; 76: 596-598 (IGR: 1-3)

15455 Collaborative normal-tension glaucoma study (letters)
Sommer A; Drance SM; Anderson DR; Schultzer M
American Journal of Ophthalmology 1999; 128: 776-777 (IGR: 1-3)

15456 The well tempered crystal ball in normal tension glaucoma
Vernon SA
British Journal of Ophthalmology 1999; 83: 999-1000 (IGR: 1-3)

5177 Epitope mapping of anti-rhodopsin antibodies from patients with normal pressure glaucoma.
Romano C; Li Z; Arendt A; Hargrave PA; Wax MB
Investigative Ophthalmology and Visual Science 1999; 40: 1275-1280 (IGR: 1-2)

5204 Asymmetry in intraocular pressure and retinal nerve fiber layer thickness in normal-tension glaucoma
Gugleta K; Orgül S; Flammer J
Ophthalmologica 1999; 213: 219-223 (IGR: 1-2)

5218 Optic cup deepening spatially correlated with optic nerve damage in focal normal-pressure glaucoma
Jonas JB; Budde WM
Journal of Glaucoma 1999; 8: 227-231 (IGR: 1-2)

5272 Retinal hemodynamics in patients with normal pressure glaucoma. Quantification with digital laser scanning fluorescein angiography
Arend O; Remky A; Redbrake C; Arend S; Wenzel M; Harris A
Ophthalmologe 1999; 96: 24-29 (IGR: 1-2)

5326 Comparison of glaucomatous progression between untreated patients with normal-tension glaucoma and patients with therapeutically reduced intraocular pressures: the effectiveness of intraocular pressure reduction in the treatment of normal-tension glaucoma
Danias J; Podos SM; Anderson DR; Drance SM; Schulzer M; Leske MC; Hyman L; Hussein M; Heijl A; Bengtsson B
American Journal of Ophthalmology 1999; 127: 623-625 (IGR: 1-2)

5327 Effects of methotrexate treatment on serum immunoreactivity of a patient with normal-pressure glaucoma.
Fellman RL; Tezel G; Wax MB
American Journal of Ophthalmology 1999; 127: 724-725 (IGR: 1-2)

5328 Dorzolamide, visual function and ocular hemodynamics in normal-tension glaucoma
Harris A; Arend O; Kagemann L; Garrett M; Hak Sung Chung; Martin B
Journal of Ocular Pharmacology and Therapeutics 1999; 15: 189-197 (IGR: 1-2)

5329 Peripheral endothelial dysfunction in normal pressure glaucoma.
Henry E; Newby DE; Webb DJ; O'Brien C
Investigative Ophthalmology and Visual Science 1999; 40: 1710-1714 (IGR: 1-2)

5330 Optic nerve head morphologic characteristics in high-tension and normal-tension glaucoma
Iester M; Mikelberg FS
Archives of Ophthalmology 1999; 117: 1010-1013 (IGR: 1-2)

5331 Unilateral glaucomatous damage in a patient with hemifacial spasm
Killer HE; Rüst O; Müller O; Flammer J
Ophthalmologica 1999; 213: 273-275 (IGR: 1-2)

5333 Activated protein C resistance, homocysteinemia and normal tension glaucoma
Steinemann TL; Whiteside-Michel J; Fink LM
Annals of Ophthalmology - Glaucoma 1999; 31: 122-124 (IGR: 1-2)

5334 Effects of nilvadipine, a calcium antagonist, on rabbit ocular circulation and optic nerve head circulation in NTG subjects.
Tomita K; Araie M; Tamaki Y; Nagahara M; Sugiyama T
Investigative Ophthalmology and Visual Science 1999; 40: 1144-1151 (IGR: 1-2)

5335 The effects of fludrocortisone on retrobulbar hemodynamic parameters in normal pressure glaucoma patients with low blood pressure
Wax MB; Tezel G; Nesher R; Middleton WD
Annals of Ophthalmology - Glaucoma 1999; 31: 161-164 (IGR: 1-2)

5336 Effect of systemic nilvadipine on preventing progression of visual field defect in normal-tension glaucoma
Yamazaki Y; Hayamizu F; Tanaka C
Japanese Journal of Clinical Ophthalmology 1999; 53: 729-733 (IGR: 1-2)

6.1.2 Fluctuation, circadian rhythms (914 abstracts found)

94619 Comparison of intraocular pressure variability detected by day diurnal variation to that evoked by water drinking
Kadambi SV
Indian Journal of Ophthalmology 2021; 69: 1414-1417 (IGR: 22-2)

94469 Short- and long-term agreement and reproducibility of 48-hours intraocular pressure measurements in glaucoma patients
Zimmermann M; Giers BC
BMC Ophthalmology 2021; 21: 262 (IGR: 22-2)

94619 Comparison of intraocular pressure variability detected by day diurnal variation to that evoked by water drinking
Balekudaru S; Lingam V
Indian Journal of Ophthalmology 2021; 69: 1414-1417 (IGR: 22-2)

94469 Short- and long-term agreement and reproducibility of 48-hours intraocular pressure measurements in glaucoma patients
Beck A
BMC Ophthalmology 2021; 21: 262 (IGR: 22-2)

94619 Comparison of intraocular pressure variability detected by day diurnal variation to that evoked by water drinking
George R
Indian Journal of Ophthalmology 2021; 69: 1414-1417 (IGR: 22-2)

94469 Short- and long-term agreement and reproducibility of 48-hours intraocular pressure measurements in glaucoma patients
Bell K; Zimmermann H; Hechtner M; Hoffmann EM; Pfeiffer N; Lorenz K
BMC Ophthalmology 2021; 21: 262 (IGR: 22-2)

92421 The effect of daily life activities on intraocular pressure related variations in open-angle glaucoma
Gillmann K
Scientific reports 2021; 11: 6598 (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Goldberg JL
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Fang Z
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Yang Z
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Zhai RY
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Zhang X
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Martínez-Águila A
Biomolecules 2021; 11: (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Lee J
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Tan BH
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Jiminez-Roman J
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Xiao H
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Wang X
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Martín-Gil A
Biomolecules 2021; 11: (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Ahn EJ
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Young A
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92421 The effect of daily life activities on intraocular pressure related variations in open-angle glaucoma
Weinreb RN
Scientific reports 2021; 11: 6598 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Kong XM
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Mansouri K
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Liu C
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Han SY
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Kim YW
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92421 The effect of daily life activities on intraocular pressure related variations in open-angle glaucoma
Mansouri K
Scientific reports 2021; 11: 6598 (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Hernandez-Oteyza A
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Moghimi S
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Qiu S
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Carpena-Torres C
Biomolecules 2021; 11: (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Bianchi E; Brown L
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Weinreb RN
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Pastrana C
Biomolecules 2021; 11: (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Xiao M
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Sun X
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Quiroz-Mercado H
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Zhao L
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Ha A
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Carracedo G
Biomolecules 2021; 11: (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Tatham AJ
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Wang J
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Kim YK
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Sun XH
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Chen Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Li H
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Xiao M
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Jeoung JW; Park KH
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Wang R; Zhu Y; Chen C; Wu X; Lin D; Liu X; Qiu W; Yu-Wai-Man P; Ting DS; Lin H
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Terauchi R
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Yang Y
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Neroev V
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Chen X
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Qin J
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Faseeh AE
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Dubey S
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Malishevskaya T
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Allam RS
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Ng TK
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Ogawa S
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Wang X
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Kim JS
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Wu X
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Mittal D
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Wang L
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Mukherjee S
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Li M
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Shalash AB
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Weinert D
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Lee SY
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Noro T
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Lin X
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Abd Elmohsen MN
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Wu N
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Wang J
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Astakhov S
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Bhoot M
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Ito K
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Ha A
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Ren Z
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Xu W
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Lee J
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Gupta YP
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Kato T
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Kolomeichuk S
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Xiao M
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Park YJ
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Sun X
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Tatemichi M
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Cornelissen G
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Nakano T
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Kim YK
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Chen Y
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Kabitskaya Y; Boiko E
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91124 Twenty-four-Hour Intraocular Pressure-Related Patterns from Contact Lens Sensors in Normal-Tension Glaucoma and Healthy Eyes: The Exploring Nyctohemeral Intraocular pressure related pattern for Glaucoma Management (ENIGMA) Study
Jeoung JW; Park KH
Ophthalmology 2020; 127: 1487-1497 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Nemtsova I; Gubin D
International journal of molecular sciences 2020; 22: (IGR: 21-4)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Kuze M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Waibel S
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Cronemberger S
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90511 Weekly and seasonal changes of intraocular pressure measured with an implanted intraocular telemetry sensor
Mansouri K
British Journal of Ophthalmology 2021; 105: 387-391 (IGR: 21-3)

90231 Intereye Symmetry of 24-Hour Intraocular Pressure-related Patterns in Untreated Glaucoma Patients Using a Contact Lens Sensor
Mansouri K
Journal of Glaucoma 2020; 29: 666-670 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma
Mansouri K
Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Herber R
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Ayaki M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90231 Intereye Symmetry of 24-Hour Intraocular Pressure-related Patterns in Untreated Glaucoma Patients Using a Contact Lens Sensor
Gillmann K
Journal of Glaucoma 2020; 29: 666-670 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma
Rao HL
Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90511 Weekly and seasonal changes of intraocular pressure measured with an implanted intraocular telemetry sensor
Gillmann K
British Journal of Ophthalmology 2021; 105: 387-391 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Veloso AW; Veiga C
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma
Weinreb RN
Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90511 Weekly and seasonal changes of intraocular pressure measured with an implanted intraocular telemetry sensor
Rao HL
British Journal of Ophthalmology 2021; 105: 387-391 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Pillunat LE
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Yuki K
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Scarpelli G
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma

Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Kawashima M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Pillunat KR
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90511 Weekly and seasonal changes of intraocular pressure measured with an implanted intraocular telemetry sensor
Weinreb RN;
British Journal of Ophthalmology 2021; 105: 387-391 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Sasso YC
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Uchino M; Tsubota K
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Merola RV
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Negishi K
Scientific reports 2020; 10: 13949 (IGR: 21-3)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Xu J
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Otsuka M
International Ophthalmology 2020; 40: 1963-1968 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Wasilewicz R
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Ayaki M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86838 Evaluation and treatment of glaucoma 24hours a day. Where are we and where are we going?
Perucho-González L
Archivos de la Sociedad Española de Oftalmologia 2020; 95: 345-352 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Carnero E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Hui PC
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Yang D
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Maeng B
Lab on a chip 2020; 20: 1740-1750 (IGR: 21-2)

86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Olatunji OP
Journal of Glaucoma 2020; 29: 498-503 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Jasien JV
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86812 Device profile of the EYEMATE-IO™ system for intraocular pressure monitoring: overview of its safety and efficacy
Enders P
Expert Review of Medical Devices 2020; 17: 491-497 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Carnero E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Hopf S
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
McGarva E
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Ikegami K
Investigative Ophthalmology and Visual Science 2020; 61: 26 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Shioya S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Bragard J
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Shtyrkova K
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Schwantuschke D
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Higashide T
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Farr J
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Shigeyoshi Y
Investigative Ophthalmology and Visual Science 2020; 61: 26 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Varidel T
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86838 Evaluation and treatment of glaucoma 24hours a day. Where are we and where are we going?
García-Feijoó J
Archivos de la Sociedad Española de Oftalmologia 2020; 95: 345-352 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Liu JHK
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Chang HK
Lab on a chip 2020; 20: 1740-1750 (IGR: 21-2)

86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Hayashi A
International Ophthalmology 2020; 40: 1963-1968 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Samuels BC
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Cui T
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86812 Device profile of the EYEMATE-IO™ system for intraocular pressure monitoring: overview of its safety and efficacy
Cursiefen C
Expert Review of Medical Devices 2020; 17: 491-497 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Negishi K
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Olawoye O
Journal of Glaucoma 2020; 29: 498-503 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Johnston JM
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Tsuchiya S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Urrestarazu E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Pfeiffer N
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Dabasia P
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Tojo N
International Ophthalmology 2020; 40: 1963-1968 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Simon-Zoula S
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Yuki K
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Masubuchi S
Investigative Ophthalmology and Visual Science 2020; 61: 26 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Zhou C
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Ajayi B
Journal of Glaucoma 2020; 29: 498-503 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Hirtz T
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Wang N
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Park J
Lab on a chip 2020; 20: 1740-1750 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Downs JC
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Kawashima M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Qiao Y
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Schlund M
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Weinreb RN
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Koenig J
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Rivas E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Lawrenson JG
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Simon-Zoula S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Chen X
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Bell K
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Murdoch IE
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Li X
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Chodosh J
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Varidel T
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Uchino M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Cerboni S
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Varidel T
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Polo V
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Zhong F
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Cerboni S; Cerboni S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Larrosa JM
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Dohlman CH
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Hoffmann EM
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Mansouri K
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Tsubota K
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Han X
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Mansouri K
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Antón V
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Paschalis EI
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Sugiyama K
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Yang Y
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Peláez A; Moreno-Montañés J
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Zhang S; Ren TL
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Ciulla L
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Sheybani A
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Moorthy M
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Scott R; Samuelson TW
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Mathew S
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Kahook MY
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Siesky B; Verticchio Vercellin AC
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Bettis DI; Ahmed IIK
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Price D
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Stephens JD
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Januleviciene I; Harris A
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84555 Open-Angle Glaucoma: Burden of Illness, Current Therapies, and the Management of Nocturnal IOP Variation
Kent D; Ferguson TJ; Herndon LW
Ophthalmology and therapy 2020; 9: 1-14 (IGR: 21-1)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Lazkani N
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Ostrin LA
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Cheung CY
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Bhartiya S
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82684 Role of 24-Hour Intraocular Pressure Monitoring in Glaucoma Management
Ho CH
Journal of Ophthalmology 2019; 2019: 3632197 (IGR: 20-4)

82469 Diurnal variation of central corneal thickness and intraocular pressure in eyes with pseudoexfoliation
Syed Z
Indian Journal of Ophthalmology 2019; 67: 1607-1609 (IGR: 20-4)

82714 Correlation between 24-h continuous intraocular pressure measurement with a contact lens sensor and visual field progression
Tojo N
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 175-182 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Bhartiya S
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Mansouri K
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

81896 Influence of Ocular Dimensional Change on 24-Hour Intraocular Pressure Measurement With Contact Lens Sensor
Tojo N
Journal of Glaucoma 2019; 28: 808-810 (IGR: 20-4)

82469 Diurnal variation of central corneal thickness and intraocular pressure in eyes with pseudoexfoliation
Srikanth K
Indian Journal of Ophthalmology 2019; 67: 1607-1609 (IGR: 20-4)

82714 Correlation between 24-h continuous intraocular pressure measurement with a contact lens sensor and visual field progression
Hayashi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 175-182 (IGR: 20-4)

81896 Influence of Ocular Dimensional Change on 24-Hour Intraocular Pressure Measurement With Contact Lens Sensor
Hayashi A
Journal of Glaucoma 2019; 28: 808-810 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Butler J
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Wadhwani M
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Tanna AP
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Jnawali A
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Li SL
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Gangwani M
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82684 Role of 24-Hour Intraocular Pressure Monitoring in Glaucoma Management
Wong JKW
Journal of Ophthalmology 2019; 2019: 3632197 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Rai O
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
De Moraes CG
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Rickard MJA
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Chan PP
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Kalra RB
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82714 Correlation between 24-h continuous intraocular pressure measurement with a contact lens sensor and visual field progression
Otsuka M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 175-182 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Carkeet A
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Rai O
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82469 Diurnal variation of central corneal thickness and intraocular pressure in eyes with pseudoexfoliation
Nagarajan S
Indian Journal of Ophthalmology 2019; 67: 1607-1609 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Truitt S
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Camp AS
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Patuel M
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Patel NB
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Chan NCY
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Aggarwal A; Gagrani M
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Weinreb RN
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Dorairaj S
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Kawaguchi NK
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Tan S
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Sirish KN
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Man X
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Sirish KN
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
DeWolf AJ
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Sirish KN
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Sirish KN
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Tham CC
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Van Zant CA; Villegas JP; Hassel AR; Park JJ; Jones CF
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Karadag R
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Jasien JV
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Navarrete Argüello J
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Tu S
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

80759 Chronotyping glaucoma patients with the Munich ChronoType Questionnaire: A case-control study
Bierings RAJM
PLoS ONE 2019; 14: e0214046 (IGR: 20-3)

80490 Fluctuations of the Intraocular Pressure in Medically Versus Surgically Treated Glaucoma Patients by a Contact Lens Sensor
Muniesa MJ; Ezpeleta J
American Journal of Ophthalmology 2019; 203: 1-11 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Bello López Portillo H
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

80759 Chronotyping glaucoma patients with the Munich ChronoType Questionnaire: A case-control study
Gordijn MCM
PLoS ONE 2019; 14: e0214046 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Koyun E
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Li K
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Turner DC
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Cantero Vergara MA
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Hu D
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Ozsoy I
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Girkin CA
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

80490 Fluctuations of the Intraocular Pressure in Medically Versus Surgically Treated Glaucoma Patients by a Contact Lens Sensor
Benítez I
American Journal of Ophthalmology 2019; 203: 1-11 (IGR: 20-3)

80759 Chronotyping glaucoma patients with the Munich ChronoType Questionnaire: A case-control study
Jansonius NM
PLoS ONE 2019; 14: e0214046 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Sierra Acevedo GA
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Caliskan M
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Downs JC
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Ruíz Salgado K
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Ge J
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Nieto Aguilar MV; Aguilar Pérez MA; Ramos Hernández SY; Zaragoza Herrera A; de la Torre Tovar JD
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Weinreb RN
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Cutolo CA
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Matlach J; Bender S
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Bacharach J
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
De Moraes CG
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
König J
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Liebmann JM
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Fechtner RD
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Mansouri K
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Binder H
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Kahook MY
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Traverso CE
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Wirta D
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Pfeiffer N
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Burmaster S
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Ritch R
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Hoffmann EM
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens

Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Meng X; Hubatsch DA
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Seibold LK
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Konstas AG
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Konstas AG
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Bennett A
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Yaoeda K
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Katsanos A
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Kahook MY
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Wagner BD
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Fukushima A
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Otsuka M; Hayashi A
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Athanasopoulos GP
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Araie M
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Lynch AM
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Agdarov S
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Shirakashi M
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Beiderman Y
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Kahook MY
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Beiderman Y
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Miki A
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Voudouragkaki IC
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Katsanos A
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Fukuchi T
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Panagiotou ES
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Ozana N
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Quaranta L
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Pagkalidou E
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Rossetti L
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Belkin M
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Haidich AB
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Zalevsky Z
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Holló G
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Giannoulis DA
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Detorakis ET
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Spathi E
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Oddone F; Mikropoulos DG
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Giannopoulos T
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Dutton GN
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Katz LJ
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Fu L
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Lin Z
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Martin KR
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Cheung CY; Li SL
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Lai JSM
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Huang S
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Mansouri K
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Chan N
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Huang P
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Weinreb RN
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Lo ACY
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Wasilewicz R
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Li C
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Wong MO
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Shih KC
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Gisler C
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Chen Z
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Chan PP
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Hennebert J
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Zhong Y
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Lai I
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Genoud D
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Baig N; Tan S
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma

American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Man X; Tang F; Wang YM; Tham CC
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

77110 Ocular coherence tomography-measured changes over time in anterior chamber angle and diurnal intraocular pressure after laser iridotomy: IMPACT study
Zhekov I
Clinical and Experimental Ophthalmology 2018; 0: (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
De Moraes CG
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

76280 Twenty-four hour intraocular pressure measurements and home tonometry
Meier-Gibbons F
Current Opinions in Ophthalmology 2018; 29: 111-115 (IGR: 19-3)

77034 Intraocular Pressure Fluctuation: Is It Important?
Kim JH
Journal of ophthalmic & vision research 2018; 13: 170-174 (IGR: 19-3)

77110 Ocular coherence tomography-measured changes over time in anterior chamber angle and diurnal intraocular pressure after laser iridotomy: IMPACT study
Pardhan S
Clinical and Experimental Ophthalmology 2018; 0: (IGR: 19-3)

76280 Twenty-four hour intraocular pressure measurements and home tonometry
Berlin MS
Current Opinions in Ophthalmology 2018; 29: 111-115 (IGR: 19-3)

77034 Intraocular Pressure Fluctuation: Is It Important?
Caprioli J
Journal of ophthalmic & vision research 2018; 13: 170-174 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
Mansouri K
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
Liebmann JM
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

76280 Twenty-four hour intraocular pressure measurements and home tonometry
Töteberg-Harms M
Current Opinions in Ophthalmology 2018; 29: 111-115 (IGR: 19-3)

77110 Ocular coherence tomography-measured changes over time in anterior chamber angle and diurnal intraocular pressure after laser iridotomy: IMPACT study
Bourne RR
Clinical and Experimental Ophthalmology 2018; 0: (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
Ritch R;
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Melgarejo JD
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75758 Variation in Intraocular Pressure and the Risk of Developing Open-Angle Glaucoma: The Los Angeles Latino Eye Study
Jiang X; Torres M
American Journal of Ophthalmology 2018; 188: 51-59 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Lee JH; Petitto M
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75758 Variation in Intraocular Pressure and the Risk of Developing Open-Angle Glaucoma: The Los Angeles Latino Eye Study
Varma R;
American Journal of Ophthalmology 2018; 188: 51-59 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Yépez JB; Murati FA; Jin Z; Chávez CA; Pirela RV; Calmón GE; Lee W; Johnson MP; Mena LJ; Al-Aswad LA; Terwilliger JD; Allikmets R; Maestre GE; De Moraes CG
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Daher F
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
de Crom RMPC
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Tojo N
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Wasielica-Poslednik J
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74607 Clinical study of water drinking test and 24-hour intraocular pressure monitoring in patients with primary open angle glaucoma
Li T; Hao Y
Pakistan journal of pharmaceutical sciences 2017; 30: 1461-1465 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Almeida I
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Webers CAB
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Schmeisser J
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Abe S; Miyakoshi M
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Hoffmann EM
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74607 Clinical study of water drinking test and 24-hour intraocular pressure monitoring in patients with primary open angle glaucoma
Zhu Y
Pakistan journal of pharmaceutical sciences 2017; 30: 1461-1465 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
van Kooten-Noordzij MAW
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Ushida M
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Michiels AC
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Hayashi A
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Weyer-Elberich V
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Soares B
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Bell K
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Dorairaj S
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Schouten JSAG
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Kanadani FN
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Lorenz K
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Berendschot TTJM
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Pfeiffer N
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Beckers HJM
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Paranhos A; Gracitelli CPB; Prata TS
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Tan S
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Chun YS
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Itoh Y
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Beltran-Agulló L
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

72642 Monitoring daily intraocular pressure fluctuations with self-tonometry in healthy subjects
Quérat L
Acta Ophthalmologica 2017; 95: 525-529 (IGR: 18-4)

73074 The Sensimed Triggerfish contact lens sensor: efficacy, safety, and patient perspectives
Dunbar GE
Clinical Ophthalmology 2017; 11: 875-882 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Buys YM
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73074 The Sensimed Triggerfish contact lens sensor: efficacy, safety, and patient perspectives
Shen BY
Clinical Ophthalmology 2017; 11: 875-882 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Nakamoto K
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Park IK
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

72642 Monitoring daily intraocular pressure fluctuations with self-tonometry in healthy subjects
Chen E
Acta Ophthalmologica 2017; 95: 525-529 (IGR: 18-4)

73074 The Sensimed Triggerfish contact lens sensor: efficacy, safety, and patient perspectives
Aref AA
Clinical Ophthalmology 2017; 11: 875-882 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Jahan F
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Shin KU
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Horiguchi H
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Shapiro CM
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Kim JM
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Ogawa S
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Flanagan JG
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Noro T; Sato M
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Cheng J
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Nakano T
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Trope GE
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Tsuneoka H; Yasuda N
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

71469 The effects of selective laser trabeculoplasty and travoprost on circadian intraocular pressure fluctuations: A randomized clinical trial
Kiddee W
Medicine 2017; 96: e6047 (IGR: 18-3)

71636 Exploration on the 24 hour intraocular pressure fluctuation in glaucoma patients
Yuan HP
Chinese Journal of Ophthalmology 2017; 53: 85-88 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Mogil RS
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
Seibold LK
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Peden R
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71469 The effects of selective laser trabeculoplasty and travoprost on circadian intraocular pressure fluctuations: A randomized clinical trial
Atthavuttisilp S
Medicine 2017; 96: e6047 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
DeWitt PE
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71636 Exploration on the 24 hour intraocular pressure fluctuation in glaucoma patients
Song WL
Chinese Journal of Ophthalmology 2017; 53: 85-88 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Lee JM; Tirsi A
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
Kroehl ME
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Megaw R
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
Kahook MY
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Tello C
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Park SC
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Tojo N
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Gao Y
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Moon Y
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Miller S
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Aptel F
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Ittoop SM
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Kim SH
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70483 The importance of and potential for continuous monitoring of intraocular pressure
McMonnies CW
Clinical and Experimental Optometry 2017; 100: 203-207 (IGR: 18-2)

70692 Temporal ocular coherence tomography-measured changes in anterior chamber angle and diurnal intraocular pressure after laser iridoplasty: IMPACT study
Bourne RR
British Journal of Ophthalmology 2017; 101: 886-891 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Poon YC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Leishman E
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Kwon J
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Abe S
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Musson C
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70692 Temporal ocular coherence tomography-measured changes in anterior chamber angle and diurnal intraocular pressure after laser iridoplasty: IMPACT study
Zhekov I
British Journal of Ophthalmology 2017; 101: 886-891 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Teng MC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Soohoo JR
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Wan B
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Lee EJ
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Jeong DW
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Li P
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Zhou T
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Seibold LK
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Lin PW
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70692 Temporal ocular coherence tomography-measured changes in anterior chamber angle and diurnal intraocular pressure after laser iridoplasty: IMPACT study
Pardhan S
British Journal of Ophthalmology 2017; 101: 886-891 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Han JC
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Oehler O
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Miyakoshi M
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Tsai JC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Daily L
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Lee JY
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Sohn SW
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Zhang Y
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Hayashi A
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Lesoin A
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Mansouri K
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Rhee T
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Tang X
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Kahook MY
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Lai IC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Lee JR
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Chiquet C
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Murataeva N
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Han S
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Wager-Miller J
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Kee C
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Bradshaw H
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Kook MS
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Straiker A
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Aptel F
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69462 The Application of a Contact Lens Sensor in Detecting 24-Hour Intraocular Pressure-Related Patterns
Xu SC
Journal of Ophthalmology 2016; 2016: 4727423 (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Lee NY
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
MarjanoviÄ‡ I
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Mariacher S
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Gao Y
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69026 Self-tonometry as a complement in the investigation of glaucoma patients
Chen E
Acta Ophthalmologica 2016; 94: 788-792 (IGR: 18-1)

69073 Factors Influencing the Placebo Effect in Patients with Primary Open-Angle Glaucoma or Ocular Hypertension: An Analysis of Two Randomized Clinical Trials
Kawamura T
PLoS ONE 2016; 11: e0156706 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Kanadani FN
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Weinreb RN
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
MarjanoviÄ‡ M
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69026 Self-tonometry as a complement in the investigation of glaucoma patients
QuÃ©rat L
Acta Ophthalmologica 2016; 94: 788-792 (IGR: 18-1)

69073 Factors Influencing the Placebo Effect in Patients with Primary Open-Angle Glaucoma or Ocular Hypertension: An Analysis of Two Randomized Clinical Trials
Sato I
PLoS ONE 2016; 11: e0156706 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Li W
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Moreira T
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69462 The Application of a Contact Lens Sensor in Detecting 24-Hour Intraocular Pressure-Related Patterns
Gauthier AC
Journal of Ophthalmology 2016; 2016: 4727423 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Ebner M
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Park HY
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Bezerra B
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Chiquet C
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Januschowski K
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Yin Z
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69026 Self-tonometry as a complement in the investigation of glaucoma patients
Ã…kerstedt C
Acta Ophthalmologica 2016; 94: 788-792 (IGR: 18-1)

69073 Factors Influencing the Placebo Effect in Patients with Primary Open-Angle Glaucoma or Ocular Hypertension: An Analysis of Two Randomized Clinical Trials
Kawakami K
PLoS ONE 2016; 11: e0156706 (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Park CK
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69462 The Application of a Contact Lens Sensor in Detecting 24-Hour Intraocular Pressure-Related Patterns
Liu J
Journal of Ophthalmology 2016; 2016: 4727423 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Riva I
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Martinez A
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Ma Y
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Hurst J
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Vianello MP
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Mansouri K
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
MarkoviÄ‡ V
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Cai H
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Oddone F
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
BoÅ¾iÄ‡ M
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Schnichels S
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Corradi J
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Szurman P
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Stojanov V
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Dorairaj SK
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Tang X
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Prata TS
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Cheng J
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Shinmei Y
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66660 Detecting IOP Fluctuations in Glaucoma Patients
Nuyen B
Open Ophthalmology Journal 2016; 10: 44-55 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Konstas AG
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Rekas M
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Quaranta L
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Danielewska ME
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Kong X
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

66660 Detecting IOP Fluctuations in Glaucoma Patients
Mansouri K
Open Ophthalmology Journal 2016; 10: 44-55 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Nitta T; Saito H
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Byszewska A
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Xiao M
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Bozkurt B
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Petz K
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Katsanos A
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Ohguchi T
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Sun X
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Kijima R
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Wierzbowska J
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Garcia-Feijoo J
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Chin S
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Rossetti L
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Wierzbowski R
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Shaarawy T
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Iskander DR
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Ishida S
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Pfeiffer N; Miglior S
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Colombo L
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Donida A
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66216 Personalizing Intraocular Pressure: Target Intraocular Pressure in the Setting of 24-Hour Intraocular Pressure Monitoring
Sit AJ
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 17-22 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Wang NL
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Liang YB
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Srinivasan S
Eye 2016; 30: 362-368 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Ansari-Mood M
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
De Moraes CG
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Fogagnolo P
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Zhou Q
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Mehdi-Rajaei S
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Jasien JV
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Choudhari NS
Eye 2016; 30: 362-368 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Di Dato G
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Hao J
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66216 Personalizing Intraocular Pressure: Target Intraocular Pressure in the Setting of 24-Hour Intraocular Pressure Monitoring
Pruet CM
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 17-22 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Sadjadi R
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Simon-Zoula S
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Montesano G
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Zhen Y
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Cunzolo P
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Baskaran M
Eye 2016; 30: 362-368 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Friedman DS
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Liebmann JM
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Sala M
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
George RJ
Eye 2016; 30: 362-368 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Liu JH
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Guo LX
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
De Cillà S
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Selk-Ghaffari M; Williams DL
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Shantha B
Eye 2016; 30: 362-368 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Piffaretti F
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Ritch R
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Orzalesi N
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Sun LP
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Li SZ
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Vijaya L
Eye 2016; 30: 362-368 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Wang H
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Zong QF
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Rossetti L
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Orsatti P
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Yang XD
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Barrettino D
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Chen H
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Wang NL
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Peng XX; Han W; Fan SJ; Weinreb RN
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Tojo N
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

60960 Twenty-four hour pattern of intraocular pressure and ocular perfusion pressure in night shift workers
Kara N
Seminars in Ophthalmology 2015; 30: 188-192 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Panagiotou ES
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Tan S
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61603 Effect of glaucoma medications on 24-h intraocular pressure-related patterns using a contact lens sensor
Mansouri K
Clinical and Experimental Ophthalmology 2015; 43: 787-795 (IGR: 17-1)

61386 Estimation of 24-Hour Intraocular Pressure Peak Timing and Variation Using a Contact Lens Sensor
Liu JH
PLoS ONE 2015; 10: e0129529 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim YW
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Pillunat KR
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61162 Efficacy of a contact lens sensor for monitoring 24-h intraocular pressure related patterns
Mansouri K
PLoS ONE 2015; 10: e0125530 (IGR: 17-1)

61603 Effect of glaucoma medications on 24-h intraocular pressure-related patterns using a contact lens sensor
Medeiros FA
Clinical and Experimental Ophthalmology 2015; 43: 787-795 (IGR: 17-1)

61386 Estimation of 24-Hour Intraocular Pressure Peak Timing and Variation Using a Contact Lens Sensor
Mansouri K
PLoS ONE 2015; 10: e0129529 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim MJ
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61162 Efficacy of a contact lens sensor for monitoring 24-h intraocular pressure related patterns
Weinreb RN
PLoS ONE 2015; 10: e0125530 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Yu M
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Hayashi A
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

60960 Twenty-four hour pattern of intraocular pressure and ocular perfusion pressure in night shift workers
Yilmaz T
Seminars in Ophthalmology 2015; 30: 188-192 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Liakopoulos V
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Spoerl E
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Baig N
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Otsuka M
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Jasper C
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61162 Efficacy of a contact lens sensor for monitoring 24-h intraocular pressure related patterns
Liu JH
PLoS ONE 2015; 10: e0125530 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Park KH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Giannopoulos T
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61603 Effect of glaucoma medications on 24-h intraocular pressure-related patterns using a contact lens sensor
Weinreb RN
Clinical and Experimental Ophthalmology 2015; 43: 787-795 (IGR: 17-1)

61386 Estimation of 24-Hour Intraocular Pressure Peak Timing and Variation Using a Contact Lens Sensor
Weinreb RN
PLoS ONE 2015; 10: e0129529 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Furashova O
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Miyakoshi A
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Chan PP
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Jeoung JW
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Voudouragkaki IC
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Tang FY
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim SH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Hermann C
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Demirtzi P; Paschalinou E
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Jang CI
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Tham CC
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Borrmann A
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Passauer J
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Lee SH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Nikitidou O; Kapis PV
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Middeke M
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim JH; Lee S
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Pillunat LE
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Konstas AG
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kang JY
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

60688 Circadian rhythm of intraocular pressure in the adult rat
Lozano DC
Chronobiology International 2015; 0: 1-11 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Gye HJ
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Gisler C
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

59985 Intraocular pressure variations: causes and clinical significance
Sit AJ
Canadian Journal of Ophthalmology 2014; 49: 484-488 (IGR: 16-4)

60822 Distribution of peak intraocular pressure in 24-hour and correlation between peak nocturnal intraocular pressure with diurnal intraocular pressure level in primary open angle glaucoma patients
Cheng J
Chinese Journal of Ophthalmology 2015; 51: 103-108 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Lee JW
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Lee JW
Medicine 2014; 93: e238 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Fu L
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Fu L
Medicine 2014; 93: e238 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Shim SH
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Ridi A
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60688 Circadian rhythm of intraocular pressure in the adult rat
Hartwick AT
Chronobiology International 2015; 0: 1-11 (IGR: 16-4)

60822 Distribution of peak intraocular pressure in 24-hour and correlation between peak nocturnal intraocular pressure with diurnal intraocular pressure level in primary open angle glaucoma patients
Sun X
Chinese Journal of Ophthalmology 2015; 51: 103-108 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Chan JC
Medicine 2014; 93: e238 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Shum JW
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Kim JM
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60688 Circadian rhythm of intraocular pressure in the adult rat
Twa MD
Chronobiology International 2015; 0: 1-11 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Hennebert J
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Chan JCH
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Bae JH
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Lai JS
Medicine 2014; 93: e238 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Weinreb RN
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Lai JS
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Mansouri K
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Choi CY; Kim CY; Park KH
Optometry and Vision Science 2014; 0: (IGR: 16-4)

58780 Soft wearable contact lens sensor for continuous intraocular pressure monitoring
Chen GZ; Chan IS; Leung LK; Lam DC
Medical Engineering and Physics 2014; 36: 1134-1139 (IGR: 16-3)

59076 An examination of the hypothesis that intraocular pressure elevation episodes can have prognostic significance in glaucoma suspects
McMonnies C
Journal of optometry 2015; 8: 223-231 (IGR: 16-3)

59135 Optimal Sampling Scheme for Estimation of Intraocular Pressure Diurnal Curves in Glaucoma Trials
Durairaj C
Clinical Pharmacokinetics 2015; 54: 95-105 (IGR: 16-3)

59651 Intraocular pressure fluctuation in healthy and glaucomatous eyes: a comparative analysis between diurnal curves in supine and sitting positions and the water drinking test
Caiado RR; Badaró E; Kasahara N
Arquivos Brasileiros de Oftalmologia 2014; 77: 288-292 (IGR: 16-3)

58964 Alterations of intraocular pressure in comparison of self- and external-administered topical antiglaucomatosa during diurnal intraocular pressure measurements
Böhm MR; Lill TM; Eter N; Prokosch-Willing V
Klinische Monatsblätter für Augenheilkunde 2014; 231: 810-817 (IGR: 16-3)

58958 Twenty-four-hour intraocular pressure patterns in patients with thyroid eye disease
Parekh AS; Mansouri K; Weinreb RN; Tafreshi A; Korn BS; Kikkawa DO
Clinical and Experimental Ophthalmology 2015; 43: 108-114 (IGR: 16-3)

59528 Twenty-four-hour intraocular pressure patterns in a symptomatic patient after ab interno trabeculotomy surgery
Mansouri K; Medeiros FA; Weinreb RN
Clinical Ophthalmology 2014; 8: 2195-2197 (IGR: 16-3)

58616 Single vs multiple intraocular pressure measurements in glaucoma surgical trials
Zhang ML; Chon BH; Wang J; Smits G; Lin SC; Ianchulev T; Jampel HD
JAMA ophthalmology 2014; 132: 956-962 (IGR: 16-3)

59459 Instability of 24-hour intraocular pressure fluctuation in healthy young subjects: a prospective, cross-sectional study
Song YK; Lee CK; Kim J; Hong S; Kim CY; Seong GJ
BMC Ophthalmology 2014; 14: 127 (IGR: 16-3)

59560 Correlation of intraocular pressure variation after visual field examination with 24-hour intraocular pressure variations in primary open-angle glaucoma
Noro T; Nakamoto K; Sato M; Yasuda N; Ito Y; Ogawa S; Nakano T; Tsuneoka H
Nippon Ganka Gakkai Zasshi 2014; 118: 831-837 (IGR: 16-3)

59370 Asymmetry of habitual 24-hour intraocular pressure rhythm in glaucoma patients
Liu JH; Weinreb RN
Investigative Ophthalmology and Visual Science 2014; 55: 7398-7402 (IGR: 16-3)

59346 Longitudinal stability of the diurnal rhythm of intraocular pressure in subjects with healthy eyes, ocular hypertension and pigment dispersion syndrome
Huchzermeyer C; Reulbach U; Horn F; Lämmer R; Mardin CY; Jünemann AG
BMC Ophthalmology 2014; 14: 122 (IGR: 16-3)

59648 Diurnal variation in central corneal thickness and intraocular pressure in eyes with pseudoexfoliation syndrome without glaucoma
Keel S; Malesic L; Chan SP
Indian Journal of Ophthalmology 2014; 62: 1072-1076 (IGR: 16-3)

59337 Short-term fluctuation of intraocular pressure is higher in patients with pseudoexfoliation syndrome despite similar mean intraocular pressure: a retrospective case-control study
Huchzermeyer C; Horn F; Lämmer R; Mardin CY; Jünemann AG
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 107-114 (IGR: 16-3)

59577 Late-day intraocular pressure-lowering efficacy and tolerability of travoprost 0.004% versus bimatoprost 0.01% in patients with open-angle glaucoma or ocular hypertension: a randomized trial
Dubiner HB; Hubatsch DA
BMC Ophthalmology 2014; 14: 151 (IGR: 16-3)

57330 An overview of home tonometry and telemetry for intraocular pressure monitoring in humans
Yung E; Trubnik V; Katz LJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1179-1188 (IGR: 16-2)

57418 Long-Term Reproducibility of Diurnal Intraocular Pressure Patterns in Patients with Glaucoma
Aptel F; Lesoin A; Chiquet C; Aryal-Charles N; Noel C; Romanet JP
Ophthalmology 2014; 121: 1998-2003 (IGR: 16-2)

56888 Circadian pattern of intraocular pressure fluctuations in young myopic eyes with open-angle glaucoma
Jeong da W; Kook MS; Lee KS; Lee JR; Han S
Investigative Ophthalmology and Visual Science 2014; 55: 2148-2156 (IGR: 16-2)

57262 Improvement of fluctuations of intraocular pressure after cataract surgery in primary angle closure glaucoma patients
Tojo N; Otsuka M; Miyakoshi A; Fujita K; Hayashi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1463-1468 (IGR: 16-2)

57108 Four Measures of Intraocular Pressure Fluctuation: Which Correlates Most Optimally With Actual Office-hour Readings?
Huang R; Ge J; Chen G; Gao X; Laties AM; Zhang X
Journal of Glaucoma 2015; 24: 550-555 (IGR: 16-2)

57524 New perspectives on target intraocular pressure
Clement CI; Bhartiya S; Shaarawy T
Survey of Ophthalmology 2014; 59: 615-626 (IGR: 16-2)

57380 Functional analysis of glaucoma data
Hosseini-Nasab M; Mirzaei K Z
Statistics in Medicine 2014; 33: 2077-2102 (IGR: 16-2)

57126 Long-term 24-hour Intraocular Pressure Control With Travoprost Monotherapy in Patients With Primary Open-angle Glaucoma
Riva I; Katsanos A; Floriani I; Biagioli E; Konstas AG; Centofanti M; Quaranta L
Journal of Glaucoma 2014; 23: 535-540 (IGR: 16-2)

56120 Dynamics, alterations, and consequences of minimally invasive intraocular pressure elevation in rats
Gramlich OW; Lueckner TC; Kriechbaum M; Teister J; Tao X; von Pein HD; Pfeiffer N; Grus FH
Investigative Ophthalmology and Visual Science 2014; 55: 600-611 (IGR: 16-1)

56436 Intraocular pressure fluctuation and glaucoma progression: what do we know?
Leidl MC; Choi CJ; Syed ZA; Melki SA
British Journal of Ophthalmology 2014; 98: 1315-1319 (IGR: 16-1)

55430 Effects of several anti-glaucoma medications on the circadian intraocular pressure fluctuations in patients with primary open-angle glaucoma
Tanaka S; Watanabe M; Inatomi S; Umeda K; Yoshida K; Ohguro I; Ohguro H
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 12-20 (IGR: 15-4)

55207 Pattern of intraocular pressure fluctuation in uveitic eyes treated with corticosteroids
Shrestha S; Thapa M; Shah DN
Ocular Immunology and Inflammation 2014; 22: 110-115 (IGR: 15-4)

54445 Presentation of software for collation of inpatient diurnal pressure profiles in glaucoma patients
Christmann S; Leisser C; Schrage N
Ophthalmologe 2014; 111: 135-143 (IGR: 15-3)

54376 Intraocular pressure change over a habitual 24-hour period after changing posture or drinking water and related factors in normal tension glaucoma
Sakata R; Aihara M; Murata H; Saito H; Iwase A; Yasuda N; Araie M
Investigative Ophthalmology and Visual Science 2013; 54: 5313-5320 (IGR: 15-3)

53589 The dark phase intraocular pressure elevation and retinal ganglion cell degeneration in a rat model of experimental glaucoma
Kwong JM; Vo N; Quan A; Nam M; Kyung H; Yu F; Piri N; Caprioli J
Experimental Eye Research 2013; 112: 21-28 (IGR: 15-2)

53767 Is 24-hour intraocular pressure monitoring necessary in glaucoma?
Mansouri K; Weinreb RN; Medeiros FA
Seminars in Ophthalmology 2013; 28: 157-164 (IGR: 15-2)

53959 Short- and Long-Term Phasing of Intraocular Pressure in Stable and Progressive Glaucoma
Fogagnolo P; Orzalesi N; Centofanti M; Oddone F; Manni G; Rossetti L
Ophthalmologica 2013; 0: (IGR: 15-2)

53962 Ocular pulse amplitude as a dynamic parameter and its relationship with 24-h intraocular pressure and blood pressure in glaucoma
Kim YJ; Lee KS; Lee JR; Na JH; Choi J; Han S; Kook MS
Experimental Eye Research 2013; 115: 65-72 (IGR: 15-2)

53747 Daytime fluctuation of intraocular pressure in patients with primary angle-closure glaucoma after trabeculectomy
Liang YB; Xie C; Meng HL; Feng MY; Fan SJ; Liu LR; Xie LL; Chao J; Wang X; Wang NL; Thomas R
Journal of Glaucoma 2013; 22: 349-354 (IGR: 15-2)

53713 Lower Limits of Intraocular Pressure in Glaucoma Clinical Trials
Stewart WC; Limtong AC; Magrath GN; Rembold JC; Nelson LA; Stewart JA
Journal of Glaucoma 2014; 23: e105-e107 (IGR: 15-2)

52883 Tolerability of 24-hour intraocular pressure monitoring of a pressure-sensitive contact lens
Lorenz K; Korb C; Herzog N; Vetter JM; Elflein H; Keilani MM; Pfeiffer N
Journal of Glaucoma 2013; 22: 311-316 (IGR: 15-1)

53015 Twenty-four-hour pattern of intraocular pressure in untreated patients with ocular hypertension
Grippo TM; Liu JH; Zebardast N; Arnold TB; Moore GH; Weinreb RN
Investigative Ophthalmology and Visual Science 2013; 54: 512-517 (IGR: 15-1)

52599 Switching prostaglandin analogues and 24-hour iop fluctuations
Gil-Carrasco F; Turati-Acosta M; Albis-Donado O; Bello-López-Portillo H; Sánchez-Noguera C; Soto-Ortiz K
Archivos de la Sociedad Española de Oftalmologia 2013; 88: 130-133 (IGR: 15-1)

52407 Are diurnal and nocturnal intraocular pressure measurements over 48 h justified?
Fischer N; Weinand F; Kügler MU; Scheel S; Lorenz B
Ophthalmologe 2013; 110: 755-758, 760 (IGR: 15-1)

51907 24-hour intraocular pressure and ocular perfusion pressure in glaucoma
Quaranta L; Katsanos A; Russo A; Riva I
Survey of Ophthalmology 2013; 58: 26-41 (IGR: 14-4)

51788 Average versus highest intraocular pressure analyses in glaucoma clinical trials
Demill DL; Wirostko BM; Nelson LA; Stewart JA; Stewart WC
Ophthalmic Research 2013; 49: 49-51 (IGR: 14-4)

51806 Analysis of continuous 24-hour intraocular pressure patterns in glaucoma
Mansouri K; Liu JH; Weinreb RN; Tafreshi A; Medeiros FA
Investigative Ophthalmology and Visual Science 2012; 53: 8050-8056 (IGR: 14-4)

51565 Comparison of the iCare tonometer with the Goldmann tonometer in Malawi
Hohmann J; Schulze-Schwering M; Chirambo Nyaka T; Moyo V; Kayange PC; Doycheva D; Batumba NH; Spitzer MS
Ophthalmologe 2012; 109: 1098-1102 (IGR: 14-4)

51641 Dorsomedial/Perifornical hypothalamic stimulation increases intraocular pressure, intracranial pressure, and the translaminar pressure gradient
Samuels BC; Hammes NM; Johnson PL; Shekhar A; McKinnon SJ; Allingham RR
Investigative Ophthalmology and Visual Science 2012; 53: 7328-7335 (IGR: 14-4)

51780 Relationship between intraocular pressure and glaucoma onset and progression
Miglior S; Bertuzzi F
Current opinion in pharmacology 2013; 13: 32-35 (IGR: 14-4)

51648 The effect of changes in intraocular pressure on the risk of primary open-angle glaucoma in patients with ocular hypertension: an application of latent class analysis
Gao F; Miller JP; Miglior S; Beiser JA; Torri V; Kass MA; Gordon MO
BMC medical research methodology 2012; 12: 151 (IGR: 14-4)

51991 What happens to glaucoma patients during sleep?
Aref AA
Current Opinions in Ophthalmology 2013; 24: 162-166 (IGR: 14-4)

51236 Intraocular pressure magnitude and variability as predictors of rates of structural change in non-human primate experimental glaucoma
Gardiner SK; Fortune B; Wang L; Downs JC; Burgoyne CF
Experimental Eye Research 2012; 103: 1-8 (IGR: 14-3)

51075 A new strategy for diurnal intraocular pressure curve
Borrone R
European Journal of Ophthalmology 2012; 22: 964-971 (IGR: 14-3)

50682 24-hour intraocular pressure fluctuation monitoring using an ocular telemetry Sensor: tolerability and functionality in healthy subjects
de Smedt S; Mermoud A; Schnyder C
Journal of Glaucoma 2012; 21: 539-544 (IGR: 14-3)

51115 Continuous 24-Hour Monitoring of Intraocular Pressure Patterns With a Contact Lens Sensor: Safety, Tolerability, and Reproducibility in Patients With Glaucoma
Mansouri K; Medeiros FA; Tafreshi A; Weinreb RN
Archives of Ophthalmology 2012; 0: 1-6 (IGR: 14-3)

50704 Circadian intraocular pressure and blood pressure reduction with timolol 0.5% solution and timogel 0.1% in patients with primary open-angle glaucoma
Quaranta L; Katsanos A; Floriani I; Riva I; Russo A; Konstas AG
Journal of Clinical Pharmacology 2012; 52: 1552-1557 (IGR: 14-3)

51290 Repeatability of measurements of effectiveness of glaucoma medication
Rotchford AP; King AJ
British Journal of Ophthalmology 2012; 96: 1494-1497 (IGR: 14-3)

51158 Twenty-four-hour effects of bimatoprost 0.01% monotherapy on intraocular pressure and ocular perfusion pressure
Tung JD; Tafreshi A; Weinreb RN; Slight JR; Medeiros FA; Liu JH
BMJ open 2012; 2: (IGR: 14-3)

50545 Meeting an unmet need in glaucoma: continuous 24-h monitoring of intraocular pressure
Mansouri K; Weinreb RN
Expert Review of Medical Devices 2012; 9: 225-231 (IGR: 14-2)

50421 Effect of high myopia on 24-hour intraocular pressure in patients with primary open-angle glaucoma
Yang YX; Wang NL; Wu L; Zhen Y; Wang T; Ren CX; Peng XX; Hao J; Xia YT
Chinese Medical Journal 2012; 125: 1282-1286 (IGR: 14-2)

50233 Day-to-day variability in intraocular pressure in glaucoma and ocular hypertension
Rotchford AP; Uppal S; Lakshmanan A; King AJ
British Journal of Ophthalmology 2012; 96: 967-970 (IGR: 14-2)

50480 Intraocular Pressure Fluctuation in Patients With Primary Open-angle Glaucoma Combined With High Myopia
Yang Y; Li Z; Wang N; Wu L; Zhen Y; Wang T; Ren C; Peng X; Hao J; Xia Y
Journal of Glaucoma 2014; 23: 19-22 (IGR: 14-2)

50430 Ocular clinical profile of patients with pseudoexfoliation syndrome in a tertiary eye care center in South India
Philip SS; John SS; Simha AR; Jasper S; Braganza AD
Middle East African Journal of Ophthalmology 2012; 19: 231-236 (IGR: 14-2)

48630 Peak intraocular pressure and glaucomatous progression in primary open-angle glaucoma
Konstas AG; Quaranta L; Mikropoulos DG; Nasr MB; Russo A; Jaffee HA; Stewart JA; Stewart WC
Journal of Ocular Pharmacology and Therapeutics 2012; 28: 26-32 (IGR: 14-1)

48953 Dampening of Diurnal Intraocular Pressure Fluctuation by Combined Trabeculotomy and Sinusotomy in Eyes With Open-angle Glaucoma
Matsuoka M; Ando A; Minamino K; Matsuyama K; Shima C; Matsumura M; Nishimura T
Journal of Glaucoma 2013; 22: 290-293 (IGR: 14-1)

49157 Damping of intraocular pressure fluctuations
Cringle SJ; Yu DY
Clinical and Experimental Ophthalmology 2012; 40: 881-887 (IGR: 14-1)

48954 Reproducibility of the Mean, Fluctuation, and IOP Peak in the Diurnal Tension Curve
Hatanaka M; Babic M; Susanna R
Journal of Glaucoma 2013; 22: 390-392 (IGR: 14-1)

49015 Comparison of Dorzolamide/Timolol and Latanoprost/Timolol Fixed Combinations on Diurnal Intraocular Pressure Control in Primary Open-Angle Glaucoma
Eren MH; Gungel H; Altan C; Pasaoglu IB; Sabanci S
Journal of Ocular Pharmacology and Therapeutics 2012; 28: 381-386 (IGR: 14-1)

48772 Effects of aging on 24-hour intraocular pressure measurements in sitting and supine body positions
Mansouri K; Weinreb RN; Liu JH
Investigative Ophthalmology and Visual Science 2012; 53: 112-116 (IGR: 14-1)

49268 Continuous 24-hour intraocular pressure monitoring for glaucoma--time for a paradigm change
Mansouri K; Weinreb R
Swiss Medical Weekly 2012; 142: w13545 (IGR: 14-1)

49356 Sustained intraocular pressure reduction throughout the day with travoprost ophthalmic solution 0.004%
Dubiner HB; Noecker R
Clinical Ophthalmology 2012; 6: 525-531 (IGR: 14-1)

48590 Twenty-four hour efficacy with the dorzolamide/timolol-fixed combination compared with the brimonidine/timolol-fixed combination in primary open-angle glaucoma
Konstas AG; Quaranta L; Yan DB; Mikropoulos DG; Riva I; Gill NK; Barton K; Haidich AB
Eye 2012; 26: 80-87 (IGR: 14-1)

48269 Diurnal pattern of intraocular pressure is affected by microgravity when measured in space with the pressure phosphene tonometer (PPT)
Chung KY; Woo SJ; Yi S; Choi GH; Ahn CH; Hur GC; Lim JG; Kim TW
Journal of Glaucoma 2011; 20: 488-491 (IGR: 13-4)

47672 Long-term intraocular pressure fluctuation of primary angle closure disease following laser peripheral iridotomy/iridoplasty
Chen Y-Y; Sun L-P; Thomas R; Liang Y-B; Fan S-J; Sun X; Li S-Z; Zhang S-D; Wang N-L
Chinese Medical Journal 2011; 124: 3066-3069 (IGR: 13-4)

47677 Study on changes of intraocular pressure within 24 hours in primary open angle glaucoma and normal eyes
Xiao M; Sun XH; Meng FR; Fang ZB; Qiu SY; Guo WY; Qian SH; Wang JY
Zhonghua Yi Xue Za Zhi 2011; 91: 441-444 (IGR: 13-4)

48335 Continuous IOP fluctuation recording in normal tension glaucoma patients
Pajic B; Pajic-Eggspuchler B; Haefliger I
Current Eye Research 2011; 36: 1129-1138 (IGR: 13-4)

48140 A population-based assessment of 24-hour intraocular pressure among subjects with primary open-angle glaucoma: the handan eye study
Wang NL; Friedman DS; Zhou Q; Guo L; Zhu D; Peng Y; Chang D; Sun LP; Liang YB
Investigative Ophthalmology and Visual Science 2011; 52: 7817-7821 (IGR: 13-4)

47597 Diurnal and Nocturnal Intraocular Pressure Fluctuations after Trabeculectomy
Klink T; Praetorius S; Leippi S; Klink J; Grehn FJ
Ophthalmologica 2011; (IGR: 13-4)

46850 Characterization of intraocular pressure responses of the Tibetan monkey (Macaca Thibetana)
Liu G; Zeng T; Yu W; Yan N; Wang H; Cai S-P; Pang I-H; Liu X
Molecular Vision 2011; 17: 1405-1413 (IGR: 13-3)

46545 Improved prediction of fellow-eye response in one-eye trials using multiple intraocular pressure measurements
Wakabayashi Y; Higashide T; Sugiyama K
Japanese Journal of Ophthalmology 2011; 55: 480-485 (IGR: 13-3)

46328 Risk factors of glaucoma progression: intraocular pressure fluctuations
Aptel F; Denis P
Journal Français d'Ophtalmologie 2011; 34: 400-402 (IGR: 13-3)

46413 Diurnal variations in axial length, choroidal thickness, intraocular pressure, and ocular biometrics
Chakraborty R; Read SA; Collins MJ
Investigative Ophthalmology and Visual Science 2011; 52: 5121-5129 (IGR: 13-3)

46605 24-Hour intraocular pressure control between travoprost/timolol fixed combination, latanoprost/ timolol fixed combination and standard timolol in primary open angle glaucoma and ocular hypertension
Pachimkul P; Yuttitham K; Thoophom P
Journal of the Medical Association of Thailand 2011; 94: 81-87 (IGR: 13-3)

46486 Importance of intraocular pressure measurement at 6:00 a.m. in bed and in darkness in suspected and glaucomatous patients
Cronemberger S; Da Silva ACL; Calixto N
Arquivos Brasileiros de Oftalmologia 2010; 73: 346-349 (IGR: 13-3)

45899 Continuous 24 h monitoring of changes in intraocular pressure with the wireless contact lens sensor Triggerfish(trademark).First results in patients
Faschinger C; Mossbock G
Ophthalmologe 2010; 107: 918-922 (IGR: 13-2)

46262 Control of intraocular pressure fluctuation: Are combination drugs more effective?
Feldman RM; Bell NP; Nagi KS
Expert Review of Ophthalmology 2011; 6: 151-154 (IGR: 13-2)

45511 Asymmetry of diurnal intraocular pressure fluctuation between right and left eyes
Kim MS; Kim JM; Park KH; Choi CY
Acta Ophthalmologica 2011; 89: 352-357 (IGR: 13-2)

46099 Analysis of the diurnal intraocular pressure profile pre and post trabeculectomy using 24-hour monitoring of intraocular pressure
Ross AH; Jackson TE; Wertheim MS; Spry PGD; Sparrow JM; Diamond JP
European Journal of Ophthalmology 2011; 21: 400-403 (IGR: 13-2)

27886 Physiology of aqueous humor formation, diurnal fluctuation of intraocular pressure and its significance for glaucoma
Gobel K; Rufer F; Erb C
Klinische Monatsblätter für Augenheilkunde 2011; 228: 104-108 (IGR: 13-1)

28005 The role of melatonin in glaucoma: Implications concerning pathophysiological relevance and therapeutic potential
Agorastos A; Huber CG
Journal of Pineal Research 2011; 50: 1-7 (IGR: 13-1)

28080 The association between diurnal variation of optic nerve head topography and intraocular pressure and ocular perfusion pressure in untreated primary open-angle glaucoma
Sehi M; Flanagan JG; Zeng L; Cook RJ; Trope GE
Journal of Glaucoma 2011; 20: 44-50 (IGR: 13-1)

27790 Aqueous Humor Dynamics During the Day and Night in Healthy Mature Volunteers
Liu H; Fan S; Gulati V; Camras L J; Zhan G; Ghate D; Camras CB; Toris CB
Archives of Ophthalmology 2011; 129: 269-275 (IGR: 13-1)

27929 Short-term repeatability of diurnal intraocular pressure patterns in glaucomatous individuals
Realini T; Weinreb N; Wisniewski S
Ophthalmology 2011; 118: 47-51 (IGR: 13-1)

27697 Dynamic association between intraocular pressure and spontaneous pulsations of retinal veins
Golzan SM; Graham SL; Leaney J; Avolio A
Current Eye Research 2011; 36: 53-59 (IGR: 13-1)

27802 Control of intraocular pressure and fluctuation with fixed-combination brimonidinetimolol versus brimonidine or timolol monotherapy
Spaeth GL; Bernstein P; Caprioli J; Schiffman RM
American Journal of Ophthalmology 2011; 151: 93-99 (IGR: 13-1)

27947 Effect of selective laser trabeculoplasty on diurnal fluctuations of intraocular pressure in patients receiving secondary and repeat therapy
Jindra LF; Donnelly J; Miglino EM
Lasers in Surgery and Medicine 2009; 41: 69-70 (IGR: 13-1)

26962 Circadian variations in intracranial pressure and translaminar pressure difference in Sprague-Dawley rats.
Lin JS; Liu JH
Investigative Ophthalmology and Visual Science 2010; 51: 5739-5743 (IGR: 12-4)

27111 Twenty-four-hour ocular perfusion pressure in primary open-angle glaucoma
Costa VP; Jimenez-Roman J; Carrasco FG; Lupinacci A; Harris A
British Journal of Ophthalmology 2010; 94: 1291-1294 (IGR: 12-4)

27330 24-h Intraocular pressure control with evening-dosed travoprost/timolol, compared with latanoprost/timolol, fixed combinations in exfoliative glaucoma
Konstas AGP; Mikropoulos DG; Embeslidis TA; Dimopoulos AT; Papanastasiou A; Haidich A-B; Stewart WC
Eye 2010; 24: 1606-1613 (IGR: 12-4)

27196 Diurnal and nocturnal effects of brimonidine monotherapy on intraocular pressure
Liu JHK; Medeiros FA; Slight JR; Weinreb RN
Ophthalmology 2010; 117: 2075-2079 (IGR: 12-4)

27031 Meta-analysis of timolol on diurnal and nighttime intraocular pressure and blood pressure.
Lee PW; Doyle A; Stewart JA; Kristoffersen CJ; Stewart WC
European Journal of Ophthalmology 2010; 20: 1035-1041 (IGR: 12-4)

27394 Twenty-four-hour intraocular pressure control with latanoprost-timolol-fixed combination versus bimatoprost in patients who switched from Timolol
Mesci C; Aydin N; Erbil HH
Journal of Glaucoma 2010; (IGR: 12-4)

26386 In vivo real-time intraocular pressure variations during LASIK flap creation
Chaurasia SS; Luengo Gimeno F; Tan K; Yu S; Tan DT; Beuerman RW; Mehta JS
Investigative Ophthalmology and Visual Science 2010; 51: 4641-4645 (IGR: 12-3)

26606 Untreated 24-h intraocular pressures measured with Goldmann applanation tonometry vs nighttime supine pressures with Perkins applanation tonometry
Quaranta L; Konstas AGP; Rossetti L; Garcia-Feijoo J; O'Brien C; Nasr MB; Fogagnolo P; Demos CM; Stewart JA; Stewart WC
Eye 2010; 24: 1252-1258 (IGR: 12-3)

26328 Diurnal Intraocular Pressure Patterns are Not Repeatable in the Short Term in Healthy Individuals
Realini T; Weinreb RN; Wisniewski SR
Ophthalmology 2010; 117: 1700-1704 (IGR: 12-3)

26579 The diurnal variation of intraocular pressure-the most important symptom for early detection and follow-up of the glaucomas
Draeger J
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1367-1370 (IGR: 12-3)

26758 Effect of different diurnal blood pressure profiles on severity of the open-angle glaucoma in treated hypertensive patients
Krasinska B; Karolczak-Kulesza M; Tykarski A; Pawlaczyk-Gabriel K; Niklas A; Krasinski Z; Gluszek J
Nadcisnienie Tetnicze 2010; 14: 128-141 (IGR: 12-3)

26652 Can mean central corneal thickness and its 24-hour fluctuation influence fluctuation of intraocular pressure?
Fogagnolo P; Capizzi F; Orzalesi N; Figus M; Ferreras A; Rossetti L
Journal of Glaucoma 2010; 19: 418-423 (IGR: 12-3)

26430 24-hour versus daytime intraocular pressure phasing in the management of patients with treated glaucoma
Moodie J; Wilde C; Rotchford AP; Vernon SA; King AJ
British Journal of Ophthalmology 2010; 94: 999-1002 (IGR: 12-3)

26310 Twenty-four-hour ocular hypotensive effects of 0.0015% tafluprost and 0.005% latanoprost in healthy subjects
Mochizuki H; Itakura H; Yokoyama T; Takamatsu M; Kiuchi Y
Japanese Journal of Ophthalmology 2010; 54: 286-290 (IGR: 12-3)

25668 The use of mice in glaucoma research --to clarify the mechanism of intraocular pressure regulation and retinal ganglion cell damage
Aihara M
Nippon Ganka Gakkai Zasshi 2010; 114: 217-246 (IGR: 12-2)

26143 Assessing the Importance of IOP Variables in Glaucoma Using a Modified Delphi Process
Lee PP; Sultan MB; Grunden JW; Cioffi GA; for the IOP Consensus Panel
Journal of Glaucoma 2010; 19: 281-287 (IGR: 12-2)

26291 Comparing the measurement of diurnal fluctuations in intraocular pressure in the same day versus over different days in glaucoma
Magacho L; Toscano DA; Freire G; Shetty RK; Ávila MP
European Journal of Ophthalmology 2010; 20: 542-545 (IGR: 12-2)

26130 Effect of carteolol hydrochloride on 24-hour variation of intraocular pressure in normal-tension glaucoma
Nakamoto K; Yasuda N
Japanese Journal of Ophthalmology 2010; 54: 140-143 (IGR: 12-2)

25836 Meta-analysis of 24-h intraocular pressure fluctuation studies and the efficacy of glaucoma medicines
Stewart WC; Konstas AGP; Kruft B; Mathis HM; Stewart JA
Journal of Ocular Pharmacology and Therapeutics 2010; 26: 175-180 (IGR: 12-2)

26102 Aqueous humor dynamics during the day and night in juvenile and adult rabbits
Zhao M; Hejkal JJ; Camras CB; Toris CB
Investigative Ophthalmology and Visual Science 2010; 51: 3145-3151 (IGR: 12-2)

25796 Comparison of ability to find abnormal IOP between diurnal and circadian IOP curve
Zhen Y; Wang N; Guo Y; Zhang X
Chinese Ophthalmic Research 2010; 28: 360-364 (IGR: 12-2)

26306 Effect of sleeping in a head-up position on intraocular pressure in patients with glaucoma
Buys YM; Alasbali T; Jin YP; Smith M; Gouws P; Geffen N; Flanagan JG; Shapiro CM; Trope GE
Ophthalmology 2010; 117: 1348-1351 (IGR: 12-2)

25977 Influence of selective laser trabeculoplasty on 24-hour diurnal intraocular pressure fluctuation in primary open-angle glaucoma: A pilot study
Kothy P; Toth M; Hollo G
Ophthalmic Surgery Lasers and Imaging 2010; 41: 342-347 (IGR: 12-2)

25169 Increased 24-hour variation of human intraocular pressure with short axial length
Loewen NA; Liu JH; Weinreb RN
Investigative Ophthalmology and Visual Science 2010; 51: 933-937 (IGR: 12-1)

25457 Effects of brinzolamide vs timolol as an adjunctive medication to latanoprost on circadian intraocular pressure control in primary open-angle glaucoma Japanese patients
Ishikawa M; Yoshitomi T
Clinical Ophthalmology 2009; 3: 493-500 (IGR: 12-1)

25447 24-hour intraocular pressure in glaucoma patients randomized to receive dorzolamide or brinzolamide in combination with latanoprost
Ishikawa S; Nakamura Y; Sakai H; Henzan I; Sawaguchi S
Clinical Ophthalmology 2009; 3: 395-400 (IGR: 12-1)

25036 Twenty-four hour (Nyctohemeral) rhythm of intraocular pressure and ocular perfusion pressure in normal-tension glaucoma
Renard E; Palombi K; Gronfier C; Pepin JL; Noel C; Chiquet C; Romanet JP
Investigative Ophthalmology and Visual Science 2010; 51: 882-889 (IGR: 12-1)

25265 A Model-Based Meta-Analysis of the Effect of Latanoprost Chronotherapy on the Circadian Intraocular Pressure of Patients With Glaucoma or Ocular Hypertension
Luu K T; Raber S R; Nickens D J; Vicini P
Clinical Pharmacology and Therapeutics 2010; 87:421-425 (IGR: 12-1)

25185 The effect of trabeculectomy on ocular pulse amplitude
Breusegem C; Fieuws S; Zeyen T; Stalmans I
Investigative Ophthalmology and Visual Science 2010; 51: 231-235 (IGR: 12-1)

24754 Correlation between diurnal variation of intraocular pressure, ocular pulse amplitude and corneal structural properties
Villas-Boas FS; Doi LM; Sousa AK; Melo Jr LA
Arquivos Brasileiros de Oftalmologia 2009; 72: 296-301 (IGR: 11-4)

24998 Diurnal intraocular pressure fluctuation and associated risk factors in eyes with angle closure
Baskaran M; Kumar RS; Govindasamy CV; Htoon HM; Wong CY; Perera SA; Wong TT; Aung T
Ophthalmology 2009; 116: 2300-2304 (IGR: 11-4)

24934 Ocular rigidity, ocular pulse amplitude, and pulsatile ocular blood flow: the effect of intraocular pressure
Dastiridou AI; Ginis HS; De Brouwere D; Tsilimbaris MK; Pallikaris IG
Investigative Ophthalmology and Visual Science 2009; 50: 5718-5722 (IGR: 11-4)

24614 Current study on diurnal fluctuation of intraocular pressure
Fu F; Chen X
Chinese Ophthalmic Research 2009; 27: 629-632 (IGR: 11-4)

24787 Diurnal variation of corneal biomechanics and intraocular pressure in normal subjects
Oncel B; Dinc UA; Gorgun E; Yalvaç BI
European Journal of Ophthalmology 2009; 9: 798-803 (IGR: 11-4)

24483 Intraocular pressure profile during the modified diurnal tension curve using Goldman applanation tonometry and dynamic contour tonometry
Vasconcelos De Moraes CG; Castro Reis AS; Sano ME; Barreira AK; Vessani RM; Jr Susanna R
Journal of Ocular Biology, Diseases, and Informatics 2009; 2: 29-32 (IGR: 11-3)

24496 Glaucoma: an area of darkness
Hitchings RA
Eye 2009; 23: 1764-1774 (IGR: 11-3)

24163 The relationship between diurnal variations in intraocular pressure measurements and central corneal thickness and corneal hysteresis
Kotecha A; Crabb DP; Spratt A; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2009; 50: 4229-4236 (IGR: 11-3)

24021 Assessing the efficacy of latanoprost vs timolol using an alternate efficacy parameter: the intervisit intraocular pressure range
Varma R; Hwang LJ; Grunden JW; Bean GW; Sultan MB
American Journal of Ophthalmology 2009; 148: 221-226 (IGR: 11-3)

23611 Research on dynamic contour tonometer and non-contact tonometer intraocular pressure in normal young people sitting day and night fluctuations trend
Cao R-D; Zhang Y-P; Geng J; Sheng J-J; Zhang Z-M
International Journal of Ophthalmology 2009; 9: 498-501 (IGR: 11-2)

23598 Pathophysiology of glaucoma and continuous measurements of intraocular pressure
Sit AJ; Liu JH
Molecular & cellular biomechanics : MCB 2009; 6: 57-69 (IGR: 11-2)

24001 The effect of cataract surgery on diurnal intraocular pressure fluctuation
Kim KS; Kim JM; Park KH; Choi CY; Chang HR
Journal of Glaucoma 2009; 18: 399-402 (IGR: 11-2)

23801 Twenty-four-hour intraocular pressure control with the travoprost/timolol maleate fixed combination compared with travoprost when both are dosed in the evening in primary open-angle glaucoma
Konstas AG; Mikropoulos D; Haidich AB; Ntampos KS; Stewart WC
British Journal of Ophthalmology 2009; 93: 481-485 (IGR: 11-2)

23820 Continuous monitoring of intraocular pressure: rationale and progress toward a clinical device
Sit AJ
Journal of Glaucoma 2009; 18: 272-279 (IGR: 11-2)

23665 24-hour intraocular pressure and blood pressure levels with latanoprost/timolol fixed combination versus timolol
Konstas AG; Pikilidou MI; Tsironi S; Mikropoulos D; Kozobolis VP; Sarafidis PA; Lasaridis AN; Nelson LA; Stewart WC
Current Eye Research 2009; 34: 369-377 (IGR: 11-2)

23965 The circadian curve of intraocular pressure: can we estimate its characteristics during office hours?
Fogagnolo P; Orzalesi N; Ferreras A; Rossetti L
Investigative Ophthalmology and Visual Science 2009; 50: 2209-2215 (IGR: 11-2)

23699 Agreement between stress intraocular pressure and long-term intraocular pressure measurements in primary open angle glaucoma
De Moraes CG; Furlanetto RL; Reis AS; Vegini F; Cavalcanti NF; Susanna R Jr
Clinical and Experimental Ophthalmology 2009; 37: 270-274 (IGR: 11-2)

23503 Intraocular pressure fluctuations: How much do they matter?
Singh K; Shrivastava A
Current Opinions in Ophthalmology 2009; 20: 84-87 (IGR: 11-2)

23552 Concordance of nictemeral IOP variations between fellow eyes in glaucoma and non glaucoma patients
Chiselita D; Motoc I; Danielescu C
Oftalmologia 2008; 52: 102-109 (IGR: 11-2)

23860 Relationship of the 24-hour pattern of intraocular pressure with optic disc appearance in primary open-angle glaucoma
Deokule SP; Doshi A; Vizzeri G; Medeiros FA; Liu JH; Bowd C; Zangwill L; Weinreb RN
Ophthalmology 2009; 116: 833-839 (IGR: 11-2)

23844 Diurnal variation of ocular pressure in open-angle glaucoma with telemonitoring
Antal S; Jürgens C; Grossjohann R; Tost FH
Klinische Monatsblätter für Augenheilkunde 2009; 226: 168-175 (IGR: 11-2)

23814 Intraocular pressure control and fluctuation: the effect of treatment with selective laser trabeculoplasty
Nagar M; Luhishi E; Shah N
British Journal of Ophthalmology 2009; 93: 497-501 (IGR: 11-2)

22559 Intraocular pressure measurements throughout the 24 h
Bagga H; Liu JH; Weinreb RN
Current Opinions in Ophthalmology 2009; 20: 79-83 (IGR: 11-1)

22577 Intraocular pressure control over 24 hours using travoprost and timolol fixed combination administered in the morning or evening in primary open-angle and exfoliative glaucoma
Konstas AG; Tsironi S; Vakalis AN; Nasr MB; Stewart JA; Nelson LA; Stewart WC
Acta Ophthalmologica 2009; 87: 71-76 (IGR: 11-1)

22950 Daily and nightly fluctuation of intraocular pressure and blood pressure in glaucoma and non-glaucoma patients
Chiselita D; Motoc I; Danielescu C
Oftalmologia 2008; 52: 119-125 (IGR: 11-1)

22661 Fluctuation of intraocular pressure in 24-hour telemonitoring compared to tonometry during normal office hours
Jürgens C; Antal S; Henrici K; Grossjohann R; Tost FH
Klinische Monatsblätter für Augenheilkunde 2009; 226: 54-59 (IGR: 11-1)

22640 A comparison of the intervisit intraocular pressure fluctuation after 180 and 360° of selective laser trabeculoplasty (SLT) as a primary therapy in primary open angle glaucoma and ocular hypertension
Prasad N; Murthy S; Dagianis JJ; Latina MA
Journal of Glaucoma 2009; 18: 157-160 (IGR: 11-1)

21720 Intraocular pressure fluctuation a risk factor for visual field progression at low intraocular pressures in the advanced glaucoma intervention study
Caprioli J; Coleman AL
Ophthalmology 2008; 115: 1123-1129 (IGR: 10-3)

21474 The importance of diurnal pressure curve in evaluation of glaucoma patients
Constantin C; Costin D
Revista medico-chirurgicală̆ a Societă̆ţ̜ii de Medici ş̧i Naturaliş̧ti din Iaş̧I 2007; 111: 946-952 (IGR: 10-3)

21820 Latent asymmetric intraocular pressure as a predictor of visual field defects
Hong S; Kang SY; Ma KT; Seong GJ; Kim CY
Archives of Ophthalmology 2008; 126: 1211-1215 (IGR: 10-3)

21758 Diurnal variation of axial length, intraocular pressure, and anterior eye biometrics
Read SA; Collins MJ; Iskander DR
Investigative Ophthalmology and Visual Science 2008; 49: 2911-2918 (IGR: 10-3)

21683 Meta-analysis of 24-hour intraocular pressure studies evaluating the efficacy of glaucoma medicines
Stewart WC; Konstas AG; Nelson LA; Kruft B
Ophthalmology 2008; 115: 1117-1122 (IGR: 10-3)

21839 Does peak intraocular pressure measured by water drinking test reflect peak circadian levels? A pilot study
Kumar RS; de Guzman MH; Ong PY; Goldberg I
Clinical and Experimental Ophthalmology 2008; 36: 312-315 (IGR: 10-3)

21847 Twenty-four-hour intraocular pressure and blood pressure levels with bimatoprost versus latanoprost in patients with normal-tension glaucoma
Quaranta L; Pizzolante T; Riva I; Haidich AB; Konstas AG; Stewart WC
British Journal of Ophthalmology 2008; 92: 1227-1231 (IGR: 10-3)

21444 Currents on target intraocular pressure and intraocular pressure fluctuations in glaucoma management
Detry-Morel M
Bulletin de la Société Belge d'Ophtalmologie 2008; 35-43 (IGR: 10-3)

21014 Circadian variation of aqueous dynamics in young healthy adults
Sit AJ; Nau CB; McLaren JW; Johnson DH; Hodge D
Investigative Ophthalmology and Visual Science 2008; 49: 1473-1479 (IGR: 10-2)

21114 Evaluation of circadian control of intraocular pressure after a single drop of bimatoprost 0.03% or travoprost 0.004%
Frenkel RE; Noecker RJ; Craven ER
Current Medical Research and Opinion 2008; 24: 919-923 (IGR: 10-2)

21293 Circadian rhythm dysfunction in glaucoma: A hypothesis
Jean-Louis G; Zizi F; Lazzaro DR; Wolintz AH
Journal of Circadian Rhythms 2008; 6: 1 (IGR: 10-2)

21401 Long-term intraocular pressure fluctuations and risk of conversion from ocular hypertension to glaucoma
Medeiros FA; Weinreb RN; Zangwill LM; Alencar LM; Sample PA; Vasile C; Bowd C
Ophthalmology 2008; 115: 934-940 (IGR: 10-2)

20512 Physiological diurnal variability and characteristics of the ocular pulse amplitude (OPA) with the dynamic contour tonometer (DCT-Pascal(registered trademark))
Pourjavan S; Boelle P-Y; Detry-Morel M; De Potter P
International Ophthalmology 2007; 27: 357-360 (IGR: 10-1)

20445 The Effect of Latanoprost, Bimatoprost, and Travoprost on Circadian Variation of Intraocular Pressure in Patients With Open-angle Glaucoma
Yildirim N; Sahin A; Gultekin S
Journal of Glaucoma 2008; 17: 36-39 (IGR: 10-1)

20405 Circadian changes of intraocular pressure and ocular perfusion pressure after timolol or latanoprost in Caucasians with normal-tension glaucoma
Costagliola C; Parmeggiani F; Virgili G; Lamberti G; Incorvaia C; Perri P; Campa C; Sebastiani A
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 389-396 (IGR: 10-1)

20855 Association of Central Corneal Thickness and 24-hour Intraocular Pressure Fluctuation
Mosaed S; Chamberlain WD; Liu JHK; Medeiros FA; Weinreb RN
Journal of Glaucoma 2008; 17: 85-88 (IGR: 10-1)

20464 Comparative study between diurnal intraocular pressure curve and the association of ambulatory intraocular pressure curve with the water-drinking test in open angle glaucoma, normal tension glaucoma and normal eyes
Meirelles SHS; Yamane R; Alvares RM; Botelho PB; Morais FB; Moreira PB; Dantas AM; de Moraes Jr HV
Arquivos Brasileiros de Oftalmologia 2007; 70: 471-479 (IGR: 10-1)

20828 Effect on Diurnal Intraocular Pressure Variation of Eliminating the α-2 Adrenergic Receptor Subtypes in the Mouse
Aihara M; Lindsey JD; Weinreb RN
Investigative Ophthalmology and Visual Science 2008; 49: 929-933 (IGR: 10-1)

20539 Diurnal variability of intraocular pressure
Jaen-Diaz JI; Cordero-Garcia B; Lopez-De-Castro F; De-Castro-Mesa C; Castilla-Lopez-Madridejos F; Berciano-Martinez F
Archivos de la Sociedad Española de Oftalmologia 2007; 82: 675-679 (IGR: 10-1)

20348 Inter-visit Intraocular Pressure Range: An Alternative Parameter for Assessing Intraocular Pressure Control in Clinical Trials
Varma R; Hwang LJ; Grunden JW; Bean GW
American Journal of Ophthalmology 2008; 145: 336-342 (IGR: 10-1)

20842 Circadian rhythms in the eye: The physiological significance of melatonin receptors in ocular tissues
Wiechmann AF; Summers JA
Progress in Retinal and Eye Research 2008; 27: 137-60 (IGR: 10-1)

20778 Quality of diurnal intraocular pressure control in primary open-angle patients treated with latanoprost compared with surgically treated glaucoma patients: a prospective trial
Mansouri K; Orguel S; Mermoud A; Haefliger I; Flammer J; Ravinet E; Shaarawy T
British Journal of Ophthalmology 2008; 92: 332-336 (IGR: 10-1)

20314 Comparison of intraocular pressure lowering effect of once daily morning vs evening dosing of latanoprost/timolol maleate combination
Takmaz T; Asik S; Kurkcuoglu P; Gurdal C; Can I
European Journal of Ophthalmology 2008; 18: 60-65 (IGR: 10-1)

20619 Long-term intraocular pressure fluctuation and visual field progression in glaucoma patients with low intraocular pressure after post-trabeculectomy phacoemulsification
Hong S; Kim CY; Seong GJ
Journal of Ocular Pharmacology and Therapeutics 2007; 23: 571-575 (IGR: 10-1)

19694 Use of a Bayesian network to predict the nighttime intraocular pressure peak from daytime measurements
Nordmann J-P; Berdeaux G
Clinical Therapeutics 2007; 29: 1751-1760 (IGR: 9-4)

20001 Comparison of the effects of bimatoprost and a fixed combination of latanoprost and timolol on circadian intraocular pressure
Rossetti L; Karabatsas CH; Topouzis F; Vetrugno M; Centofanti M; Boehm A; Viswanathan A; Vorwerk C; Goldblum D
Ophthalmology 2007; 114: 2244-2251 (IGR: 9-4)

20070 Diurnal variation of intraocular pressure in suspected glaucoma patients and their outcome
Tajunisah I; Reddy SC; Fathilah J
Graefe's Archive for Clinical and Experimental Ophthalmology 2007; 245: 1851-1857 (IGR: 9-4)

19975 Association between intraocular pressure variation and glaucoma progression: data from a United States chart review
Lee PP; Walt JW; Rosenblatt LC; Siegartel LR; Stern LS; Glaucoma Care Study Group
American Journal of Ophthalmology 2007; 144: 901-907 (IGR: 9-4)

19520 Fluctuations in intraocular pressure and the potential effect on aberrations of the eye
Asejczyk-Widlicka M; Pierscionek BK
British Journal of Ophthalmology 2007; 91: 1054-1058 (IGR: 9-3)

19386 Circadian rhythm of intraocular pressure in cats
Del Sole MJ; Sande PH; Bernades JM; Aba MA; Rosenstein RE
Veterinary Ophthalmology 2007; 10: 155-161 (IGR: 9-3)

19554 Diurnal intraocular pressure profiles and progression of chronic open-angle glaucoma
Jonas JB; Budde WM; Stroux A; Oberacher-Velten IM; Jünemann A
Eye 2007; 21: 948-951 (IGR: 9-3)

19536 Long-term intraocular pressure fluctuation and progressive visual field deterioration in patients with glaucoma and low intraocular pressures after a triple procedure
Hong S; Seong GJ; Hong YJ
Archives of Ophthalmology 2007; 125: 1010-1013 (IGR: 9-3)

18157 Concordance of diurnal intraocular pressure between fellow eyes in primary open-angle glaucoma
Dinn RB; Zimmerman MB; Shuba LM; Doan AP; Maley MK; Greenlee EC; Alward WL; Kwon YH
Ophthalmology 2007; 114: 915-920 (IGR: 9-2)

17581 Relationships between 24h observations in intraocular pressure vs blood pressure, heart rate, nitric oxide and age in the Medical Chronobiology Aging Project
Perlman JI; Delany CM; Sothern RB; Skolnick KA; Murray D; Jacobs RW; Shue JL; Kaplan E; Friedman NC; Nemchausky BA
Clinica Terapeutica 2007; 158: 31-47 (IGR: 9-2)

18115 Diurnal fluctuation and concordance of intraocular pressure in glaucoma suspects and normal tension glaucoma patients
Shuba LM; Doan AP; Maley MK; Zimmerman MB; Dinn RB; Greenlee EC; Alward WL; Kwon YH
Journal of Glaucoma 2007; 16: 307-312 (IGR: 9-2)

18190 24-h IOP control with latanoprost, travoprost, and bimatoprost in subjects with exfoliation syndrome and ocular hypertension
Hepsen IF; Ozkaya E
Eye 2007; 21: 453-458 (IGR: 9-2)

18163 Effect of laser trabeculoplasty on nocturnal intraocular pressure in medically treated glaucoma patients
Lee AC; Mosaed S; Weinreb RN; Kripke DF; Liu JH
Ophthalmology 2007; 114: 666-670 (IGR: 9-2)

16928 Fluctuation of intraocular pressure and glaucoma progression in the early manifest glaucoma trial
Bengtsson B; Leske MC; Hyman L; Heijl A; Early Manifest Glaucoma Trial Group
Ophthalmology 2007; 114: 205-209 (IGR: 9-1)

16877 Relation between office intraocular pressure and 24-hour intraocular pressure in patients with primary open-angle glaucoma treated with a combination of topical antiglaucoma eye drops
Nakakura S; Nomura Y; Ataka S; Shiraki K
Journal of Glaucoma 2007; 16: 201-204 (IGR: 9-1)

16911 Large diurnal variation of intraocular pressure despite maximal medical treatment in juvenile open angle glaucoma
Park SC; Kee C
Journal of Glaucoma 2007; 16: 164-168 (IGR: 9-1)

16955 Circadian intraocular pressure control with dorzolamide versus timolol maleate add-on treatments in primary open-angle glaucoma patients using latanoprost
Tamer C; Oksuz H
Ophthalmic Research 2007; 9: 24-31 (IGR: 9-1)

17056 Circadian rhythms and the organ of sight
Urban E; Misiuk-Hojlo M; Kasprzak-Smolarek P; Rusiecka-Ziolkowska J
Advances in Clinical and Experimental Medicine 2006; 15: 953-957 (IGR: 9-1)

17185 Intraocular pressure measurement during the day and night for glaucoma patients and normal controls using Goldmann and Perkins applanation tonometry
Wozniak K; Koller AU; Sporl E; Bohm AG; Pillunat LE
Ophthalmologe 2006; 103: 1027-1031 (IGR: 9-1)

17018 Circadian fluctuation of mean ocular perfusion pressure is a consistent risk factor for normal-tension glaucoma
Choi J; Kim KH; Jeong J; Cho HS; Lee CH; Kook MS
Investigative Ophthalmology and Visual Science 2007; 48: 104-111 (IGR: 9-1)

17175 Comparison of diurnal intraocular pressure control by latanoprost versus travoprost: Results of an observational survey
Denis P; Launois R; Devaux M; Berdeaux G
Clinical Drug Investigation 2006; 26: 703-714 (IGR: 9-1)

17177 Diurnal variation of intraocular pressure following trabeculectomy with adjunct use of mitomycin C
Fukuda T; Nakamoto K; Yasuda N; Furusawa C
Japanese Journal of Clinical Ophthalmology 2006; 60: 1961-1963 (IGR: 9-1)

6.11 Bloodflow measurements (4511 abstracts found)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
El-Nimri NW; El-Nimri NW
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Hohberger B
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Shoji MK
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94355 Relationship between peripapillary vessel density and visual function based on Garway-Heath sectorization in open-angle glaucoma
Kwon JM
Indian Journal of Ophthalmology 2021; 69: 1825-1832 (IGR: 22-2)

94361 Colour Doppler imaging of retrobulbar circulation in different severity of glaucoma optic neuropathy
Zegadło A
Medical ultrasonography 2021; 0: (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Yun YI
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Cano J
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Juliano J
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94638 Does hemispheric vascular regulation differ significantly in glaucoma patients with altitudinal visual field asymmetry? A single-center, prospective study
Kuerten D
International Ophthalmology 2021; 41: 3109-3119 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Leshno A
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Hong KL
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Hou H; Hou H; Hou H
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94793 Diagnostic performance of laser speckle flowgraphy in glaucoma: a systematic review and meta-analysis
Gu C
International Ophthalmology 2021; 0: (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Lee SY
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94848 Vessel Density Loss of the Deep Peripapillary Area in Glaucoma Suspects and Its Association with Features of the Lamina Cribrosa
Jeon SJ
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Phillips MJ
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Rao HL
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
You QS
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Re R
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94946 Change of Retinal Vessels in Different Sectors of the Parapapillary Area in Primary Open-Angle Glaucoma
Cheng J
Frontiers in medicine 2021; 8: 705829 (IGR: 22-2)

94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Song MK
Scientific reports 2021; 11: 15181 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Manalastas PIC
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Hosari S; Hosari S
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Cousins CC
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94355 Relationship between peripapillary vessel density and visual function based on Garway-Heath sectorization in open-angle glaucoma
Park K
Indian Journal of Ophthalmology 2021; 69: 1825-1832 (IGR: 22-2)

94361 Colour Doppler imaging of retrobulbar circulation in different severity of glaucoma optic neuropathy
Wierzbowska J
Medical ultrasonography 2021; 0: (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Kim YW
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Rahimi M
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Burkemper B
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94638 Does hemispheric vascular regulation differ significantly in glaucoma patients with altitudinal visual field asymmetry? A single-center, prospective study
Kotliar K
International Ophthalmology 2021; 41: 3109-3119 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Stern O
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Burkemper B
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Moghimi S
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94793 Diagnostic performance of laser speckle flowgraphy in glaucoma: a systematic review and meta-analysis
Li A
International Ophthalmology 2021; 0: (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Son NH
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94848 Vessel Density Loss of the Deep Peripapillary Area in Glaucoma Suspects and Its Association with Features of the Lamina Cribrosa
Park HL
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Dinh-Dang D
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Dasari S
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Tan O
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Messenio D
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94946 Change of Retinal Vessels in Different Sectors of the Parapapillary Area in Primary Open-Angle Glaucoma
Zhao H
Frontiers in medicine 2021; 8: 705829 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Wang X
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Shin JW
Scientific reports 2021; 11: 15181 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Zangwill LM
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Wallukat G
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Saini C
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94355 Relationship between peripapillary vessel density and visual function based on Garway-Heath sectorization in open-angle glaucoma
Kim S
Indian Journal of Ophthalmology 2021; 69: 1825-1832 (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Lim HB
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Xu BY
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Lee J
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94638 Does hemispheric vascular regulation differ significantly in glaucoma patients with altitudinal visual field asymmetry? A single-center, prospective study
Fuest M
International Ophthalmology 2021; 41: 3109-3119 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Barkana Y
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Urrea AL
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Kamalipour A
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94793 Diagnostic performance of laser speckle flowgraphy in glaucoma: a systematic review and meta-analysis
Yu L
International Ophthalmology 2021; 0: (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Bae HW
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94848 Vessel Density Loss of the Deep Peripapillary Area in Glaucoma Suspects and Its Association with Features of the Lamina Cribrosa
Park CK
Journal of clinical medicine 2021; 10: (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Bolo K
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Puttaiah NK
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Pi S
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Marano G
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94946 Change of Retinal Vessels in Different Sectors of the Parapapillary Area in Primary Open-Angle Glaucoma
Jiang C
Frontiers in medicine 2021; 8: 705829 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Dai Y
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Lee JY
Scientific reports 2021; 11: 15181 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Proudfoot JA
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Kunze R
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Nascimento E Silva R
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94355 Relationship between peripapillary vessel density and visual function based on Garway-Heath sectorization in open-angle glaucoma
Shin J
Indian Journal of Ophthalmology 2021; 69: 1825-1832 (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Lee DH
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Richter GM
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Nelson A
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94638 Does hemispheric vascular regulation differ significantly in glaucoma patients with altitudinal visual field asymmetry? A single-center, prospective study
Walter P
International Ophthalmology 2021; 41: 3109-3119 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Kapelushnik N; Kapelushnik N
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Chang BR
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Ekici E
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Seong GJ
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Burkemper B
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Pradhan ZS
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Liu L
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Spinelli L
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94946 Change of Retinal Vessels in Different Sectors of the Parapapillary Area in Primary Open-Angle Glaucoma
Kong X
Frontiers in medicine 2021; 8: 705829 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Qiu C
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Hong JW
Scientific reports 2021; 11: 15181 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Bowd C
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Krebs J
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Wang M
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Kim JH
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Tan O
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
LeTran V
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94638 Does hemispheric vascular regulation differ significantly in glaucoma patients with altitudinal visual field asymmetry? A single-center, prospective study
Hollstein M
International Ophthalmology 2021; 41: 3109-3119 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Singer R
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Lee JC
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Oh WH
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94816 The role of pattern electroretinograms and optical coherence tomography angiography in the diagnosis of normal-tension glaucoma
Kim CY
Scientific reports 2021; 11: 12257 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Lee JC
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Moghimi S
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Wei P
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Pirovano I
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94946 Change of Retinal Vessels in Different Sectors of the Parapapillary Area in Primary Open-Angle Glaucoma
Sun X
Frontiers in medicine 2021; 8: 705829 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Shang K
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Kook MS
Scientific reports 2021; 11: 15181 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Hou H; Hou H; Hou H
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Müller M
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Brauner SC
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Oh BL
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Huang D
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Chu Z
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94638 Does hemispheric vascular regulation differ significantly in glaucoma patients with altitudinal visual field asymmetry? A single-center, prospective study
Plange N
International Ophthalmology 2021; 41: 3109-3119 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Prat DL
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
LeTran VH; LeTran VH
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Proudfoot JA
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
LeTran VH; LeTran VH
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Mansouri K
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Chen A
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Contini D
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94979 Effect of Nimodipine on Macular and Peripapillary Capillary Vessel Density in Patients with Normal-tension Glaucoma Using Optical Coherence Tomography Angiography
Sun X
Current Eye Research 2021; 0: 1-6 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Moghimi S
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Hennig T
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Greenstein SH
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Jeoung JW
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94475 Relationship Between Macular Vessel Density and Total Retinal Blood Flow in Primary Open-angle Glaucoma
Shahidi M
Journal of Glaucoma 2021; 30: 666-671 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Zhou G
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Cohen G
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Chu Z
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
El-Nimri N
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Chang BR
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Webers CA
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Ing E
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Colombo R
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Penteado RC
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Lämmer R
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Pasquale LR
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94410 Peripapillary vessel parameters and mean ocular perfusion pressure in young healthy eyes: OCT angiography study
Park KH
British Journal of Ophthalmology 2021; 105: 862-868 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Jiang X
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Ben-David G
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Zhou X
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Penteado RC
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Grisafe DJ
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94859 Optical microangiography and progressive retinal nerve fiber layer loss in primary open angle glaucoma
Weinreb RN
American Journal of Ophthalmology 2022; 233: 171-179 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Jia Y
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Boracchi P
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Rezapour J
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Horn F
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94353 Paired Optic Nerve Microvasculature and Nailfold Capillary Measurements in Primary Open-Angle Glaucoma
Shen LQ
Translational vision science & technology 2021; 10: 13 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Wang RK
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Abrahami D
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Xu BY
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Nishida T
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Chu Z
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94871 Effect of algorithms and covariates in glaucoma diagnosis with optical coherence tomography angiography
Huang D
British Journal of Ophthalmology 2022; 106: 1703-1709 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Biganzoli E
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Ekici E
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Muñoz LE
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Varma R
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Huna-Baron R
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Wong BJ
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
David RC
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Zhou X
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Cubeddu R
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Shoji T
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Herrmann M
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94551 Longer Axial Length Potentiates Relationship of Intraocular Pressure and Peripapillary Vessel Density in Glaucoma Patients
Richter GM
Investigative Ophthalmology and Visual Science 2021; 62: 37 (IGR: 22-2)

94702 Ocular surface temperature differences in glaucoma
Skaat A
European Journal of Ophthalmology 2021; 0: 11206721211023723 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Song BJ
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94785 Macular Thickness and Microvasculature Loss in Glaucoma Suspect Eyes
Weinreb RN
Ophthalmology. Glaucoma 2022; 5: 170-178 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Song BJ
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94908 Monitoring the haemodynamic response to visual stimulation in glaucoma patients
Torricelli A
Scientific reports 2021; 11: 13567 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Ghahari E
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94314 Agonistic autoantibodies against ß2-adrenergic receptor influence retinal microcirculation in glaucoma suspects and patients
Mardin C
PLoS ONE 2021; 16: e0249202 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Jiang X
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Xu BY
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Yarmohammadi A
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Wang RK
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Wong B
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94211 Superficial and Deep Macula Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Weinreb RN
Journal of Glaucoma 2021; 30: e276-e284 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Varma R
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Wang RK
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

94732 Hemiretinal Asymmetry in Peripapillary Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Richter GM
American Journal of Ophthalmology 2021; 230: 156-165 (IGR: 22-2)

94853 Steps to Measurement Floor of an Optical Microangiography Device in Glaucoma
Richter GM
American Journal of Ophthalmology 2021; 231: 58-69 (IGR: 22-2)

91909 Clinical features of microvasculature in subzones of parapapillary atrophy in myopic eyes: an OCT-angiography study
Hu X
Eye 2021; 35: 455-463 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Ye C
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

91971 An Increased Choroidal Microvasculature Dropout Size is Associated With Progressive Visual Field Loss in Open-Angle Glaucoma
Lee JY
American Journal of Ophthalmology 2021; 223: 205-219 (IGR: 22-1)

92018 Vessel density in early-stage primary open angle glaucoma and pseudoexfoliation glaucoma: a comparative controlled optical coherence tomography angiography study
Onur IU
Arquivos Brasileiros de Oftalmologia 2021; 84: 352-360 (IGR: 22-1)

92051 Circumpapillary optical coherence tomography angiography differences in perimetrically affected and unaffected hemispheres in primary open-angle glaucoma and the preperimetric fellow eye
Sihota R
Indian Journal of Ophthalmology 2021; 69: 1120-1126 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
WuDunn D
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Bhalla M
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92086 Retinal vessel density in primary open-angle glaucoma with a hemifield defect
Wang XL
Chinese Journal of Ophthalmology 2021; 57: 201-206 (IGR: 22-1)

92117 Vascular Aspects in Glaucoma: From Pathogenesis to Therapeutic Approaches
Mursch-Edlmayr AS
International journal of molecular sciences 2021; 22: (IGR: 22-1)

92124 Glaucoma diagnostic capabilities of macular vessel density on optical coherence tomography angiography: superficial versus deep layers
Lee JY
British Journal of Ophthalmology 2022; 106: 1252-1257 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Huo Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92307 Optical coherence tomography angiography (OCT-A) : Overview of the technique and the possible clinical and scientific applications
Alnawaiseh M
Ophthalmologe 2021; 118: 617-629 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Tan BH
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Kamalipour A
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Rao HL
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92454 Changes in peripapillary and macular vascular density after laser selective trabeculoplasty: an optical coherence tomography angiography study
Gillmann K
Acta Ophthalmologica 2022; 100: 203-211 (IGR: 22-1)

92465 Bilateral Ocular Ischemic Syndrome in the Setting of Chronic Angle Closure Glaucoma
Naravane AV
Journal of Glaucoma 2021; 30: e262-e264 (IGR: 22-1)

92493 Cut-Off Values of Foveal Vascular Indices in Exfoliation Glaucoma
Kocatürk T
Clinical Ophthalmology 2021; 15: 1453-1462 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Li F
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92533 Juxtapapillary Deep-Layer Microvasculature Dropout and Retinal Nerve Fiber Layer Thinning in Glaucoma
Kwon JM
American Journal of Ophthalmology 2021; 227: 154-165 (IGR: 22-1)

92561 Commentary review on peripapillary morphological characteristics in high myopia eyes with glaucoma: diagnostic challenges and strategies
Chen YH
International Journal of Ophthalmology 2021; 14: 600-605 (IGR: 22-1)

92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Hohberger B
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)

92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Bansal T
Journal of Glaucoma 2021; 30: 697-702 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Baptista PM
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Jo YH
Journal of Glaucoma 2021; 30: 672-681 (IGR: 22-1)

92673 Parapapillary deep-layer microvasculature dropout is only found near the retinal nerve fibre layer defect location in open-angle glaucoma
Son KY
Acta Ophthalmologica 2022; 100: e174-e180 (IGR: 22-1)

92735 Microvascular and structural alterations in the optic nerve head of advanced primary open-angle glaucoma compared with atrophic non-arteritic anterior ischemic optic neuropathy
Hondur G
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1945-1953 (IGR: 22-1)

92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Miraftabi A
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)

92778 Parapapillary Intrachoroidal Cavitation in Glaucoma: Association with Choroidal Microvasculature Dropout
Kim J
Korean Journal of Ophthalmology 2021; 35: 44-50 (IGR: 22-1)

92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Kiyota N
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)

91909 Clinical features of microvasculature in subzones of parapapillary atrophy in myopic eyes: an OCT-angiography study
Shang K
Eye 2021; 35: 455-463 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Wang X
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

91971 An Increased Choroidal Microvasculature Dropout Size is Associated With Progressive Visual Field Loss in Open-Angle Glaucoma
Shin JW
American Journal of Ophthalmology 2021; 223: 205-219 (IGR: 22-1)

92018 Vessel density in early-stage primary open angle glaucoma and pseudoexfoliation glaucoma: a comparative controlled optical coherence tomography angiography study
Acar OPA
Arquivos Brasileiros de Oftalmologia 2021; 84: 352-360 (IGR: 22-1)

92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Czajor K
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)

92051 Circumpapillary optical coherence tomography angiography differences in perimetrically affected and unaffected hemispheres in primary open-angle glaucoma and the preperimetric fellow eye
Shakrawal J
Indian Journal of Ophthalmology 2021; 69: 1120-1126 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Takusagawa HL
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Heisler M
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92086 Retinal vessel density in primary open-angle glaucoma with a hemifield defect
Sun XH
Chinese Journal of Ophthalmology 2021; 57: 201-206 (IGR: 22-1)

92117 Vascular Aspects in Glaucoma: From Pathogenesis to Therapeutic Approaches
Bolz M
International journal of molecular sciences 2021; 22: (IGR: 22-1)

92124 Glaucoma diagnostic capabilities of macular vessel density on optical coherence tomography angiography: superficial versus deep layers
Shin JW
British Journal of Ophthalmology 2022; 106: 1252-1257 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Thomas R
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92307 Optical coherence tomography angiography (OCT-A) : Overview of the technique and the possible clinical and scientific applications
Leclaire MD
Ophthalmologe 2021; 118: 617-629 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Young A
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Moghimi S
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Srinivasan T
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92454 Changes in peripapillary and macular vascular density after laser selective trabeculoplasty: an optical coherence tomography angiography study
Rao HL
Acta Ophthalmologica 2022; 100: 203-211 (IGR: 22-1)

92465 Bilateral Ocular Ischemic Syndrome in the Setting of Chronic Angle Closure Glaucoma
Mallory PW
Journal of Glaucoma 2021; 30: e262-e264 (IGR: 22-1)

92493 Cut-Off Values of Foveal Vascular Indices in Exfoliation Glaucoma
Zivkovic M
Clinical Ophthalmology 2021; 15: 1453-1462 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Lin F
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92533 Juxtapapillary Deep-Layer Microvasculature Dropout and Retinal Nerve Fiber Layer Thinning in Glaucoma
Weinreb RN
American Journal of Ophthalmology 2021; 227: 154-165 (IGR: 22-1)

92561 Commentary review on peripapillary morphological characteristics in high myopia eyes with glaucoma: diagnostic challenges and strategies
Wei RH
International Journal of Ophthalmology 2021; 14: 600-605 (IGR: 22-1)

92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Lucio M
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)

92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Dubey S
Journal of Glaucoma 2021; 30: 697-702 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Vieira R; Vieira R
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Shin JW
Journal of Glaucoma 2021; 30: 672-681 (IGR: 22-1)

92673 Parapapillary deep-layer microvasculature dropout is only found near the retinal nerve fibre layer defect location in open-angle glaucoma
Han JC
Acta Ophthalmologica 2022; 100: e174-e180 (IGR: 22-1)

92735 Microvascular and structural alterations in the optic nerve head of advanced primary open-angle glaucoma compared with atrophic non-arteritic anterior ischemic optic neuropathy
Sen E
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1945-1953 (IGR: 22-1)

92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Jafari S
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)

92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Shiga Y
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)

91909 Clinical features of microvasculature in subzones of parapapillary atrophy in myopic eyes: an OCT-angiography study
Chen X
Eye 2021; 35: 455-463 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Yu MC
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

91971 An Increased Choroidal Microvasculature Dropout Size is Associated With Progressive Visual Field Loss in Open-Angle Glaucoma
Song MK
American Journal of Ophthalmology 2021; 223: 205-219 (IGR: 22-1)

92018 Vessel density in early-stage primary open angle glaucoma and pseudoexfoliation glaucoma: a comparative controlled optical coherence tomography angiography study
Cavusoglu E
Arquivos Brasileiros de Oftalmologia 2021; 84: 352-360 (IGR: 22-1)

92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Iskander DR
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)

92051 Circumpapillary optical coherence tomography angiography differences in perimetrically affected and unaffected hemispheres in primary open-angle glaucoma and the preperimetric fellow eye
Azad SV
Indian Journal of Ophthalmology 2021; 69: 1120-1126 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Sit AJ
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Mammo Z
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92117 Vascular Aspects in Glaucoma: From Pathogenesis to Therapeutic Approaches
Strohmaier C
International journal of molecular sciences 2021; 22: (IGR: 22-1)

92124 Glaucoma diagnostic capabilities of macular vessel density on optical coherence tomography angiography: superficial versus deep layers
Song MK
British Journal of Ophthalmology 2022; 106: 1252-1257 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Guo Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92307 Optical coherence tomography angiography (OCT-A) : Overview of the technique and the possible clinical and scientific applications
Eter N
Ophthalmologe 2021; 118: 617-629 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Bianchi E
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Hou H; Hou H; Hou H
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Pradhan ZS
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92454 Changes in peripapillary and macular vascular density after laser selective trabeculoplasty: an optical coherence tomography angiography study
Mansouri K
Acta Ophthalmologica 2022; 100: 203-211 (IGR: 22-1)

92465 Bilateral Ocular Ischemic Syndrome in the Setting of Chronic Angle Closure Glaucoma
Boysen J
Journal of Glaucoma 2021; 30: e262-e264 (IGR: 22-1)

92493 Cut-Off Values of Foveal Vascular Indices in Exfoliation Glaucoma
Dayanır V
Clinical Ophthalmology 2021; 15: 1453-1462 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Gao K
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92533 Juxtapapillary Deep-Layer Microvasculature Dropout and Retinal Nerve Fiber Layer Thinning in Glaucoma
Zangwill LM
American Journal of Ophthalmology 2021; 227: 154-165 (IGR: 22-1)

92561 Commentary review on peripapillary morphological characteristics in high myopia eyes with glaucoma: diagnostic challenges and strategies
Hui YN
International Journal of Ophthalmology 2021; 14: 600-605 (IGR: 22-1)

92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Schlick S
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)

92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Rao HL
Journal of Glaucoma 2021; 30: 697-702 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Ferreira A
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Song MK
Journal of Glaucoma 2021; 30: 672-681 (IGR: 22-1)

92673 Parapapillary deep-layer microvasculature dropout is only found near the retinal nerve fibre layer defect location in open-angle glaucoma
Kee C
Acta Ophthalmologica 2022; 100: e174-e180 (IGR: 22-1)

92735 Microvascular and structural alterations in the optic nerve head of advanced primary open-angle glaucoma compared with atrophic non-arteritic anterior ischemic optic neuropathy
Budakoglu O
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1945-1953 (IGR: 22-1)

92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Nilforushan N
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)

92778 Parapapillary Intrachoroidal Cavitation in Glaucoma: Association with Choroidal Microvasculature Dropout
Lee EJ
Korean Journal of Ophthalmology 2021; 35: 44-50 (IGR: 22-1)

92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Omodaka K
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)

91909 Clinical features of microvasculature in subzones of parapapillary atrophy in myopic eyes: an OCT-angiography study
Sun X
Eye 2021; 35: 455-463 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Shang X
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

91971 An Increased Choroidal Microvasculature Dropout Size is Associated With Progressive Visual Field Loss in Open-Angle Glaucoma
Hong JW
American Journal of Ophthalmology 2021; 223: 205-219 (IGR: 22-1)

92018 Vessel density in early-stage primary open angle glaucoma and pseudoexfoliation glaucoma: a comparative controlled optical coherence tomography angiography study
Yigit FU
Arquivos Brasileiros de Oftalmologia 2021; 84: 352-360 (IGR: 22-1)

92051 Circumpapillary optical coherence tomography angiography differences in perimetrically affected and unaffected hemispheres in primary open-angle glaucoma and the preperimetric fellow eye
Kamble N
Indian Journal of Ophthalmology 2021; 69: 1120-1126 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Rosdahl JA
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Ju MJ
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92124 Glaucoma diagnostic capabilities of macular vessel density on optical coherence tomography angiography: superficial versus deep layers
Hong JW
British Journal of Ophthalmology 2022; 106: 1252-1257 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Zhang W
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Brown L
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Penteado RC
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Sreenivasaiah S
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92465 Bilateral Ocular Ischemic Syndrome in the Setting of Chronic Angle Closure Glaucoma
Koozekanani D
Journal of Glaucoma 2021; 30: e262-e264 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Cheng W
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92533 Juxtapapillary Deep-Layer Microvasculature Dropout and Retinal Nerve Fiber Layer Thinning in Glaucoma
Suh MH
American Journal of Ophthalmology 2021; 227: 154-165 (IGR: 22-1)

92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Wollborn A
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)

92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Gandhi M
Journal of Glaucoma 2021; 30: 697-702 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Figueiredo A
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Won HJ
Journal of Glaucoma 2021; 30: 672-681 (IGR: 22-1)

92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Abdolalizadeh P
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)

92778 Parapapillary Intrachoroidal Cavitation in Glaucoma: Association with Choroidal Microvasculature Dropout
Kim TW
Korean Journal of Ophthalmology 2021; 35: 44-50 (IGR: 22-1)

92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Pak K
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)

91909 Clinical features of microvasculature in subzones of parapapillary atrophy in myopic eyes: an OCT-angiography study
Dai Y
Eye 2021; 35: 455-463 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Zhou K
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

91971 An Increased Choroidal Microvasculature Dropout Size is Associated With Progressive Visual Field Loss in Open-Angle Glaucoma
Kook MS
American Journal of Ophthalmology 2021; 223: 205-219 (IGR: 22-1)

92051 Circumpapillary optical coherence tomography angiography differences in perimetrically affected and unaffected hemispheres in primary open-angle glaucoma and the preperimetric fellow eye
Dada T
Indian Journal of Ophthalmology 2021; 69: 1120-1126 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Radhakrishnan S
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92124 Glaucoma diagnostic capabilities of macular vessel density on optical coherence tomography angiography: superficial versus deep layers
Kook MS
British Journal of Ophthalmology 2022; 106: 1252-1257 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Li L
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92370 Fluctuation in Blood Pressure and Intraocular Pressure in Normal Tension Glaucoma Using Ambulatory Monitoring
Tatham AJ
Journal of Glaucoma 2021; 30: 304-311 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Oh WH
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Rao DAS
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92465 Bilateral Ocular Ischemic Syndrome in the Setting of Chronic Angle Closure Glaucoma
Lee MS
Journal of Glaucoma 2021; 30: e262-e264 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Song Y
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Hosari S; Hosari S
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)

92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Pegu J
Journal of Glaucoma 2021; 30: 697-702 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Sampaio I; Sampaio I
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Kook MS
Journal of Glaucoma 2021; 30: 672-681 (IGR: 22-1)

92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Rakhshan R
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)

92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Nakazawa T
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Tao Y
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Hoguet A
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Cao K
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Proudfoot JA
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Puttaiah NK
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Liu Y
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Mardin C
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Reis R
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Lu F
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Han Y
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Warner S
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Wang H
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
El-Nimri N
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Devi S
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Wang YM
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Menéres MJ
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)

91945 Progression of Macular Vessel Density in Primary Open-Angle Glaucoma: A Longitudinal Study
Liang Y
American Journal of Ophthalmology 2021; 223: 259-266 (IGR: 22-1)

92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Chen TC
Ophthalmology 2021; 128: 1222-1235 (IGR: 22-1)

92144 Superficial macular vessel density in eyes with mild, moderate, and severe primary open-angle glaucoma
Wang N
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1955-1963 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Ekici E
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Moghimi S
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Lam A
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Gill KS
Journal of Glaucoma 2021; 30: 682-689 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Rezapour J
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Mansouri K
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Tham CC
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Zangwill LM
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Webers CAB
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Cheung C
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Bowd C
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92449 Optical Coherence Tomography Angiography and Visual Field Progression in Primary Angle Closure Glaucoma
Weinreb RN
Journal of Glaucoma 2021; 30: e61-e67 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Zhang X
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

92441 OCT Angiography Artifacts in Glaucoma
Weinreb RN
Ophthalmology 2021; 128: 1426-1437 (IGR: 22-1)

92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Zangwill LM
British Journal of Ophthalmology 2022; 106: 1245-1251 (IGR: 22-1)

90911 Vasculat treatment concepts in glaucoma patients
Pillunat KR
Ophthalmologe 2021; 118: 431-438 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Lin TPH; Lin TPH
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91041 Comparison of Peripapillary Choroidal Microvasculature Dropout in Primary Open-angle, Primary Angle-closure, and Pseudoexfoliation Glaucoma
Jo YH
Journal of Glaucoma 2020; 29: 1152-1157 (IGR: 21-4)

91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Lommatzsch C
Ocular Immunology and Inflammation 2020; 0: 1-7 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Hirasawa K
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91115 Peripapillary perfused capillary density in true versus pseudoexfoliation syndrome: An OCTA study
Tangtammaruk P
PLoS ONE 2020; 15: e0239109 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Liu K
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
de Paula A
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Miguel A; Miguel A
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91274 Ophthalmic Artery and Superior Ophthalmic Vein Blood Flow Dynamics in Glaucoma Investigated by Phase Contrast Magnetic Resonance Imaging
Promelle V
Journal of Glaucoma 2021; 30: 65-70 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Dascalu AM
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91333 Association Between Progressive Retinal Capillary Density Loss and Visual Field Progression in Open-Angle Glaucoma Patients According to Disease Stage
Shin JW
American Journal of Ophthalmology 2021; 226: 137-147 (IGR: 21-4)

91335 A software for quantification of vessel density in glaucoma: An OCT-Angiography study
Miguel A; Miguel A
Journal Français d'Ophtalmologie 2021; 44: 376-381 (IGR: 21-4)

91338 Effect of retinal protective therapy on optical coherence tomography angiography (pilot study)
Dorofeev DA
Vestnik Oftalmologii 2021; 137: 60-67 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Shoji T
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91366 Examination of retinal vascular density changes via optical coherence tomography angiography in patients with glaucoma
Durmuş Ece BŞ
International Ophthalmology 2021; 41: 687-698 (IGR: 21-4)

91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Lee JS
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Nowrouzi A
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91515 Association between Systemic Antioxidant Capacity and Retinal Vessel Diameters in Patients with Primary-Open Angle Glaucoma
Takayanagi Y; Takayanagi Y
Life (Basel, Switzerland) 2020; 10: (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Aghsaei Fard M
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91536 Comparison of ophthalmic artery blood flow between open-angle glaucoma and nonglaucomatous eyes of Indian patients
Mathur V
Oman journal of ophthalmology 2020; 13: 112-116 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Cheng KKW
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Al-Nosairy KO; Al-Nosairy KO
Translational vision science & technology 2020; 9: 7 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Milani P
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91569 Optical coherence tomography angiography in juvenile open angle glaucoma: correlation between structure and perfusion
Abdelrahman AM
International Ophthalmology 2021; 41: 883-889 (IGR: 21-4)

91604 OCT angiography analysis of retinal vessel density in primary open-angle glaucoma with and without Tafluprost therapy
Weindler H
BMC Ophthalmology 2020; 20: 444 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Lee T
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91690 Assessment of Cerebral Vasomotor Reactivity in Patients With Primary Open-angle Glaucoma and Ocular Hypertension Using the Breath-Holding Index
Arslan GD
Journal of Glaucoma 2021; 30: 157-163 (IGR: 21-4)

91775 Effect of Rho Kinase Inhibitor Ripasudil (K-115) on Isolated Porcine Retinal Arterioles
Kamiya T
Journal of Ocular Pharmacology and Therapeutics 2021; 37: 104-111 (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Kee AR
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Shin JW
Scientific reports 2021; 11: 206 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Akagi T
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91834 Association of Nailfold Capillary Abnormalities With Primary Open-angle Glaucoma and Glaucomatous Visual Field Loss
Goh H
Journal of Glaucoma 2021; 30: 50-57 (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Nascimento E Silva R
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90911 Vasculat treatment concepts in glaucoma patients
Pillunat LE
Ophthalmologe 2021; 118: 431-438 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wang YM
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91041 Comparison of Peripapillary Choroidal Microvasculature Dropout in Primary Open-angle, Primary Angle-closure, and Pseudoexfoliation Glaucoma
Sung KR
Journal of Glaucoma 2020; 29: 1152-1157 (IGR: 21-4)

91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Bauermann P
Ocular Immunology and Inflammation 2020; 0: 1-7 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Smith CA
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91115 Peripapillary perfused capillary density in true versus pseudoexfoliation syndrome: An OCTA study
Petpiroon P
PLoS ONE 2020; 15: e0239109 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Xu H
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Perdicchi A
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Silva A
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91274 Ophthalmic Artery and Superior Ophthalmic Vein Blood Flow Dynamics in Glaucoma Investigated by Phase Contrast Magnetic Resonance Imaging
Bouzerar R
Journal of Glaucoma 2021; 30: 65-70 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Stana D
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91333 Association Between Progressive Retinal Capillary Density Loss and Visual Field Progression in Open-Angle Glaucoma Patients According to Disease Stage
Song MK
American Journal of Ophthalmology 2021; 226: 137-147 (IGR: 21-4)

91335 A software for quantification of vessel density in glaucoma: An OCT-Angiography study
Legeai J
Journal Français d'Ophtalmologie 2021; 44: 376-381 (IGR: 21-4)

91338 Effect of retinal protective therapy on optical coherence tomography angiography (pilot study)
Kirilik EV
Vestnik Oftalmologii 2021; 137: 60-67 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Kanno J
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91366 Examination of retinal vascular density changes via optical coherence tomography angiography in patients with glaucoma
Sarıcaoğlu MS
International Ophthalmology 2021; 41: 687-698 (IGR: 21-4)

91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Lee WJ
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)

91515 Association between Systemic Antioxidant Capacity and Retinal Vessel Diameters in Patients with Primary-Open Angle Glaucoma
Takai Y
Life (Basel, Switzerland) 2020; 10: (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Safizadeh M
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91536 Comparison of ophthalmic artery blood flow between open-angle glaucoma and nonglaucomatous eyes of Indian patients
Saini H
Oman journal of ophthalmology 2020; 13: 112-116 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Tan BL
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Prabhakaran GT
Translational vision science & technology 2020; 9: 7 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Urbini LE
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91569 Optical coherence tomography angiography in juvenile open angle glaucoma: correlation between structure and perfusion
Eltanamly RM
International Ophthalmology 2021; 41: 883-889 (IGR: 21-4)

91604 OCT angiography analysis of retinal vessel density in primary open-angle glaucoma with and without Tafluprost therapy
Spitzer MS
BMC Ophthalmology 2020; 20: 444 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Seo DR
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91690 Assessment of Cerebral Vasomotor Reactivity in Patients With Primary Open-angle Glaucoma and Ocular Hypertension Using the Breath-Holding Index
Olgun A
Journal of Glaucoma 2021; 30: 157-163 (IGR: 21-4)

91775 Effect of Rho Kinase Inhibitor Ripasudil (K-115) on Isolated Porcine Retinal Arterioles
Omae T
Journal of Ocular Pharmacology and Therapeutics 2021; 37: 104-111 (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Yip VCH
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Jo YH
Scientific reports 2021; 11: 206 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Okamoto Y
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91834 Association of Nailfold Capillary Abnormalities With Primary Open-angle Glaucoma and Glaucomatous Visual Field Loss
Kersten HM
Journal of Glaucoma 2021; 30: 50-57 (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Chiou CA
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Ho K
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91041 Comparison of Peripapillary Choroidal Microvasculature Dropout in Primary Open-angle, Primary Angle-closure, and Pseudoexfoliation Glaucoma
Shin JW
Journal of Glaucoma 2020; 29: 1152-1157 (IGR: 21-4)

91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Heimes-Bussmann B
Ocular Immunology and Inflammation 2020; 0: 1-7 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
West ME
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91115 Peripapillary perfused capillary density in true versus pseudoexfoliation syndrome: An OCTA study
Supakonatanasan W
PLoS ONE 2020; 15: e0239109 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Jiang H
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Di Tizio F
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Barbosa-Breda J
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91274 Ophthalmic Artery and Superior Ophthalmic Vein Blood Flow Dynamics in Glaucoma Investigated by Phase Contrast Magnetic Resonance Imaging
Daouk J
Journal of Glaucoma 2021; 30: 65-70 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Nicolae VA
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91333 Association Between Progressive Retinal Capillary Density Loss and Visual Field Progression in Open-Angle Glaucoma Patients According to Disease Stage
Kook MS
American Journal of Ophthalmology 2021; 226: 137-147 (IGR: 21-4)

91335 A software for quantification of vessel density in glaucoma: An OCT-Angiography study
Silva B
Journal Français d'Ophtalmologie 2021; 44: 376-381 (IGR: 21-4)

91338 Effect of retinal protective therapy on optical coherence tomography angiography (pilot study)
Klimova AV
Vestnik Oftalmologii 2021; 137: 60-67 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Weinreb RN
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Lim HW
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Kafi-Abasabadi S
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91515 Association between Systemic Antioxidant Capacity and Retinal Vessel Diameters in Patients with Primary-Open Angle Glaucoma
Kaidzu S
Life (Basel, Switzerland) 2020; 10: (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Shaabani A
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91536 Comparison of ophthalmic artery blood flow between open-angle glaucoma and nonglaucomatous eyes of Indian patients
Chaturvedi PK
Oman journal of ophthalmology 2020; 13: 112-116 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Brown L
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Pappelis K
Translational vision science & technology 2020; 9: 7 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Bulone E
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91569 Optical coherence tomography angiography in juvenile open angle glaucoma: correlation between structure and perfusion
Elsanabary Z
International Ophthalmology 2021; 41: 883-889 (IGR: 21-4)

91604 OCT angiography analysis of retinal vessel density in primary open-angle glaucoma with and without Tafluprost therapy
Schultheiß M
BMC Ophthalmology 2020; 20: 444 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Kim JY
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91690 Assessment of Cerebral Vasomotor Reactivity in Patients With Primary Open-angle Glaucoma and Ocular Hypertension Using the Breath-Holding Index
Ozcan D
Journal of Glaucoma 2021; 30: 157-163 (IGR: 21-4)

91775 Effect of Rho Kinase Inhibitor Ripasudil (K-115) on Isolated Porcine Retinal Arterioles
Nakabayashi S
Journal of Ocular Pharmacology and Therapeutics 2021; 37: 104-111 (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Tay ELT
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Song MK
Scientific reports 2021; 11: 206 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Kameda T
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91834 Association of Nailfold Capillary Abnormalities With Primary Open-angle Glaucoma and Glaucomatous Visual Field Loss
Yoon JJ
Journal of Glaucoma 2021; 30: 50-57 (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Wang M
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wong CYK
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Nolte C
Ocular Immunology and Inflammation 2020; 0: 1-7 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Sharpe GP
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91115 Peripapillary perfused capillary density in true versus pseudoexfoliation syndrome: An OCTA study
Teekhasaenee C
PLoS ONE 2020; 15: e0239109 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Wang H
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Fragiotta S
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Azevedo L
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91274 Ophthalmic Artery and Superior Ophthalmic Vein Blood Flow Dynamics in Glaucoma Investigated by Phase Contrast Magnetic Resonance Imaging
Iscar C
Journal of Glaucoma 2021; 30: 65-70 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Cirstoveanu C
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91338 Effect of retinal protective therapy on optical coherence tomography angiography (pilot study)
Solovieva AB
Vestnik Oftalmologii 2021; 137: 60-67 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Yoshikawa Y
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Seong M
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)

91515 Association between Systemic Antioxidant Capacity and Retinal Vessel Diameters in Patients with Primary-Open Angle Glaucoma
Tanito M
Life (Basel, Switzerland) 2020; 10: (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Kafieh R
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91536 Comparison of ophthalmic artery blood flow between open-angle glaucoma and nonglaucomatous eyes of Indian patients
Singh A
Oman journal of ophthalmology 2020; 13: 112-116 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Gray C
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Thieme H
Translational vision science & technology 2020; 9: 7 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Nava U
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91569 Optical coherence tomography angiography in juvenile open angle glaucoma: correlation between structure and perfusion
Hassan LM
International Ophthalmology 2021; 41: 883-889 (IGR: 21-4)

91604 OCT angiography analysis of retinal vessel density in primary open-angle glaucoma with and without Tafluprost therapy
Kromer R
BMC Ophthalmology 2020; 20: 444 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Choi W
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91690 Assessment of Cerebral Vasomotor Reactivity in Patients With Primary Open-angle Glaucoma and Ocular Hypertension Using the Breath-Holding Index
Gökcal E
Journal of Glaucoma 2021; 30: 157-163 (IGR: 21-4)

91775 Effect of Rho Kinase Inhibitor Ripasudil (K-115) on Isolated Porcine Retinal Arterioles
Takahashi K
Journal of Ocular Pharmacology and Therapeutics 2021; 37: 104-111 (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Lim CW
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Won HJ
Scientific reports 2021; 11: 206 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Suda K
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91834 Association of Nailfold Capillary Abnormalities With Primary Open-angle Glaucoma and Glaucomatous Visual Field Loss
Gossage L
Journal of Glaucoma 2021; 30: 50-57 (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Devlin J
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Chan PP
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Heinz C
Ocular Immunology and Inflammation 2020; 0: 1-7 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Shuba LM
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91115 Peripapillary perfused capillary density in true versus pseudoexfoliation syndrome: An OCTA study
Suwan Y
PLoS ONE 2020; 15: e0239109 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Wang P
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Scuderi G
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Abdulrahman A
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91274 Ophthalmic Artery and Superior Ophthalmic Vein Blood Flow Dynamics in Glaucoma Investigated by Phase Contrast Magnetic Resonance Imaging
Milazzo S
Journal of Glaucoma 2021; 30: 65-70 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Vancea G
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Mine I
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Diaz-Ramos A
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Hojati S
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91536 Comparison of ophthalmic artery blood flow between open-angle glaucoma and nonglaucomatous eyes of Indian patients
Bhatkoti B
Oman journal of ophthalmology 2020; 13: 112-116 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Bianchi E
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Hoffmann MB
Translational vision science & technology 2020; 9: 7 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Visintin D
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Lee SY
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91690 Assessment of Cerebral Vasomotor Reactivity in Patients With Primary Open-angle Glaucoma and Ocular Hypertension Using the Breath-Holding Index
Guven D
Journal of Glaucoma 2021; 30: 157-163 (IGR: 21-4)

91775 Effect of Rho Kinase Inhibitor Ripasudil (K-115) on Isolated Porcine Retinal Arterioles
Tanner A
Journal of Ocular Pharmacology and Therapeutics 2021; 37: 104-111 (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Cheng J
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91824 Nocturnal blood pressure dip and parapapillary choroidal microvasculature dropout in normal-tension glaucoma
Kook MS
Scientific reports 2021; 11: 206 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Nakanishi H
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91834 Association of Nailfold Capillary Abnormalities With Primary Open-angle Glaucoma and Glaucomatous Visual Field Loss
Danesh-Meyer HV
Journal of Glaucoma 2021; 30: 50-57 (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Li D
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wong MOM; Wong MOM
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Rafuse PE
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Xu Y
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Hereth E
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91274 Ophthalmic Artery and Superior Ophthalmic Vein Blood Flow Dynamics in Glaucoma Investigated by Phase Contrast Magnetic Resonance Imaging
Balédent O
Journal of Glaucoma 2021; 30: 65-70 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Serban D
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Ishii H
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Rodriguez-Suarez A
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Afzali M
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Dhillon B
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Cremonesi G
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Lee JM
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91690 Assessment of Cerebral Vasomotor Reactivity in Patients With Primary Open-angle Glaucoma and Ocular Hypertension Using the Breath-Holding Index
Asil T
Journal of Glaucoma 2021; 30: 157-163 (IGR: 21-4)

91775 Effect of Rho Kinase Inhibitor Ripasudil (K-115) on Isolated Porcine Retinal Arterioles
Yoshida A
Journal of Ocular Pharmacology and Therapeutics 2021; 37: 104-111 (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Teo HY
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Miyake M
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Lovelace S
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Chan NCY
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Nicolela MT
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Li F
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Abegão Pinto L
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91327 Association between vascular comorbidity and glaucoma progression: A four-year observational study
Socea B
Experimental and therapeutic medicine 2021; 21: 283 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Ibuki H
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91426 Peripheral vascular disease - a new vascular disease associated with normal tension glaucoma: a case report
Mota-Chozas I
Journal of Medical Case Reports 2020; 14: 224 (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Suwan Y
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
MacGillivray T
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Scotti L
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Seong GJ
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Chua CH
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Ikeda HO
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Wang H
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Tang F
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Vianna JR
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Xu B
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Lachkar Y
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Shinoda K
British Journal of Ophthalmology 2022; 106: 80-86 (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Ritch R
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91543 Macular vessel density, branching complexity and foveal avascular zone size in normal tension glaucoma
Tatham AJ
Scientific reports 2021; 11: 1056 (IGR: 21-4)

91568 The Macular Choriocapillaris Flow in Glaucoma and Within-Day Fluctuations: An Optical Coherence Tomography Angiography Study
Bergamini F
Investigative Ophthalmology and Visual Science 2021; 62: 22 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Kim CY
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91782 Comparison of two different optical coherence tomography angiography devices in detecting healthy versus glaucomatous eyes - an observational cross-sectional study
Yip LWL
BMC Ophthalmology 2020; 20: 440 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Yamada T
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Greenstein SH
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Lam A
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91111 Discrepancy in Loss of Macular Perfusion Density and Ganglion Cell Layer Thickness in Early Glaucoma
Chauhan BC
American Journal of Ophthalmology 2021; 221: 39-47 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Yao X
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Stalmans I
British Journal of Ophthalmology 2022; 106: 667-675 (IGR: 21-4)

91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Moghimi S
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)

91625 Relationship between N95 Amplitude of Pattern Electroretinogram and Optical Coherence Tomography Angiography in Open-Angle Glaucoma
Bae HW
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Kadomoto S
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Brauner SC
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Leung DYL
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91158 Macular vessel density and foveal avascular zone parameters in patients after acute primary angle closure determined by OCT angiography
Zou J
Scientific reports 2020; 10: 18717 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Uji A
Journal of clinical medicine 2020; 9: (IGR: 21-4)

91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Shen LQ
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Wong TY
Scientific reports 2020; 10: 19222 (IGR: 21-4)

91833 Short-Term Effects of Different Types of Anti-Glaucoma Eyedrop on the Sclero-Conjunctival Vasculature Assessed Using Anterior Segment OCTA in Normal Human Eyes: A Pilot Study
Tsujikawa A
Journal of clinical medicine 2020; 9: (IGR: 21-4)

90999 Global assessment of arteriolar, venular and capillary changes in normal tension glaucoma
Cheng CY; Cheung CY; Tham CC
Scientific reports 2020; 10: 19222 (IGR: 21-4)

89950 Evaluation of Diurnal Fluctuation in Parafoveal and Peripapillary Vascular Density Using Optical Coherence Tomography Angiography in Patients with Exfoliative Glaucoma and Primary Open-Angle Glaucoma
Demirtaş AA; Demirtaş AA
Current Eye Research 2020; 0: 1-11 (IGR: 21-3)

89976 Ocular Perfusion Pressure and the Risk of Open-Angle Glaucoma: Systematic Review and Meta-analysis
Kim KE
Scientific reports 2020; 10: 10056 (IGR: 21-3)

89983 Comparisons of retinal vessel density and glaucomatous parameters in optical coherence tomography angiography
Li Z
PLoS ONE 2020; 15: e0234816 (IGR: 21-3)

89987 Optical coherence tomography angiography in glaucoma
Aghsaei Fard M
Annals of translational medicine 2020; 8: 1204 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Nelson AJ
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Moghimi S
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90056 Analysis of the perfusion of the optic nerve using angio-OCT in glaucoma
Hervás A
Archivos de la Sociedad Española de Oftalmologia 2021; 96: 214-218 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Ekici E
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90109 Optical coherence tomography angiography in glaucoma: analysis of the vessel density-visual field sensitivity relationship
Holló G
Annals of translational medicine 2020; 8: 1203 (IGR: 21-3)

90236 Nailfold capillaroscopy in common non-rheumatic conditions: A systematic review and applications for clinical practice
Ciaffi J
Microvascular Research 2020; 131: 104036 (IGR: 21-3)

90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Iyer JV
British Journal of Ophthalmology 2021; 105: 789-793 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Hansen C
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Zabel K
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90301 Comparison of the Progression of Localized Retinal Nerve Fiber Layer Defects in Red-free Fundus Photograph, En Face Structural Image, and OCT Angiography Image
Ji MJ
Journal of Glaucoma 2020; 29: 698-703 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Sefic S
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Wang Q
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90431 Autonomic Dysfunction and Blood Pressure in Glaucoma Patients: The Lifelines Cohort Study
Asefa NG
Investigative Ophthalmology and Visual Science 2020; 61: 25 (IGR: 21-3)

90433 Assessment of Doppler flow parameters of the retrobulbar arteries and internal carotid artery in patients with glaucoma: the significance of ophthalmic artery peak ratio and the intima-media thickness of the internal carotid artery
Kalayci M
International Ophthalmology 2020; 40: 3337-3348 (IGR: 21-3)

90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Tornow RP
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)

90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Matuoka ML
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Lee K
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Milani P
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90480 Comparison of vessel density in macular and peripapillary regions between primary open-angle glaucoma and pseudoexfoliation glaucoma using OCTA
Subasi S
International Ophthalmology 2021; 41: 173-184 (IGR: 21-3)

90486 The Neurovascular Unit in Glaucomatous Neurodegeneration
Wareham LK
Frontiers in cell and developmental biology 2020; 8: 452 (IGR: 21-3)

90501 Asymmetry analysis of optical coherence tomography angiography macular perfusion density measurements in preperimetric and perimetric glaucoma
Chang PY
Scientific reports 2020; 10: 14781 (IGR: 21-3)

90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Song MK
British Journal of Ophthalmology 2021; 105: 964-969 (IGR: 21-3)

90556 Asymmetry of Macular Vessel Density in Bilateral Early Open-angle Glaucoma With Unilateral Central 10-2 Visual Field Loss
Lu P
Journal of Glaucoma 2020; 29: 926-931 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Rao HL
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Taylor L
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Park CK
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim CY
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Mendez-Hernandez C
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Wang X
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Pfahler NM
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

89950 Evaluation of Diurnal Fluctuation in Parafoveal and Peripapillary Vascular Density Using Optical Coherence Tomography Angiography in Patients with Exfoliative Glaucoma and Primary Open-Angle Glaucoma
Karahan M
Current Eye Research 2020; 0: 1-11 (IGR: 21-3)

89976 Ocular Perfusion Pressure and the Risk of Open-Angle Glaucoma: Systematic Review and Meta-analysis
Oh S
Scientific reports 2020; 10: 10056 (IGR: 21-3)

89983 Comparisons of retinal vessel density and glaucomatous parameters in optical coherence tomography angiography
Xu Z
PLoS ONE 2020; 15: e0234816 (IGR: 21-3)

89987 Optical coherence tomography angiography in glaucoma
Ritch R
Annals of translational medicine 2020; 8: 1204 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Chu Z
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Zangwill LM
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90056 Analysis of the perfusion of the optic nerve using angio-OCT in glaucoma
García-Delpech S
Archivos de la Sociedad Española de Oftalmologia 2021; 96: 214-218 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Moghimi S
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90236 Nailfold capillaroscopy in common non-rheumatic conditions: A systematic review and applications for clinical practice
Ajasllari N
Microvascular Research 2020; 131: 104036 (IGR: 21-3)

90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Boland MV
British Journal of Ophthalmology 2021; 105: 789-793 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Bojikian KD
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Zabel P
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90301 Comparison of the Progression of Localized Retinal Nerve Fiber Layer Defects in Red-free Fundus Photograph, En Face Structural Image, and OCT Angiography Image
Park JH
Journal of Glaucoma 2020; 29: 698-703 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Kasumovic A
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Qu X
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90431 Autonomic Dysfunction and Blood Pressure in Glaucoma Patients: The Lifelines Cohort Study
Neustaeter A
Investigative Ophthalmology and Visual Science 2020; 61: 25 (IGR: 21-3)

90433 Assessment of Doppler flow parameters of the retrobulbar arteries and internal carotid artery in patients with glaucoma: the significance of ophthalmic artery peak ratio and the intima-media thickness of the internal carotid artery
Tahtabasi M
International Ophthalmology 2020; 40: 3337-3348 (IGR: 21-3)

90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Kolar R
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)

90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Santos KS
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Park CK
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Bochicchio S
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90480 Comparison of vessel density in macular and peripapillary regions between primary open-angle glaucoma and pseudoexfoliation glaucoma using OCTA
Yuksel N
International Ophthalmology 2021; 41: 173-184 (IGR: 21-3)

90486 The Neurovascular Unit in Glaucomatous Neurodegeneration
Calkins DJ
Frontiers in cell and developmental biology 2020; 8: 452 (IGR: 21-3)

90501 Asymmetry analysis of optical coherence tomography angiography macular perfusion density measurements in preperimetric and perimetric glaucoma
Wang JY
Scientific reports 2020; 10: 14781 (IGR: 21-3)

90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Shin JW
British Journal of Ophthalmology 2021; 105: 964-969 (IGR: 21-3)

90556 Asymmetry of Macular Vessel Density in Bilateral Early Open-angle Glaucoma With Unilateral Central 10-2 Visual Field Loss
Xiao H
Journal of Glaucoma 2020; 29: 926-931 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Dasari S
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Bojikian KD
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Lee K
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Lee EJ
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Wang S
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Chen J
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Barry JL
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

89950 Evaluation of Diurnal Fluctuation in Parafoveal and Peripapillary Vascular Density Using Optical Coherence Tomography Angiography in Patients with Exfoliative Glaucoma and Primary Open-Angle Glaucoma
Ava S
Current Eye Research 2020; 0: 1-11 (IGR: 21-3)

89976 Ocular Perfusion Pressure and the Risk of Open-Angle Glaucoma: Systematic Review and Meta-analysis
Baek SU; Baek SU
Scientific reports 2020; 10: 10056 (IGR: 21-3)

89983 Comparisons of retinal vessel density and glaucomatous parameters in optical coherence tomography angiography
Liu Q
PLoS ONE 2020; 15: e0234816 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Burkemper B
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Hou H; Hou H; Hou H
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90056 Analysis of the perfusion of the optic nerve using angio-OCT in glaucoma
Udaondo P
Archivos de la Sociedad Española de Oftalmologia 2021; 96: 214-218 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Bowd C
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90236 Nailfold capillaroscopy in common non-rheumatic conditions: A systematic review and applications for clinical practice
Mancarella L
Microvascular Research 2020; 131: 104036 (IGR: 21-3)

90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Jefferys J
British Journal of Ophthalmology 2021; 105: 789-793 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Kaluzna M
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90301 Comparison of the Progression of Localized Retinal Nerve Fiber Layer Defects in Red-free Fundus Photograph, En Face Structural Image, and OCT Angiography Image
Yoo C
Journal of Glaucoma 2020; 29: 698-703 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Matoc I
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Chen W
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90431 Autonomic Dysfunction and Blood Pressure in Glaucoma Patients: The Lifelines Cohort Study
Jansonius NM
Investigative Ophthalmology and Visual Science 2020; 61: 25 (IGR: 21-3)

90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Odstrcilik J
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)

90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Cruz NF
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Kim EW
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Urbini LE
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90480 Comparison of vessel density in macular and peripapillary regions between primary open-angle glaucoma and pseudoexfoliation glaucoma using OCTA
Basaran E
International Ophthalmology 2021; 41: 173-184 (IGR: 21-3)

90501 Asymmetry analysis of optical coherence tomography angiography macular perfusion density measurements in preperimetric and perimetric glaucoma
Wang JK
Scientific reports 2020; 10: 14781 (IGR: 21-3)

90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Jo Y
British Journal of Ophthalmology 2021; 105: 964-969 (IGR: 21-3)

90556 Asymmetry of Macular Vessel Density in Bilateral Early Open-angle Glaucoma With Unilateral Central 10-2 Visual Field Loss
Chen H
Journal of Glaucoma 2020; 29: 926-931 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Riyazuddin M
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Jung H
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Kim EW
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim JA
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Arribas-Pardo P
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Zhang S
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Bielskus IE
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

89950 Evaluation of Diurnal Fluctuation in Parafoveal and Peripapillary Vascular Density Using Optical Coherence Tomography Angiography in Patients with Exfoliative Glaucoma and Primary Open-Angle Glaucoma
Çilem Han Ç
Current Eye Research 2020; 0: 1-11 (IGR: 21-3)

89976 Ocular Perfusion Pressure and the Risk of Open-Angle Glaucoma: Systematic Review and Meta-analysis
Ahn SJ
Scientific reports 2020; 10: 10056 (IGR: 21-3)

89983 Comparisons of retinal vessel density and glaucomatous parameters in optical coherence tomography angiography
Chen X
PLoS ONE 2020; 15: e0234816 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Chang BR
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Wong B
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Hou H; Hou H; Hou H
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90236 Nailfold capillaroscopy in common non-rheumatic conditions: A systematic review and applications for clinical practice
Brusi V
Microvascular Research 2020; 131: 104036 (IGR: 21-3)

90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Quigley H
British Journal of Ophthalmology 2021; 105: 789-793 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Lamkowski A
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90301 Comparison of the Progression of Localized Retinal Nerve Fiber Layer Defects in Red-free Fundus Photograph, En Face Structural Image, and OCT Angiography Image
Kim YY
Journal of Glaucoma 2020; 29: 698-703 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Halimic T
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Wang H
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90431 Autonomic Dysfunction and Blood Pressure in Glaucoma Patients: The Lifelines Cohort Study
Snieder H
Investigative Ophthalmology and Visual Science 2020; 61: 25 (IGR: 21-3)

90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Labounkova I
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)

90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Kasahara N
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Kim JY
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Bulone E
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90480 Comparison of vessel density in macular and peripapillary regions between primary open-angle glaucoma and pseudoexfoliation glaucoma using OCTA
Pirhan D
International Ophthalmology 2021; 41: 173-184 (IGR: 21-3)

90501 Asymmetry analysis of optical coherence tomography angiography macular perfusion density measurements in preperimetric and perimetric glaucoma
Yeh SC
Scientific reports 2020; 10: 14781 (IGR: 21-3)

90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Won HJ
British Journal of Ophthalmology 2021; 105: 964-969 (IGR: 21-3)

90556 Asymmetry of Macular Vessel Density in Bilateral Early Open-angle Glaucoma With Unilateral Central 10-2 Visual Field Loss
Ye D
Journal of Glaucoma 2020; 29: 926-931 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Lavanya R
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Chu Z
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Kim S
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim H
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Salazar-Quiñones L
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Shang X
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Kakouri A
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

89950 Evaluation of Diurnal Fluctuation in Parafoveal and Peripapillary Vascular Density Using Optical Coherence Tomography Angiography in Patients with Exfoliative Glaucoma and Primary Open-Angle Glaucoma
Keklikçi U
Current Eye Research 2020; 0: 1-11 (IGR: 21-3)

89976 Ocular Perfusion Pressure and the Risk of Open-Angle Glaucoma: Systematic Review and Meta-analysis
Park KH
Scientific reports 2020; 10: 10056 (IGR: 21-3)

89983 Comparisons of retinal vessel density and glaucomatous parameters in optical coherence tomography angiography
Li L
PLoS ONE 2020; 15: e0234816 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Xu B
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Proudfoot J; Proudfoot J
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Penteado RC
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90236 Nailfold capillaroscopy in common non-rheumatic conditions: A systematic review and applications for clinical practice
Meliconi R
Microvascular Research 2020; 131: 104036 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Zhang Q
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Jaworski D
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Voloder B
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Huang C
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Horn F
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Yang H
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Callegarin S
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90501 Asymmetry analysis of optical coherence tomography angiography macular perfusion density measurements in preperimetric and perimetric glaucoma
Chang SW
Scientific reports 2020; 10: 14781 (IGR: 21-3)

90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Kook MS
British Journal of Ophthalmology 2021; 105: 964-969 (IGR: 21-3)

90556 Asymmetry of Macular Vessel Density in Bilateral Early Open-angle Glaucoma With Unilateral Central 10-2 Visual Field Loss
Huang J
Journal of Glaucoma 2020; 29: 926-931 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
P NK
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Zhou X
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Lee SY
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim TW
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Güemes-Villahoz N
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Zhou K
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Giovingo MC
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

89976 Ocular Perfusion Pressure and the Risk of Open-Angle Glaucoma: Systematic Review and Meta-analysis
Jeoung JW
Scientific reports 2020; 10: 10056 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Wang RK
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Penteado RC
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Proudfoot J; Proudfoot J
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90236 Nailfold capillaroscopy in common non-rheumatic conditions: A systematic review and applications for clinical practice
Ursini F
Microvascular Research 2020; 131: 104036 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Mudumbai RC
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Wietlicka-Piszcz M
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Muhamedagic L
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Li T
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Choi W
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Pisano L
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Pradhan ZS
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Zhang Q
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Kim CY
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Fernandez-Perez C
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Lan Y
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Volpe NJ
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

89994 Clinical Utility of Triplicate En Face Image Averaging for Optical Coherence Tomography Angiography in Glaucoma and Glaucoma Suspects
Richter GM
Journal of Glaucoma 2020; 29: 823-830 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Ekici E
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Yang D
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Johnstone MA
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90272 Correlation of retinal sensitivity in microperimetry with vascular density in optical coherence tomography angiography in primary open-angle glaucoma
Kaluzny JJ
PLoS ONE 2020; 15: e0235571 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Delic SC
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Wang N
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Lee SY
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Scotti L
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Moghimi S
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Mudumbai RC
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Seong GJ
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Garcia-Feijoo J
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Cai J
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90848 Nailfold Capillary Hemorrhages: Microvascular Risk Factors for Primary Open-Angle Glaucoma
Knepper PA
Journal of Ophthalmology 2020; 2020: 8324319 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Bowd C
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90091 Capillary Density Measured by Optical Coherence Tomography Angiography in Glaucomatous Optic Disc Phenotypes
Weinreb RN
American Journal of Ophthalmology 2020; 219: 261-270 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Wang RK
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90367 Assessment of Perfused Peripapillary Capillaries and Peripapillary Capillary Density Maps in Glaucoma Patients
Sesar I
Medicinski arhiv 2020; 74: 275-278 (IGR: 21-3)

90418 Altered coupling of cerebral blood flow and functional connectivity strength in visual and higher order cognitive cortices in primary open angle glaucoma
Xian J
Journal of Cerebral Blood Flow and Metabolism 2020; 0: 271678X20935274 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Seong GJ
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Zambon A
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Mansouri K
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Waang RK
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Bae HW
Eye 2021; 35: 1967-1976 (IGR: 21-3)

90844 Diurnal fluctuations of macular vessel density in patients with primary open-angle glaucoma and healthy subjects
Liang Y
International Ophthalmology 2020; 40: 2257-2266 (IGR: 21-3)

90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Weinreb RN
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)

90264 Macular microvascular parameters in the ganglion cell-inner plexiform layer derived by optical coherence tomography angiography: Vascular structure-central visual function analysis
Chen PP
PLoS ONE 2020; 15: e0240111 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Kim CY
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90474 Diurnal Measurements of Macular Thickness and Vessel Density on OCT Angiography in Healthy Eyes and Those With Ocular Hypertension and Glaucoma
Bergamini F
Journal of Glaucoma 2020; 29: 918-925 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Webers CAB
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

90694 Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography
Chen PP
Journal of Glaucoma 2020; 29: 885-889 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Luben R
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

90468 Factors associated with macular vessel density measured by optical coherence tomography angiography in healthy and glaucomatous eyes
Bae HW
Japanese Journal of Ophthalmology 2020; 64: 524-532 (IGR: 21-3)

90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Weinreb RN
British Journal of Ophthalmology 2021; 105: 1542-1547 (IGR: 21-3)

89993 Retinal Vasculometry Associations With Glaucoma: Findings From the European Prospective Investigation of Cancer-Norfolk Eye Study
Hayat SA; Khaw KT; Foster PJ
American Journal of Ophthalmology 2020; 220: 140-151 (IGR: 21-3)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Mastropasqua R
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Kiyota N
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86167 Optical Coherence Tomography Angiography in Glaucoma
Rao HL
Journal of Glaucoma 2020; 29: 312-321 (IGR: 21-2)

86173 Corneal pulsation and biomechanics during induced ocular pulse. An ex-vivo pilot study
Rogala MM
PLoS ONE 2020; 15: e0228920 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Qian X
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86219 Peripapillary and Macular Vessel Density Measurement by Optical Coherence Tomography Angiography in Pseudoexfoliation and Primary Open-angle Glaucoma
Jo YH
Journal of Glaucoma 2020; 29: 381-385 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Lee K
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86276 Central Retinal Vessel Trunk Caliber Changes After Short-term Intraocular Pressure Elevation
Zhang Q
Journal of Glaucoma 2020; 29: 467-472 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Smith CA
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86317 Systemic and ocular determinants of mean ocular perfusion pressure in a population-based sample
Çakmak Aİ
Japanese Journal of Ophthalmology 2020; 64: 392-397 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Omodaka K
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86428 Primary Open Angle Glaucoma and Vascular Risk Factors: A Review of Population Based Studies from 1990 to 2019
Grzybowski A
Journal of clinical medicine 2020; 9: (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Bekkers A
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Fernández-Vigo JI
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86488 Anomalous retinal artery associated with branch retinal artery occlusion and neovascular glaucoma: A case report
Yang WJ
World journal of clinical cases 2020; 8: 980-985 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Aghsaei Fard M
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Igarashi R
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86524 Deep-layer Microvasculature Dropout in Preperimetric Glaucoma Patients
Suh MH
Journal of Glaucoma 2020; 29: 423-428 (IGR: 21-2)

86532 Choroidal Microvasculature Dropout is Associated with Generalized Choroidal Vessel Loss within the β-Parapapillary Atrophy in Glaucoma
Jo YH
American Journal of Ophthalmology 2020; 215: 37-48 (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Chuang LH
Medicine 2020; 99: e19468 (IGR: 21-2)

86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Hou TY
Scientific reports 2020; 10: 5608 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Verticchio Vercellin AC
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Bowd C
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Tao A
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Rong X
Acta Ophthalmologica 2020; 98: e882-e887 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Orgül S
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Shughoury A
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86667 Does the Foveal Avascular Zone Change in Glaucoma?
Lommatzsch C
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888 (IGR: 21-2)

86690 Optical coherence tomography angiography in primary eye care
Coffey AM
Clinical and Experimental Optometry 2020; 0: (IGR: 21-2)

86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Simsek M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)

86744 The effect of topical tropicamide and phenylephrine on macular and peripapillary microvasculature: an optical coherence tomography angiography study
Özdemir HB
International Ophthalmology 2020; 40: 1969-1976 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Jin Y
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Lee SH
Scientific reports 2020; 10: 6761 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Yoshikawa Y
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Waser K; Waser K
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Brescia L
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Shiga Y
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86167 Optical Coherence Tomography Angiography in Glaucoma
Pradhan ZS
Journal of Glaucoma 2020; 29: 312-321 (IGR: 21-2)

86173 Corneal pulsation and biomechanics during induced ocular pulse. An ex-vivo pilot study
Lewandowski D
PLoS ONE 2020; 15: e0228920 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Kang H
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Varidel T; Varidel T
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86219 Peripapillary and Macular Vessel Density Measurement by Optical Coherence Tomography Angiography in Pseudoexfoliation and Primary Open-angle Glaucoma
Sung KR
Journal of Glaucoma 2020; 29: 381-385 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Maeng KJ
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86276 Central Retinal Vessel Trunk Caliber Changes After Short-term Intraocular Pressure Elevation
Lin CX
Journal of Glaucoma 2020; 29: 467-472 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
West ME
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86317 Systemic and ocular determinants of mean ocular perfusion pressure in a population-based sample
Atalay E
Japanese Journal of Ophthalmology 2020; 64: 392-397 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Fujioka S
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86428 Primary Open Angle Glaucoma and Vascular Risk Factors: A Review of Population Based Studies from 1990 to 2019
Och M
Journal of clinical medicine 2020; 9: (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Borren N
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Kudsieh B
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86488 Anomalous retinal artery associated with branch retinal artery occlusion and neovascular glaucoma: A case report
Yang YN
World journal of clinical cases 2020; 8: 980-985 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Salabati M
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Ochiai S
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86524 Deep-layer Microvasculature Dropout in Preperimetric Glaucoma Patients
Na JH
Journal of Glaucoma 2020; 29: 423-428 (IGR: 21-2)

86532 Choroidal Microvasculature Dropout is Associated with Generalized Choroidal Vessel Loss within the β-Parapapillary Atrophy in Glaucoma
Shin JW
American Journal of Ophthalmology 2020; 215: 37-48 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Song Y
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Koh YY
Medicine 2020; 99: e19468 (IGR: 21-2)

86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Kuang TM
Scientific reports 2020; 10: 5608 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Harris A
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Belghith A
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Liang Y
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Cai Y
Acta Ophthalmologica 2020; 98: e882-e887 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Gugleta K
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Mathew S
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Pickl L
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86667 Does the Foveal Avascular Zone Change in Glaucoma?
Heinz C
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888 (IGR: 21-2)

86690 Optical coherence tomography angiography in primary eye care
Hutton EK
Clinical and Experimental Optometry 2020; 0: (IGR: 21-2)

86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Kocer AM
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)

86744 The effect of topical tropicamide and phenylephrine on macular and peripapillary microvasculature: an optical coherence tomography angiography study
Şekeroğlu MA
International Ophthalmology 2020; 40: 1969-1976 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Wang X
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Kim TW
Scientific reports 2020; 10: 6761 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Shoji T
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Mendez-Hernandez C
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Di Antonio L
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Yasuda M
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86167 Optical Coherence Tomography Angiography in Glaucoma
Suh MH
Journal of Glaucoma 2020; 29: 312-321 (IGR: 21-2)

86173 Corneal pulsation and biomechanics during induced ocular pulse. An ex-vivo pilot study
Detyna J
PLoS ONE 2020; 15: e0228920 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Li R
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86219 Peripapillary and Macular Vessel Density Measurement by Optical Coherence Tomography Angiography in Pseudoexfoliation and Primary Open-angle Glaucoma
Shin JW
Journal of Glaucoma 2020; 29: 381-385 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Kim JY
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86276 Central Retinal Vessel Trunk Caliber Changes After Short-term Intraocular Pressure Elevation
Yang H
Journal of Glaucoma 2020; 29: 467-472 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Sharpe GP
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86317 Systemic and ocular determinants of mean ocular perfusion pressure in a population-based sample
Gültekin Irgat S
Japanese Journal of Ophthalmology 2020; 64: 392-397 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
An G
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86428 Primary Open Angle Glaucoma and Vascular Risk Factors: A Review of Population Based Studies from 1990 to 2019
Kanclerz P
Journal of clinical medicine 2020; 9: (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Ederveen V
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Shi H
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86488 Anomalous retinal artery associated with branch retinal artery occlusion and neovascular glaucoma: A case report
Cai MG
World journal of clinical cases 2020; 8: 980-985 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Mahmoudzadeh R
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Togano T
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86524 Deep-layer Microvasculature Dropout in Preperimetric Glaucoma Patients
Zangwill LM
Journal of Glaucoma 2020; 29: 423-428 (IGR: 21-2)

86532 Choroidal Microvasculature Dropout is Associated with Generalized Choroidal Vessel Loss within the β-Parapapillary Atrophy in Glaucoma
Song MK
American Journal of Ophthalmology 2020; 215: 37-48 (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Chen HSL
Medicine 2020; 99: e19468 (IGR: 21-2)

86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Ko YC
Scientific reports 2020; 10: 5608 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Tanga L
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Proudfoot JA
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Chen J
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Li M
Acta Ophthalmologica 2020; 98: e882-e887 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Grieshaber MC
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Arciero J
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86667 Does the Foveal Avascular Zone Change in Glaucoma?
Koch JM
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888 (IGR: 21-2)

86690 Optical coherence tomography angiography in primary eye care
Combe L
Clinical and Experimental Optometry 2020; 0: (IGR: 21-2)

86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Cevik S
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Irnadiastputri SFR
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Lee EJ
Scientific reports 2020; 10: 6761 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Kanno J
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Bolz M
Current Eye Research 2020; 45: 1168-1172 (IGR: 21-2)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Guarini D
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Aizawa N
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86167 Optical Coherence Tomography Angiography in Glaucoma
Moghimi S
Journal of Glaucoma 2020; 29: 312-321 (IGR: 21-2)

86173 Corneal pulsation and biomechanics during induced ocular pulse. An ex-vivo pilot study
Antończyk A
PLoS ONE 2020; 15: e0228920 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Lu G
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Yang H
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86276 Central Retinal Vessel Trunk Caliber Changes After Short-term Intraocular Pressure Elevation
Chen JD
Journal of Glaucoma 2020; 29: 467-472 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Hutchison DM
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86317 Systemic and ocular determinants of mean ocular perfusion pressure in a population-based sample
Köktaş Z
Japanese Journal of Ophthalmology 2020; 64: 392-397 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Udagawa T
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86428 Primary Open Angle Glaucoma and Vascular Risk Factors: A Review of Population Based Studies from 1990 to 2019
Leffler C
Journal of clinical medicine 2020; 9: (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Fokkinga E
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
De-Pablo-Gómez-de-Liaño L
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86488 Anomalous retinal artery associated with branch retinal artery occlusion and neovascular glaucoma: A case report
Xing YQ
World journal of clinical cases 2020; 8: 980-985 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Kafieh R
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Sakaue Y
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86524 Deep-layer Microvasculature Dropout in Preperimetric Glaucoma Patients
Weinreb RN
Journal of Glaucoma 2020; 29: 423-428 (IGR: 21-2)

86532 Choroidal Microvasculature Dropout is Associated with Generalized Choroidal Vessel Loss within the β-Parapapillary Atrophy in Glaucoma
Won HJ
American Journal of Ophthalmology 2020; 215: 37-48 (IGR: 21-2)

86551 Retinal blood flow reduction in normal-tension glaucoma with single-hemifield damage by Doppler optical coherence tomography
Tani T
British Journal of Ophthalmology 2020; 0: (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Lo YL
Medicine 2020; 99: e19468 (IGR: 21-2)

86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Chang YF
Scientific reports 2020; 10: 5608 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Siesky B
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Zangwill LM
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Hu H
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Chen X
Acta Ophthalmologica 2020; 98: e882-e887 (IGR: 21-2)

86618 Venous blood flow alterations in glaucoma patients
Schoetzau A
International Ophthalmology 2020; 40: 1815-1823 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Wurster P
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Waser K; Waser K
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86667 Does the Foveal Avascular Zone Change in Glaucoma?
Heimes-Bussmann B
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888 (IGR: 21-2)

86690 Optical coherence tomography angiography in primary eye care
Bhindi P
Clinical and Experimental Optometry 2020; 0: (IGR: 21-2)

86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Sen E
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Mohan RE
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Girard MJA
Scientific reports 2020; 10: 6761 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Ibuki H
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Salazar Quiñones L
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Giattini D
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Omodaka K
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86167 Optical Coherence Tomography Angiography in Glaucoma
Mansouri K
Journal of Glaucoma 2020; 29: 312-321 (IGR: 21-2)

86173 Corneal pulsation and biomechanics during induced ocular pulse. An ex-vivo pilot study
Danielewska ME
PLoS ONE 2020; 15: e0228920 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Du Z
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Cerboni S; Cerboni S
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Choi W
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86276 Central Retinal Vessel Trunk Caliber Changes After Short-term Intraocular Pressure Elevation
Jonas JB
Journal of Glaucoma 2020; 29: 467-472 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Shuba LM
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86317 Systemic and ocular determinants of mean ocular perfusion pressure in a population-based sample
Yıldırım N
Japanese Journal of Ophthalmology 2020; 64: 392-397 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Tsuda S
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86428 Primary Open Angle Glaucoma and Vascular Risk Factors: A Review of Population Based Studies from 1990 to 2019
Moraes CG
Journal of clinical medicine 2020; 9: (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Andrade De Jesus D
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Serrano-Garcia I
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Hojati S
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Suetake A
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86532 Choroidal Microvasculature Dropout is Associated with Generalized Choroidal Vessel Loss within the β-Parapapillary Atrophy in Glaucoma
Kook MS
American Journal of Ophthalmology 2020; 215: 37-48 (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Yu CC
Medicine 2020; 99: e19468 (IGR: 21-2)

86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Liu CJ
Scientific reports 2020; 10: 5608 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Quaranta L
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Christopher M
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Huang Q
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Kang L
Acta Ophthalmologica 2020; 98: e882-e887 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Adjei S
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86667 Does the Foveal Avascular Zone Change in Glaucoma?
Hahn U
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888 (IGR: 21-2)

86690 Optical coherence tomography angiography in primary eye care
Gertig D
Clinical and Experimental Optometry 2020; 0: (IGR: 21-2)

86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Elgin U
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Aung T
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Mari JM
Scientific reports 2020; 10: 6761 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Weinreb RN
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Fernandez-Perez C
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Zuppardi E
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Tsuda S
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86167 Optical Coherence Tomography Angiography in Glaucoma
Weinreb RN
Journal of Glaucoma 2020; 29: 312-321 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Shung KK
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Lee SY
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86276 Central Retinal Vessel Trunk Caliber Changes After Short-term Intraocular Pressure Elevation
Wang YX
Journal of Glaucoma 2020; 29: 467-472 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Rafuse PE
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Shiga Y
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Sánchez Brea L
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Ruiz-Moreno JM
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Safizadeh M
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Iikawa R
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Yeung L
Medicine 2020; 99: e19468 (IGR: 21-2)

86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Chen MJ
Scientific reports 2020; 10: 5608 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Rowe LW; Rowe LW
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Goldbaum MH
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Zheng J
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Yang L
Acta Ophthalmologica 2020; 98: e882-e887 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Ciulla T
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Beka S
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86667 Does the Foveal Avascular Zone Change in Glaucoma?
Grisanti S
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888 (IGR: 21-2)

86690 Optical coherence tomography angiography in primary eye care
Constable PA
Clinical and Experimental Optometry 2020; 0: (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Perera SA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Araie M
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Agnifili L
Acta Ophthalmologica 2020; 98: e761-e767 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Pak K
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Humayun MS
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Seong GJ
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Nicolela MT
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Morishita S
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Klein S
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Martínez-de-la-Casa JM
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Moghimi S
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Honma Y
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86558 Normal tension glaucoma in obstructive sleep apnea syndrome: A structural and functional study
Lai CC
Medicine 2020; 99: e19468 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Torabi R
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Hou H; Hou H; Hou H
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Ye C
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Siesky B
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Boote C
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86782 Glaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiography
Shinoda K
Scientific reports 2020; 10: 6845 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Kunikata H
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86174 In Vivo Visualization of Eye Vasculature Using Super-Resolution Ultrasound Microvessel Imaging
Zhou Q
IEEE Transactions on Bio-Medical Engineering 2020; 67: 2870-2880 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Kim CY
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Chauhan BC
British Journal of Ophthalmology 2020; 104: 1724-1729 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Kikawa T
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
van Walsum T
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
García-Feijóo J
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Ritch R
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Miyamoto D
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Agnifili L
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Penteado RC
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86609 Structure-function correlation of localized visual field defects and macular microvascular damage in primary open-angle glaucoma
Lu F
Microvascular Research 2020; 130: 104005 (IGR: 21-2)

86624 Retinal oximetry in glaucoma: investigations and findings reviewed
Harris A
Acta Ophthalmologica 2020; 98: 559-571 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Luft N
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Jonas JB
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Nakazawa T
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)

86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Bae HW
Scientific reports 2020; 10: 3027 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Pak K
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Barbosa-Breda J
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Fernández-Vigo JÁ
Current Eye Research 2020; 0: 1-8 (IGR: 21-2)

86493 Automated Evaluation of Parapapillary Choroidal Microvasculature in Ischemic Optic Neuropathy and Open Angle Glaucoma
Subramanian PS
Investigative Ophthalmology and Visual Science 2020; 61: 35 (IGR: 21-2)

86523 Foveal Avascular Zone Measurement Via Optical Coherence Tomography Angiography and its Relationship With the Visual Field in Eyes With Open-angle Glaucoma
Fukuchi T
Journal of Glaucoma 2020; 29: 492-497 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Riva I
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Moghimi S
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Schmetterer L
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Schmetterer L
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Akiba M
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Stalmans I
Acta Ophthalmologica 2020; 98: 537-558 (IGR: 21-2)

86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Oddone F
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)

86568 Gradient-Boosting Classifiers Combining Vessel Density and Tissue Thickness Measurements for Classifying Early to Moderate Glaucoma
Weinreb RN
American Journal of Ophthalmology 2020; 217: 131-139 (IGR: 21-2)

86633 Comparison of Neurovascular Coupling between Normal Tension Glaucoma Patients and Healthy Individuals with Laser Speckle Flowgraphy
Bolz M
Current Eye Research 2020; 0: 1-5 (IGR: 21-2)

86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Girard MJA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Yokota H
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

86341 Structural Characterization of Glaucoma Patients with Low Ocular Blood Flow
Nakazawa T
Current Eye Research 2020; 45: 1302-1308 (IGR: 21-2)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Ciulla L
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84505 Signal Strength as an Important Factor in the Analysis of Peripapillary Microvascular Density Using Optical Coherence Tomography Angiography
Lim HB
Scientific reports 2019; 9: 16299 (IGR: 21-1)

84506 Regional Patterns in Retinal Microvascular Network Geometry in Health and Disease
Popovic N
Scientific reports 2019; 9: 16340 (IGR: 21-1)

84545 Association of Retinal Blood Flow with Progression of Visual Field in Glaucoma
Jeon SJ
Scientific reports 2019; 9: 16813 (IGR: 21-1)

84593 Evaluation of Peripapillary Choroidal Microvasculature to Detect Glaucomatous Damage in Eyes With High Myopia
Na HM
Journal of Glaucoma 2020; 29: 39-45 (IGR: 21-1)

84595 Relationship Between Foveal Threshold and Macular Structure/Function/Vessel Density in Glaucoma
Jeong D
Journal of Glaucoma 2020; 29: 104-111 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Liu L
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Dervenis N
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Shin DY
Scientific reports 2019; 9: 18503 (IGR: 21-1)

84758 Associations between tinnitus and glaucoma suggest a common mechanism: A clinical and population-based study
Loiselle AR
Hearing research 2020; 386: 107862 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Tracey BM
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84835 Measurement of Retinal Changes in Primary Acute Angle Closure Glaucoma under Different Durations of Symptoms
Zhu X
Journal of Ophthalmology 2019; 2019: 5409837 (IGR: 21-1)

84839 The relationship between glutathione levels in leukocytes and ocular clinical parameters in glaucoma
Yabana T
PLoS ONE 2019; 14: e0227078 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Chen A
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84883 Vessel Density in Glaucoma of Different Entities as Measured with Optical Coherence Tomography Angiography
Lommatzsch C
Clinical Ophthalmology 2019; 13: 2527-2534 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Wang Y
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Kuroda F
Scientific reports 2020; 10: 729 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Gericke A
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Hommer N
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Harris A
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85054 Peripapillary Vessel Density In Unilateral Preperimetric Glaucoma
Mangouritsas G
Clinical Ophthalmology 2019; 13: 2511-2519 (IGR: 21-1)

85071 Optical coherence tomography and optical coherence tomography angiography in glaucoma: diagnosis, progression, and correlation with functional tests
Triolo G
Therapeutic advances in ophthalmology 2020; 12: 2515841419899822 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Hou H; Hou H; Hou H
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Moorthy M
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84505 Signal Strength as an Important Factor in the Analysis of Peripapillary Microvascular Density Using Optical Coherence Tomography Angiography
Kim YW
Scientific reports 2019; 9: 16299 (IGR: 21-1)

84506 Regional Patterns in Retinal Microvascular Network Geometry in Health and Disease
Vujosevic S
Scientific reports 2019; 9: 16340 (IGR: 21-1)

84545 Association of Retinal Blood Flow with Progression of Visual Field in Glaucoma
Shin DY
Scientific reports 2019; 9: 16813 (IGR: 21-1)

84593 Evaluation of Peripapillary Choroidal Microvasculature to Detect Glaucomatous Damage in Eyes With High Myopia
Lee EJ
Journal of Glaucoma 2020; 29: 39-45 (IGR: 21-1)

84595 Relationship Between Foveal Threshold and Macular Structure/Function/Vessel Density in Glaucoma
Won HJ
Journal of Glaucoma 2020; 29: 104-111 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Tan O
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Harris A
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Jeon SJ
Scientific reports 2019; 9: 18503 (IGR: 21-1)

84758 Associations between tinnitus and glaucoma suggest a common mechanism: A clinical and population-based study
Neustaeter A
Hearing research 2020; 386: 107862 (IGR: 21-1)

84766 Peripapillary Vessel Density in Young Patients with Open-Angle Glaucoma: Comparison between High-Tension and Normal-Tension Glaucoma
Yoo C
Scientific reports 2019; 9: 19160 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Mayo LN
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84835 Measurement of Retinal Changes in Primary Acute Angle Closure Glaucoma under Different Durations of Symptoms
Zeng W
Journal of Ophthalmology 2019; 2019: 5409837 (IGR: 21-1)

84839 The relationship between glutathione levels in leukocytes and ocular clinical parameters in glaucoma
Sato K
PLoS ONE 2019; 14: e0227078 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Liu L
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84883 Vessel Density in Glaucoma of Different Entities as Measured with Optical Coherence Tomography Angiography
Rothaus K; Rothaus K
Clinical Ophthalmology 2019; 13: 2527-2534 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Xin C
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Iwase T
Scientific reports 2020; 10: 729 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Mann C
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Kallab M
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Guidoboni G
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85054 Peripapillary Vessel Density In Unilateral Preperimetric Glaucoma
Koutropoulou N
Clinical Ophthalmology 2019; 13: 2511-2519 (IGR: 21-1)

85071 Optical coherence tomography and optical coherence tomography angiography in glaucoma: diagnosis, progression, and correlation with functional tests
Rabiolo A
Therapeutic advances in ophthalmology 2020; 12: 2515841419899822 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Moghimi S
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Mathew S
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84505 Signal Strength as an Important Factor in the Analysis of Peripapillary Microvascular Density Using Optical Coherence Tomography Angiography
Nam KY
Scientific reports 2019; 9: 16299 (IGR: 21-1)

84506 Regional Patterns in Retinal Microvascular Network Geometry in Health and Disease
Popovic T
Scientific reports 2019; 9: 16340 (IGR: 21-1)

84545 Association of Retinal Blood Flow with Progression of Visual Field in Glaucoma
Park HL
Scientific reports 2019; 9: 16813 (IGR: 21-1)

84593 Evaluation of Peripapillary Choroidal Microvasculature to Detect Glaucomatous Damage in Eyes With High Myopia
Lee SH
Journal of Glaucoma 2020; 29: 39-45 (IGR: 21-1)

84595 Relationship Between Foveal Threshold and Macular Structure/Function/Vessel Density in Glaucoma
Jo YH
Journal of Glaucoma 2020; 29: 104-111 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Ing E
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Coleman AL
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Kim EK
Scientific reports 2019; 9: 18503 (IGR: 21-1)

84758 Associations between tinnitus and glaucoma suggest a common mechanism: A clinical and population-based study
de Kleine E
Hearing research 2020; 386: 107862 (IGR: 21-1)

84766 Peripapillary Vessel Density in Young Patients with Open-Angle Glaucoma: Comparison between High-Tension and Normal-Tension Glaucoma
Kim YY
Scientific reports 2019; 9: 19160 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Le CT
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84835 Measurement of Retinal Changes in Primary Acute Angle Closure Glaucoma under Different Durations of Symptoms
Wu S
Journal of Ophthalmology 2019; 2019: 5409837 (IGR: 21-1)

84839 The relationship between glutathione levels in leukocytes and ocular clinical parameters in glaucoma
Shiga Y
PLoS ONE 2019; 14: e0227078 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Wang J
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84883 Vessel Density in Glaucoma of Different Entities as Measured with Optical Coherence Tomography Angiography
Koch JM
Clinical Ophthalmology 2019; 13: 2527-2534 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Li M
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Yamamoto K
Scientific reports 2020; 10: 729 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Zadeh JK
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Szegedi S
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Siesky B
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85054 Peripapillary Vessel Density In Unilateral Preperimetric Glaucoma
Ragkousis A
Clinical Ophthalmology 2019; 13: 2511-2519 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Proudfoot JA
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Siesky B
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84505 Signal Strength as an Important Factor in the Analysis of Peripapillary Microvascular Density Using Optical Coherence Tomography Angiography
Ryu CK
Scientific reports 2019; 9: 16299 (IGR: 21-1)

84545 Association of Retinal Blood Flow with Progression of Visual Field in Glaucoma
Park CK
Scientific reports 2019; 9: 16813 (IGR: 21-1)

84593 Evaluation of Peripapillary Choroidal Microvasculature to Detect Glaucomatous Damage in Eyes With High Myopia
Kim TW
Journal of Glaucoma 2020; 29: 39-45 (IGR: 21-1)

84595 Relationship Between Foveal Threshold and Macular Structure/Function/Vessel Density in Glaucoma
Song MK
Journal of Glaucoma 2020; 29: 104-111 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Morrison JC
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Wilson MR
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Jung KI
Scientific reports 2019; 9: 18503 (IGR: 21-1)

84758 Associations between tinnitus and glaucoma suggest a common mechanism: A clinical and population-based study
van Dijk P
Hearing research 2020; 386: 107862 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Chen VY
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84835 Measurement of Retinal Changes in Primary Acute Angle Closure Glaucoma under Different Durations of Symptoms
Chen X
Journal of Ophthalmology 2019; 2019: 5409837 (IGR: 21-1)

84839 The relationship between glutathione levels in leukocytes and ocular clinical parameters in glaucoma
Himori N
PLoS ONE 2019; 14: e0227078 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Zang P
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84883 Vessel Density in Glaucoma of Different Entities as Measured with Optical Coherence Tomography Angiography
Heinz C
Clinical Ophthalmology 2019; 13: 2527-2534 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Swain DL
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Ra E
Scientific reports 2020; 10: 729 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Musayeva A
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Puchner S
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Mathew S
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85054 Peripapillary Vessel Density In Unilateral Preperimetric Glaucoma
Boutouri E
Clinical Ophthalmology 2019; 13: 2511-2519 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Ghahari E
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Verticchio Vercellin AC
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84505 Signal Strength as an Important Factor in the Analysis of Peripapillary Microvascular Density Using Optical Coherence Tomography Angiography
Jo YJ
Scientific reports 2019; 9: 16299 (IGR: 21-1)

84595 Relationship Between Foveal Threshold and Macular Structure/Function/Vessel Density in Glaucoma
Shin JW
Journal of Glaucoma 2020; 29: 104-111 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Edmunds B
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Founti P
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Park HYL
Scientific reports 2019; 9: 18503 (IGR: 21-1)

84758 Associations between tinnitus and glaucoma suggest a common mechanism: A clinical and population-based study
Jansonius NM
Hearing research 2020; 386: 107862 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Weichsel J
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84835 Measurement of Retinal Changes in Primary Acute Angle Closure Glaucoma under Different Durations of Symptoms
Zheng T
Journal of Ophthalmology 2019; 2019: 5409837 (IGR: 21-1)

84839 The relationship between glutathione levels in leukocytes and ocular clinical parameters in glaucoma
Omodaka K
PLoS ONE 2019; 14: e0227078 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Edmunds B
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84883 Vessel Density in Glaucoma of Different Entities as Measured with Optical Coherence Tomography Angiography
Grisanti S
Clinical Ophthalmology 2019; 13: 2527-2534 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Cao K
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Terasaki H
Scientific reports 2020; 10: 729 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Wolff I
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Stjepanek K
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Verticchio Vercellin AC
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85054 Peripapillary Vessel Density In Unilateral Preperimetric Glaucoma
Diagourtas A
Clinical Ophthalmology 2019; 13: 2511-2519 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Penteado RC
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Price D
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84505 Signal Strength as an Important Factor in the Analysis of Peripapillary Microvascular Density Using Optical Coherence Tomography Angiography
Kim JY
Scientific reports 2019; 9: 16299 (IGR: 21-1)

84595 Relationship Between Foveal Threshold and Macular Structure/Function/Vessel Density in Glaucoma
Kook MS
Journal of Glaucoma 2020; 29: 104-111 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Davis E
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Yu F
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Park CK
Scientific reports 2019; 9: 18503 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Renner CY
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84835 Measurement of Retinal Changes in Primary Acute Angle Closure Glaucoma under Different Durations of Symptoms
Ke M
Journal of Ophthalmology 2019; 2019: 5409837 (IGR: 21-1)

84839 The relationship between glutathione levels in leukocytes and ocular clinical parameters in glaucoma
Nakazawa T
PLoS ONE 2019; 14: e0227078 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Lombardi L
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Wang H
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Wang M
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Bauer M
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Rowe L
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Bowd C
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Januleviciene I
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Gupta S
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Siesky B
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Li J
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Davis E
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

84896 Macular vessel density versus ganglion cell complex thickness for detection of early primary open-angle glaucoma
Wang N
BMC Ophthalmology 2020; 20: 17 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Pfeiffer N
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Werkmeister RM
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85035 Ocular blood flow as a clinical observation: Value, limitations and data analysis
Arciero J
Progress in Retinal and Eye Research 2020; 0: 100841 (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Yang D
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84480 Circadian Rhythm and Glaucoma: What do We Know?
Harris A
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Lombardi LH
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Anastasopoulos E
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Tsai JJ
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Morrison JC
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Daiber A
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Schmetterer L
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

85134 Ganglion Cell Complex Thickness and Macular Vessel Density Loss in Primary Open-Angle Glaucoma
Weinreb RN
Ophthalmology 2020; 127: 1043-1052 (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Jia Y
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Pappas T
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Kalarn SP
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Jia Y
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Li H
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Abensperg-Traun M
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

84613 Sectorwise Visual Field Simulation Using Optical Coherence Tomographic Angiography Nerve Fiber Layer Plexus Measurements in Glaucoma
Huang D
American Journal of Ophthalmology 2020; 212: 57-68 (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Koskosas A
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Ou MT
Scientific reports 2019; 9: 20178 (IGR: 21-1)

84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Huang D
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Xia N
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Garhöfer G
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Kilintzis V
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Chang LY
Scientific reports 2019; 9: 20178 (IGR: 21-1)

85004 Elevated Intraocular Pressure Causes Abnormal Reactivity of Mouse Retinal Arterioles
Prokosch V
Oxidative medicine and cellular longevity 2019; 2019: 9736047 (IGR: 21-1)

85010 The Effect of Orally Administered Dronabinol on Optic Nerve Head Blood Flow in Healthy Subjects-A Randomized Clinical Trial
Schmidl D
Clinical Pharmacology and Therapeutics 2020; 0: (IGR: 21-1)

84632 Factors associated with non-active retinal capillary density as measured with Confocal Scanning Laser Doppler Flowmetry in an elderly population: the Thessaloniki Eye Study (TES)
Topouzis F
British Journal of Ophthalmology 2020; 104: 1246-1253 (IGR: 21-1)

84825 Measurement of Retinal Microvascular Blood Velocity Using Erythrocyte Mediated Velocimetry
Mohammed TK; Mohammed ISK; Shah KA; Thompson GM; Jones AMK; Im LT; Kaleem MA; Saeedi OJ
Scientific reports 2019; 9: 20178 (IGR: 21-1)

81590 Diagnostic performance of optical coherence tomography angiography in glaucoma: a systematic review and meta-analysis
Miguel AIM
British Journal of Ophthalmology 2019; 103: 1677-1684 (IGR: 20-4)

81605 Postural effects on spontaneous retinal venous pulsations in healthy individuals
Georgevsky D
Acta Ophthalmologica 2019; 97: e839-e843 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Bourouki E
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Bojikian KD
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81912 Alteration of Retinal Vessel Diameter of the Patients with Pseudoexfoliation and Optical Coherence Tomography Images
Oruc Y
Current Eye Research 2019; 44: 1253-1257 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Maric V
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

81989 Comparison of conjunctival vascularity changes using optical coherence tomography angiography after trabeculectomy and phacotrabeculectomy
Seo JH
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2239-2255 (IGR: 20-4)

82088 Network-based features for retinal fundus vessel structure analysis
Amil P
PLoS ONE 2019; 14: e0220132 (IGR: 20-4)

82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Lee KM
Scientific reports 2019; 9: 10999 (IGR: 20-4)

82150 Changes in spectral parameters of corneal pulse following canaloplasty
Danielewska ME
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2449-2459 (IGR: 20-4)

82183 Additive Role of Optical Coherence Tomography Angiography Vessel Density Measurements in Glaucoma Diagnoses
Kwon HJ
Korean Journal of Ophthalmology 2019; 33: 315-325 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Zabel P
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82220 Effect of surgical intraocular pressure lowering on retinal structures - nerve fibre layer, foveal avascular zone, peripapillary and macular vessel density: 1 year results
Ch'ng TW
Eye 2020; 34: 562-571 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Gracitelli CPB
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82359 Microvascular endothelial function and primary open angle glaucoma
Mudassar Imran Bukhari S
Therapeutic advances in ophthalmology 2019; 11: 2515841419868100 (IGR: 20-4)

82386 Peripapillary Choroidal Vascularity Index and Microstructure of Parapapillary Atrophy
Suh MH
Investigative Ophthalmology and Visual Science 2019; 60: 3768-3775 (IGR: 20-4)

82394 OCT Angiography: Measurement of Retinal Macular Microvasculature with Spectralis II OCT Angiography - Reliability and Reproducibility
Hosari S; Hosari S
Ophthalmologica 2020; 243: 75-84 (IGR: 20-4)

82396 Comparison of vascular-function and structure-function correlations in glaucomatous eyes with high myopia
Lee SH
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82501 Macular Vascularity in Ischemic Optic Neuropathy Compared to Glaucoma by Projection-Resolved Optical Coherence Tomography Angiography
Fard MA
American Journal of Ophthalmology 2020; 209: 27-34 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Kohmoto R
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Bochicchio S
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82547 Impact of resistance training sets performed until muscular failure with different loads on intraocular pressure and ocular perfusion pressure
Vera J
European Journal of Ophthalmology 2019; 0: 1120672119879838 (IGR: 20-4)

82565 Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma
Lu P
Current Eye Research 2019; 0: 1-7 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Rong X
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82581 Retinal and Choroidal Vascular Changes in Eyes with Pseudoexfoliation Syndrome: A Comparative Study Using Optical Coherence Tomography Angiography
Çınar E
Balkan Medical Journal 2019; 37: 9-14 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Uchida N
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Enders P
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Moghimi S
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82755 Pulse Waveform Analysis of the Ocular Blood Flow Using Laser Speckle Flowgraphy before and after Glaucoma Treatment
Masai S
Journal of Ophthalmology 2019; 2019: 1980493 (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Chan YM
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82845 Relationship between optical perfusion pressure and systemic blood pressure on glaucoma: Case-control study
Gore V
Oman journal of ophthalmology 2019; 12: 150-155 (IGR: 20-4)

82851 Comparison of flow velocity in ophthalmic artery between glaucomatous and normal subjects
Tiwari US
Romanian journal of ophthalmology 2019; 63: 346-353 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Nelson AJ
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

82867 A novel method for retinal vessel segmentation and diameter measurement using high speed video
Rezaeian M
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 2781-2784 (IGR: 20-4)

81590 Diagnostic performance of optical coherence tomography angiography in glaucoma: a systematic review and meta-analysis
Silva AB
British Journal of Ophthalmology 2019; 103: 1677-1684 (IGR: 20-4)

81605 Postural effects on spontaneous retinal venous pulsations in healthy individuals
Gangoda SVS
Acta Ophthalmologica 2019; 97: e839-e843 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Oikonomou E
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Nobrega P
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81912 Alteration of Retinal Vessel Diameter of the Patients with Pseudoexfoliation and Optical Coherence Tomography Images
Kirgiz A
Current Eye Research 2019; 44: 1253-1257 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Grgurevic A
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

81989 Comparison of conjunctival vascularity changes using optical coherence tomography angiography after trabeculectomy and phacotrabeculectomy
Lee Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2239-2255 (IGR: 20-4)

82088 Network-based features for retinal fundus vessel structure analysis
Reyes-Manzano CF
PLoS ONE 2019; 14: e0220132 (IGR: 20-4)

82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Kim JM
Scientific reports 2019; 9: 10999 (IGR: 20-4)

82150 Changes in spectral parameters of corneal pulse following canaloplasty
Kicińska AK
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2449-2459 (IGR: 20-4)

82183 Additive Role of Optical Coherence Tomography Angiography Vessel Density Measurements in Glaucoma Diagnoses
Kwon J
Korean Journal of Ophthalmology 2019; 33: 315-325 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Kaluzny JJ
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
de Faria NVL
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82359 Microvascular endothelial function and primary open angle glaucoma
Yew KK
Therapeutic advances in ophthalmology 2019; 11: 2515841419868100 (IGR: 20-4)

82386 Peripapillary Choroidal Vascularity Index and Microstructure of Parapapillary Atrophy
Park JW
Investigative Ophthalmology and Visual Science 2019; 60: 3768-3775 (IGR: 20-4)

82394 OCT Angiography: Measurement of Retinal Macular Microvasculature with Spectralis II OCT Angiography - Reliability and Reproducibility
Hohberger B
Ophthalmologica 2020; 243: 75-84 (IGR: 20-4)

82396 Comparison of vascular-function and structure-function correlations in glaucomatous eyes with high myopia
Lee EJ
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82501 Macular Vascularity in Ischemic Optic Neuropathy Compared to Glaucoma by Projection-Resolved Optical Coherence Tomography Angiography
Fakhraee G
American Journal of Ophthalmology 2020; 209: 27-34 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Sugiyama T
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Milani P
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82547 Impact of resistance training sets performed until muscular failure with different loads on intraocular pressure and ocular perfusion pressure
Jiménez R
European Journal of Ophthalmology 2019; 0: 1120672119879838 (IGR: 20-4)

82565 Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma
Xiao H
Current Eye Research 2019; 0: 1-7 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Cai Y
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82581 Retinal and Choroidal Vascular Changes in Eyes with Pseudoexfoliation Syndrome: A Comparative Study Using Optical Coherence Tomography Angiography
Yüce B
Balkan Medical Journal 2019; 37: 9-14 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Ishida K
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Longo V
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Safizadeh M
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82755 Pulse Waveform Analysis of the Ocular Blood Flow Using Laser Speckle Flowgraphy before and after Glaucoma Treatment
Ishida K
Journal of Ophthalmology 2019; 2019: 1980493 (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Ng EYK
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82845 Relationship between optical perfusion pressure and systemic blood pressure on glaucoma: Case-control study
Shah P
Oman journal of ophthalmology 2019; 12: 150-155 (IGR: 20-4)

82851 Comparison of flow velocity in ophthalmic artery between glaucomatous and normal subjects
Singh M
Romanian journal of ophthalmology 2019; 63: 346-353 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Chang R
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

82867 A novel method for retinal vessel segmentation and diameter measurement using high speed video
Butlin M
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 2781-2784 (IGR: 20-4)

81590 Diagnostic performance of optical coherence tomography angiography in glaucoma: a systematic review and meta-analysis
Azevedo LF
British Journal of Ophthalmology 2019; 103: 1677-1684 (IGR: 20-4)

81605 Postural effects on spontaneous retinal venous pulsations in healthy individuals
Golzan SM
Acta Ophthalmologica 2019; 97: e839-e843 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Moschos M
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Wen JC
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Cirkovic A
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

81989 Comparison of conjunctival vascularity changes using optical coherence tomography angiography after trabeculectomy and phacotrabeculectomy
Shin JH
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2239-2255 (IGR: 20-4)

82088 Network-based features for retinal fundus vessel structure analysis
Guzmán-Vargas L
PLoS ONE 2019; 14: e0220132 (IGR: 20-4)

82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Lee EJ
Scientific reports 2019; 9: 10999 (IGR: 20-4)

82150 Changes in spectral parameters of corneal pulse following canaloplasty
Placek MM
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2449-2459 (IGR: 20-4)

82183 Additive Role of Optical Coherence Tomography Angiography Vessel Density Measurements in Glaucoma Diagnoses
Sung KR
Korean Journal of Ophthalmology 2019; 33: 315-325 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Wilkosc-Debczynska M
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Almeida I
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82359 Microvascular endothelial function and primary open angle glaucoma
Thambiraja R
Therapeutic advances in ophthalmology 2019; 11: 2515841419868100 (IGR: 20-4)

82386 Peripapillary Choroidal Vascularity Index and Microstructure of Parapapillary Atrophy
Khandelwal N
Investigative Ophthalmology and Visual Science 2019; 60: 3768-3775 (IGR: 20-4)

82394 OCT Angiography: Measurement of Retinal Macular Microvasculature with Spectralis II OCT Angiography - Reliability and Reproducibility
Theelke L
Ophthalmologica 2020; 243: 75-84 (IGR: 20-4)

82396 Comparison of vascular-function and structure-function correlations in glaucomatous eyes with high myopia
Kim TW
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82501 Macular Vascularity in Ischemic Optic Neuropathy Compared to Glaucoma by Projection-Resolved Optical Coherence Tomography Angiography
Ghahvechian H
American Journal of Ophthalmology 2020; 209: 27-34 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Ueki M
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Urbini LE
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82547 Impact of resistance training sets performed until muscular failure with different loads on intraocular pressure and ocular perfusion pressure
Redondo B
European Journal of Ophthalmology 2019; 0: 1120672119879838 (IGR: 20-4)

82565 Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma
Liang C
Current Eye Research 2019; 0: 1-7 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Li M
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82581 Retinal and Choroidal Vascular Changes in Eyes with Pseudoexfoliation Syndrome: A Comparative Study Using Optical Coherence Tomography Angiography
Aslan F
Balkan Medical Journal 2019; 37: 9-14 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Anraku A
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Adler W
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Xu BY
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82755 Pulse Waveform Analysis of the Ocular Blood Flow Using Laser Speckle Flowgraphy before and after Glaucoma Treatment
Anraku A
Journal of Ophthalmology 2019; 2019: 1980493 (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Jahmunah V
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82845 Relationship between optical perfusion pressure and systemic blood pressure on glaucoma: Case-control study
Kanhere M
Oman journal of ophthalmology 2019; 12: 150-155 (IGR: 20-4)

82851 Comparison of flow velocity in ophthalmic artery between glaucomatous and normal subjects
Aishwarya A
Romanian journal of ophthalmology 2019; 63: 346-353 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
LeTran V
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

82867 A novel method for retinal vessel segmentation and diameter measurement using high speed video
Golzan SM
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 2781-2784 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Siasos G
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Zhang Q
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Stankovic S
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

81989 Comparison of conjunctival vascularity changes using optical coherence tomography angiography after trabeculectomy and phacotrabeculectomy
Kim YA
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2239-2255 (IGR: 20-4)

82088 Network-based features for retinal fundus vessel structure analysis
Sendiña-Nadal I
PLoS ONE 2019; 14: e0220132 (IGR: 20-4)

82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Kim TW
Scientific reports 2019; 9: 10999 (IGR: 20-4)

82150 Changes in spectral parameters of corneal pulse following canaloplasty
Lewczuk K
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2449-2459 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Gebska-Toloczko M
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Dias DT
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82359 Microvascular endothelial function and primary open angle glaucoma
Sulong S
Therapeutic advances in ophthalmology 2019; 11: 2515841419868100 (IGR: 20-4)

82386 Peripapillary Choroidal Vascularity Index and Microstructure of Parapapillary Atrophy
Agrawal R
Investigative Ophthalmology and Visual Science 2019; 60: 3768-3775 (IGR: 20-4)

82394 OCT Angiography: Measurement of Retinal Macular Microvasculature with Spectralis II OCT Angiography - Reliability and Reproducibility
Sari H
Ophthalmologica 2020; 243: 75-84 (IGR: 20-4)

82501 Macular Vascularity in Ischemic Optic Neuropathy Compared to Glaucoma by Projection-Resolved Optical Coherence Tomography Angiography
Sahraian A
American Journal of Ophthalmology 2020; 209: 27-34 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Kojima S
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Bulone E
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82547 Impact of resistance training sets performed until muscular failure with different loads on intraocular pressure and ocular perfusion pressure
Torrejón A
European Journal of Ophthalmology 2019; 0: 1120672119879838 (IGR: 20-4)

82565 Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma
Xu Y
Current Eye Research 2019; 0: 1-7 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Fang Y
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Takeyama A
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Horstmann J
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Fard MA
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82755 Pulse Waveform Analysis of the Ocular Blood Flow Using Laser Speckle Flowgraphy before and after Glaucoma Treatment
Takumi T
Journal of Ophthalmology 2019; 2019: 1980493 (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Wei Koh JE
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82845 Relationship between optical perfusion pressure and systemic blood pressure on glaucoma: Case-control study
Gore S
Oman journal of ophthalmology 2019; 12: 150-155 (IGR: 20-4)

82851 Comparison of flow velocity in ophthalmic artery between glaucomatous and normal subjects
Gupta A
Romanian journal of ophthalmology 2019; 63: 346-353 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Vu B
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

82867 A novel method for retinal vessel segmentation and diameter measurement using high speed video
Graham SL
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 2781-2784 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Siasou G
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Mudumbai RC
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Marjanovic I
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

81989 Comparison of conjunctival vascularity changes using optical coherence tomography angiography after trabeculectomy and phacotrabeculectomy
Park KH
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2239-2255 (IGR: 20-4)

82088 Network-based features for retinal fundus vessel structure analysis
Masoller C
PLoS ONE 2019; 14: e0220132 (IGR: 20-4)

82150 Changes in spectral parameters of corneal pulse following canaloplasty
Rękas M
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 2449-2459 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Suwala K
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Vieira JM
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82359 Microvascular endothelial function and primary open angle glaucoma
Ghulam Rasool AH
Therapeutic advances in ophthalmology 2019; 11: 2515841419868100 (IGR: 20-4)

82394 OCT Angiography: Measurement of Retinal Macular Microvasculature with Spectralis II OCT Angiography - Reliability and Reproducibility
Lucio M
Ophthalmologica 2020; 243: 75-84 (IGR: 20-4)

82501 Macular Vascularity in Ischemic Optic Neuropathy Compared to Glaucoma by Projection-Resolved Optical Coherence Tomography Angiography
Moghimi S
American Journal of Ophthalmology 2020; 209: 27-34 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Maeda M
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Carmassi L
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82547 Impact of resistance training sets performed until muscular failure with different loads on intraocular pressure and ocular perfusion pressure
De Moraes CG
European Journal of Ophthalmology 2019; 0: 1120672119879838 (IGR: 20-4)

82565 Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma
Ye D
Current Eye Research 2019; 0: 1-7 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Tian T
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82637 Macular vessel density in untreated normal tension glaucoma with a hemifield defect
Tomita G
Japanese Journal of Ophthalmology 2019; 63: 457-466 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Schaub F
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Khatibi N
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82755 Pulse Waveform Analysis of the Ocular Blood Flow Using Laser Speckle Flowgraphy before and after Glaucoma Treatment
Tomita G
Journal of Ophthalmology 2019; 2019: 1980493 (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Lih OS
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82851 Comparison of flow velocity in ophthalmic artery between glaucomatous and normal subjects
Chhabra K
Romanian journal of ophthalmology 2019; 63: 346-353 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Burkemper B
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

82867 A novel method for retinal vessel segmentation and diameter measurement using high speed video
Avolio AP
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 2781-2784 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Gouliopoulos N
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Johnstone MA
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Milovanovic J
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Zabel K
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Dorairaj S
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82359 Microvascular endothelial function and primary open angle glaucoma
Ahmad Tajudin LS
Therapeutic advances in ophthalmology 2019; 11: 2515841419868100 (IGR: 20-4)

82394 OCT Angiography: Measurement of Retinal Macular Microvasculature with Spectralis II OCT Angiography - Reliability and Reproducibility
Mardin CY
Ophthalmologica 2020; 243: 75-84 (IGR: 20-4)

82501 Macular Vascularity in Ischemic Optic Neuropathy Compared to Glaucoma by Projection-Resolved Optical Coherence Tomography Angiography
Ritch R
American Journal of Ophthalmology 2020; 209: 27-34 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Nemoto E
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Fratantonio E
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82547 Impact of resistance training sets performed until muscular failure with different loads on intraocular pressure and ocular perfusion pressure
García-Ramos A; García-Ramos A
European Journal of Ophthalmology 2019; 0: 1120672119879838 (IGR: 20-4)

82565 Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma
Huang J
Current Eye Research 2019; 0: 1-7 (IGR: 20-4)

82577 Peripapillary retinal artery in first diagnosed and untreated normal tension glaucoma
Pan Y
BMC Ophthalmology 2019; 19: 203 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Dietlein T
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Rao HL
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Wei Leon LY
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Chu Z
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Deftereos S
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Wang RK
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Milovanovic A
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Zaron A
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Kanadani FN
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Tokuoka S
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Castegna G
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Cursiefen C
Eye 2019; 0: (IGR: 20-4)

82748 Vessel density and retinal nerve fibre layer thickness following acute primary angle closure
Weinreb RN
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82776 Automated detection of glaucoma using optical coherence tomography angiogram images
Acharya UR
Computers in Biology and Medicine 2019; 115: 103483 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Fard A
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Miliou A
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

81894 Macular Vascular Microcirculation in Eyes With Open-angle Glaucoma Using Different Visual Field Severity Classification Systems
Chen PP
Journal of Glaucoma 2019; 28: 790-796 (IGR: 20-4)

81982 Nailfold capillary morphology and platelet function in patients with exfoliative glaucoma
Bozic M
PLoS ONE 2019; 14: e0219505 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Kucharski R
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82346 Exercise-Induced Changes in Ocular Blood Flow Parameters in Primary Open-Angle Glaucoma Patients
Prata TS
Ophthalmic Research 2019; 0: 1-5 (IGR: 20-4)

82530 Correlation between laser speckle flowgraphy and optical coherence tomography angiography measurements in normal and glaucomatous eyes
Ikeda T
Clinical Ophthalmology 2019; 13: 1799-1805 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Scotti L
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82698 Analysis of peripapillary vessel density and Bruch's membrane opening-based neuroretinal rim parameters in glaucoma using OCT and OCT-angiography
Heindl LM
Eye 2019; 0: (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Kashani A
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Zacharia E
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

82218 Comparison of Retinal Microvasculature in Patients With Alzheimer's Disease and Primary Open-Angle Glaucoma by Optical Coherence Tomography Angiography
Araszkiewicz A
Investigative Ophthalmology and Visual Science 2019; 60: 3447-3455 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Zambon A
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Xu B
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

81849 Pseudoexfoliative Glaucoma, Endothelial Dysfunction, and Arterial Stiffness: The Role of Circulating Apoptotic Endothelial Microparticles
Tousoulis D
Journal of Glaucoma 2019; 28: 749-755 (IGR: 20-4)

82531 Diurnal Stability Of Peripapillary Vessel Density And Nerve Fiber Layer Thickness On Optical Coherence Tomography Angiography In Healthy, Ocular Hypertension And Glaucoma Eyes
Bergamini F
Clinical Ophthalmology 2019; 13: 1823-1832 (IGR: 20-4)

82852 Ocular Determinants of Peripapillary Vessel Density in Healthy African Americans: The African American Eye Disease Study
Wang R; Varma R; Richter GM;
Investigative Ophthalmology and Visual Science 2019; 60: 3368-3373 (IGR: 20-4)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Chang R
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80526 Relationship Between Optical Coherence Tomography Angiography Peripapillary Vessel Density and Lamina Cribrosa Depth
Eah KS
Journal of Glaucoma 2019; 28: 459-464 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Wen JC
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80564 Greater Severity of Glaucomatous Damage in Eyes With Than Without Choroidal Microvasculature Dropout in Open-Angle Glaucoma
Jo YH
Investigative Ophthalmology and Visual Science 2019; 60: 901-912 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Kwon J
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Moghimi S
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Ghahari E
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80652 Topical medical therapy and ocular perfusion pressure in open angle glaucoma: a systematic review and meta-analysis
Rennie G
Current Medical Research and Opinion 2019; 35: 1421-1431 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Tepelus TC
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80684 Choroidal vascular index in patients with open angle glaucoma and preperimetric glaucoma
Park Y
PLoS ONE 2019; 14: e0213336 (IGR: 20-3)

80709 Diurnal variations in flow density measured using optical coherence tomography angiography and the impact of heart rate, mean arterial pressure and intraocular pressure on flow density in primary open-angle glaucoma patients
Müller VC
Acta Ophthalmologica 2019; 97: e844-e849 (IGR: 20-3)

80750 Association Between Parapapillary Choroidal Vessel Density Measured With Optical Coherence Tomography Angiography and Future Visual Field Progression in Patients With Glaucoma
Park HY
JAMA ophthalmology 2019; 137: 681-688 (IGR: 20-3)

80781 Correlation of the Retinal Parapapillary Perfusion and the Retinal Vessel Oxygen Saturation in Glaucoma Patients
Hasan SM
Investigative Ophthalmology and Visual Science 2019; 60: 1309-1315 (IGR: 20-3)

80802 Optical Coherence Tomography Angiography and Glaucoma: A Brief Review
Moghimi S
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 0: (IGR: 20-3)

80809 Influence of Posterior Subcapsular Cataract on Structural OCT and OCT Angiography Vessel Density Measurements in the Peripapillary Retina
Holló G
Journal of Glaucoma 2019; 28: e61-e63 (IGR: 20-3)

80844 Nailfold Capillaroscopy of Resting Peripheral Blood Flow in Exfoliation Glaucoma and Primary Open-Angle Glaucoma
Philip S; Philip S
JAMA ophthalmology 2019; 137: 618-625 (IGR: 20-3)

80863 An overview of optical coherence tomography angiography and the posterior pole
Onishi AC
Therapeutic advances in ophthalmology 2019; 11: 2515841419840249 (IGR: 20-3)

80900 Relating glaucomatous visual field loss to retinal oxygen delivery and metabolism
Aref AA
Acta Ophthalmologica 2019; 97: e968-e972 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Baek SU; Baek SU
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

80988 Intereye and intraeye asymmetry analysis of retinal microvascular and neural structure parameters for diagnosis of primary open-angle glaucoma
Xu H
Eye 2019; 33: 1596-1605 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Carichino L
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81018 Retinal perfusion 6 months after trabeculectomy as measured by optical coherence tomography angiography
Lommatzsch C
International Ophthalmology 2019; 39: 2583-2594 (IGR: 20-3)

81028 Measurable Aspects of the Retinal Neurovascular Unit in Diabetes, Glaucoma, and Controls
Spaide RF
American Journal of Ophthalmology 2019; 207: 395-409 (IGR: 20-3)

81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Kim JA
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)

81066 The Effects of Ocular Perfusion Pressure Variations on a Case of Circumscribed Choroidal Hemangioma Affected by Primary Open-Angle Glaucoma
Cutolo CA
Ophthalmic surgery, lasers & imaging retina 2019; 50: e163-e165 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Akagi T
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Karadag R
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Pradhan ZS
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81089 Evaluation of Functional Filtering Bleb Using Optical Coherence Tomography Angiography
Seo JH
Translational vision science & technology 2019; 8: 14 (IGR: 20-3)

81115 Evaluation of Parapapillary Choroidal Microvasculature Dropout and Progressive Retinal Nerve Fiber Layer Thinning in Patients With Glaucoma
Kim JA
JAMA ophthalmology 2019; 137: 810-816 (IGR: 20-3)

81193 A Review of OCT Angiography in Glaucoma
Werner AC
Seminars in Ophthalmology 2019; 34: 279-286 (IGR: 20-3)

81194 Characterization of the ocular surface temperature dynamics in glaucoma subjects using long-wave infrared thermal imaging
García-Porta N
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2019; 36: 1015-1021 (IGR: 20-3)

81253 Rapid Central Visual Field Progression Rate in Eyes with Open-Angle Glaucoma and Choroidal Microvasculature Dropout
Jo YH
Scientific reports 2019; 9: 8525 (IGR: 20-3)

81286 Assessment of the optic nerve head, peripapillary, and macular microcirculation in the newly diagnosed patients with primary open-angle glaucoma treated with topical tafluprost and tafluprost/timolol fixed combination
Kurysheva NI
Taiwan journal of ophthalmology 2019; 9: 93-99 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Kiyota N
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81318 Changes in vessel density of the patients with narrow antenior chamber after an acute intraocular pressure elevation observed by OCT angiography
Ma ZW
BMC Ophthalmology 2019; 19: 132 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Chang R
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81326 Increased Nighttime Blood Pressure in Patients with Glaucoma: Cross-sectional Analysis of the LIGHT Study
Yoshikawa T
Ophthalmology 2019; 126: 1366-1371 (IGR: 20-3)

81371 Effect of cold provocation on vessel density in eyes with primary open angle glaucoma: An optical coherence tomography angiography study
Chou WY
Scientific reports 2019; 9: 9384 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Konieczka K
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Woetzel AK
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Gardiner SK
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)

81449 Guidelines for ultrasound examination in ophthalmology. Part III: Color Doppler ultrasonography
Modrzejewska M
Journal of ultrasonography 2019; 19: 128-136 (IGR: 20-3)

81460 Diagnostic Ability of Macular Vessel Density in the Ganglion Cell-Inner Plexiform Layer on Optical Coherence Tomographic Angiography for Glaucoma
Shin J
Translational vision science & technology 2019; 8: 12 (IGR: 20-3)

81482 Retinal vessel segmentation using dense U-net with multiscale inputs
Yue K
Journal of medical imaging (Bellingham, Wash.) 2019; 6: 034004 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Chu Z
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80526 Relationship Between Optical Coherence Tomography Angiography Peripapillary Vessel Density and Lamina Cribrosa Depth
Shin JW
Journal of Glaucoma 2019; 28: 459-464 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Chen CL
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80564 Greater Severity of Glaucomatous Damage in Eyes With Than Without Choroidal Microvasculature Dropout in Open-Angle Glaucoma
Kwon J
Investigative Ophthalmology and Visual Science 2019; 60: 901-912 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Jo YH
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Bowd C
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Bowd C
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80652 Topical medical therapy and ocular perfusion pressure in open angle glaucoma: a systematic review and meta-analysis
Wilkinson A
Current Medical Research and Opinion 2019; 35: 1421-1431 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Song S
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80684 Choroidal vascular index in patients with open angle glaucoma and preperimetric glaucoma
Cho KJ
PLoS ONE 2019; 14: e0213336 (IGR: 20-3)

80709 Diurnal variations in flow density measured using optical coherence tomography angiography and the impact of heart rate, mean arterial pressure and intraocular pressure on flow density in primary open-angle glaucoma patients
Storp JJ
Acta Ophthalmologica 2019; 97: e844-e849 (IGR: 20-3)

80750 Association Between Parapapillary Choroidal Vessel Density Measured With Optical Coherence Tomography Angiography and Future Visual Field Progression in Patients With Glaucoma
Shin DY
JAMA ophthalmology 2019; 137: 681-688 (IGR: 20-3)

80781 Correlation of the Retinal Parapapillary Perfusion and the Retinal Vessel Oxygen Saturation in Glaucoma Patients
Hammer M
Investigative Ophthalmology and Visual Science 2019; 60: 1309-1315 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Kim YK
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80802 Optical Coherence Tomography Angiography and Glaucoma: A Brief Review
Hou H; Hou H; Hou H
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 0: (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Luft N
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80844 Nailfold Capillaroscopy of Resting Peripheral Blood Flow in Exfoliation Glaucoma and Primary Open-Angle Glaucoma
Najafi A; Najafi A
JAMA ophthalmology 2019; 137: 618-625 (IGR: 20-3)

80863 An overview of optical coherence tomography angiography and the posterior pole
Fawzi AA
Therapeutic advances in ophthalmology 2019; 11: 2515841419840249 (IGR: 20-3)

80900 Relating glaucomatous visual field loss to retinal oxygen delivery and metabolism
Maleki S
Acta Ophthalmologica 2019; 97: e968-e972 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Kim YK
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

80988 Intereye and intraeye asymmetry analysis of retinal microvascular and neural structure parameters for diagnosis of primary open-angle glaucoma
Zong Y
Eye 2019; 33: 1596-1605 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Harris A
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81018 Retinal perfusion 6 months after trabeculectomy as measured by optical coherence tomography angiography
Rothaus K; Rothaus K
International Ophthalmology 2019; 39: 2583-2594 (IGR: 20-3)

81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Kim TW
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)

81066 The Effects of Ocular Perfusion Pressure Variations on a Case of Circumscribed Choroidal Hemangioma Affected by Primary Open-Angle Glaucoma
Ancona C
Ophthalmic surgery, lasers & imaging retina 2019; 50: e163-e165 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Uji A
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Koyun E
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Rao HL
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81089 Evaluation of Functional Filtering Bleb Using Optical Coherence Tomography Angiography
Kim YA
Translational vision science & technology 2019; 8: 14 (IGR: 20-3)

81115 Evaluation of Parapapillary Choroidal Microvasculature Dropout and Progressive Retinal Nerve Fiber Layer Thinning in Patients With Glaucoma
Lee EJ
JAMA ophthalmology 2019; 137: 810-816 (IGR: 20-3)

81193 A Review of OCT Angiography in Glaucoma
Shen LQ
Seminars in Ophthalmology 2019; 34: 279-286 (IGR: 20-3)

81194 Characterization of the ocular surface temperature dynamics in glaucoma subjects using long-wave infrared thermal imaging
Gantes-Nuñez FJ
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2019; 36: 1015-1021 (IGR: 20-3)

81253 Rapid Central Visual Field Progression Rate in Eyes with Open-Angle Glaucoma and Choroidal Microvasculature Dropout
Kwon J
Scientific reports 2019; 9: 8525 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Shiga Y
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81318 Changes in vessel density of the patients with narrow antenior chamber after an acute intraocular pressure elevation observed by OCT angiography
Qiu WH
BMC Ophthalmology 2019; 19: 132 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Nelson AJ
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81326 Increased Nighttime Blood Pressure in Patients with Glaucoma: Cross-sectional Analysis of the LIGHT Study
Obayashi K
Ophthalmology 2019; 126: 1366-1371 (IGR: 20-3)

81371 Effect of cold provocation on vessel density in eyes with primary open angle glaucoma: An optical coherence tomography angiography study
Liu CJ
Scientific reports 2019; 9: 9384 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Koch S
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Lauermann JL
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Cull G
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)

81460 Diagnostic Ability of Macular Vessel Density in the Ganglion Cell-Inner Plexiform Layer on Optical Coherence Tomographic Angiography for Glaucoma
Kwon JM
Translational vision science & technology 2019; 8: 12 (IGR: 20-3)

81482 Retinal vessel segmentation using dense U-net with multiscale inputs
Zou B
Journal of medical imaging (Bellingham, Wash.) 2019; 6: 034004 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Burkemper B
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80526 Relationship Between Optical Coherence Tomography Angiography Peripapillary Vessel Density and Lamina Cribrosa Depth
Sung KR
Journal of Glaucoma 2019; 28: 459-464 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Rezaei KA
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80564 Greater Severity of Glaucomatous Damage in Eyes With Than Without Choroidal Microvasculature Dropout in Open-Angle Glaucoma
Shon K
Investigative Ophthalmology and Visual Science 2019; 60: 901-912 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Jeong D
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Zangwill LM
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Zangwill LM
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80652 Topical medical therapy and ocular perfusion pressure in open angle glaucoma: a systematic review and meta-analysis
White A
Current Medical Research and Opinion 2019; 35: 1421-1431 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Borrelli E; Borrelli E
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80709 Diurnal variations in flow density measured using optical coherence tomography angiography and the impact of heart rate, mean arterial pressure and intraocular pressure on flow density in primary open-angle glaucoma patients
Kerschke L
Acta Ophthalmologica 2019; 97: e844-e849 (IGR: 20-3)

80750 Association Between Parapapillary Choroidal Vessel Density Measured With Optical Coherence Tomography Angiography and Future Visual Field Progression in Patients With Glaucoma
Jeon SJ
JAMA ophthalmology 2019; 137: 681-688 (IGR: 20-3)

80781 Correlation of the Retinal Parapapillary Perfusion and the Retinal Vessel Oxygen Saturation in Glaucoma Patients
Meller D
Investigative Ophthalmology and Visual Science 2019; 60: 1309-1315 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Baek SU; Baek SU
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80802 Optical Coherence Tomography Angiography and Glaucoma: A Brief Review
Rao H
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 0: (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Podkowinski D
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80844 Nailfold Capillaroscopy of Resting Peripheral Blood Flow in Exfoliation Glaucoma and Primary Open-Angle Glaucoma
Tantraworasin A
JAMA ophthalmology 2019; 137: 618-625 (IGR: 20-3)

80900 Relating glaucomatous visual field loss to retinal oxygen delivery and metabolism
Tan O
Acta Ophthalmologica 2019; 97: e968-e972 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Ha A
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

80988 Intereye and intraeye asymmetry analysis of retinal microvascular and neural structure parameters for diagnosis of primary open-angle glaucoma
Zhai R
Eye 2019; 33: 1596-1605 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Lapin S
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81018 Retinal perfusion 6 months after trabeculectomy as measured by optical coherence tomography angiography
Koch JM
International Ophthalmology 2019; 39: 2583-2594 (IGR: 20-3)

81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Lee EJ
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)

81066 The Effects of Ocular Perfusion Pressure Variations on a Case of Circumscribed Choroidal Hemangioma Affected by Primary Open-Angle Glaucoma
Iester M
Ophthalmic surgery, lasers & imaging retina 2019; 50: e163-e165 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Okamoto Y
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Ozsoy I
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Dixit S
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81089 Evaluation of Functional Filtering Bleb Using Optical Coherence Tomography Angiography
Park KH
Translational vision science & technology 2019; 8: 14 (IGR: 20-3)

81115 Evaluation of Parapapillary Choroidal Microvasculature Dropout and Progressive Retinal Nerve Fiber Layer Thinning in Patients With Glaucoma
Kim TW
JAMA ophthalmology 2019; 137: 810-816 (IGR: 20-3)

81194 Characterization of the ocular surface temperature dynamics in glaucoma subjects using long-wave infrared thermal imaging
Tabernero J
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2019; 36: 1015-1021 (IGR: 20-3)

81253 Rapid Central Visual Field Progression Rate in Eyes with Open-Angle Glaucoma and Choroidal Microvasculature Dropout
Jeong D
Scientific reports 2019; 9: 8525 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Yasuda M
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81318 Changes in vessel density of the patients with narrow antenior chamber after an acute intraocular pressure elevation observed by OCT angiography
Zhou DN
BMC Ophthalmology 2019; 19: 132 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
LeTran V
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81326 Increased Nighttime Blood Pressure in Patients with Glaucoma: Cross-sectional Analysis of the LIGHT Study
Miyata K
Ophthalmology 2019; 126: 1366-1371 (IGR: 20-3)

81371 Effect of cold provocation on vessel density in eyes with primary open angle glaucoma: An optical coherence tomography angiography study
Chen MJ
Scientific reports 2019; 9: 9384 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Hauenstein D
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Kreitz K
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Fortune B
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)

81460 Diagnostic Ability of Macular Vessel Density in the Ganglion Cell-Inner Plexiform Layer on Optical Coherence Tomographic Angiography for Glaucoma
Park SH
Translational vision science & technology 2019; 8: 12 (IGR: 20-3)

81482 Retinal vessel segmentation using dense U-net with multiscale inputs
Chen Z
Journal of medical imaging (Bellingham, Wash.) 2019; 6: 034004 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Lee GC
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Chao JR
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80564 Greater Severity of Glaucomatous Damage in Eyes With Than Without Choroidal Microvasculature Dropout in Open-Angle Glaucoma
Jeong D
Investigative Ophthalmology and Visual Science 2019; 60: 901-912 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Shon K
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Penteado RC
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Proudfoot J; Proudfoot J
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80652 Topical medical therapy and ocular perfusion pressure in open angle glaucoma: a systematic review and meta-analysis
Ruospo M
Current Medical Research and Opinion 2019; 35: 1421-1431 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Nittala MG
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80709 Diurnal variations in flow density measured using optical coherence tomography angiography and the impact of heart rate, mean arterial pressure and intraocular pressure on flow density in primary open-angle glaucoma patients
Nelis P
Acta Ophthalmologica 2019; 97: e844-e849 (IGR: 20-3)

80750 Association Between Parapapillary Choroidal Vessel Density Measured With Optical Coherence Tomography Angiography and Future Visual Field Progression in Patients With Glaucoma
Park CK
JAMA ophthalmology 2019; 137: 681-688 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Ha A
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80802 Optical Coherence Tomography Angiography and Glaucoma: A Brief Review
Weinreb RN
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2019; 0: (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Ring M
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80844 Nailfold Capillaroscopy of Resting Peripheral Blood Flow in Exfoliation Glaucoma and Primary Open-Angle Glaucoma
Pasquale LR
JAMA ophthalmology 2019; 137: 618-625 (IGR: 20-3)

80900 Relating glaucomatous visual field loss to retinal oxygen delivery and metabolism
Huang D
Acta Ophthalmologica 2019; 97: e968-e972 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Kim YW
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

80988 Intereye and intraeye asymmetry analysis of retinal microvascular and neural structure parameters for diagnosis of primary open-angle glaucoma
Kong X
Eye 2019; 33: 1596-1605 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Guidoboni G
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81018 Retinal perfusion 6 months after trabeculectomy as measured by optical coherence tomography angiography
Heinz C
International Ophthalmology 2019; 39: 2583-2594 (IGR: 20-3)

81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Girard MJA
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)

81066 The Effects of Ocular Perfusion Pressure Variations on a Case of Circumscribed Choroidal Hemangioma Affected by Primary Open-Angle Glaucoma
Traverso CE
Ophthalmic surgery, lasers & imaging retina 2019; 50: e163-e165 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Suda K
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Caliskan M
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Sreenivasaiah S
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81089 Evaluation of Functional Filtering Bleb Using Optical Coherence Tomography Angiography
Lee Y
Translational vision science & technology 2019; 8: 14 (IGR: 20-3)

81194 Characterization of the ocular surface temperature dynamics in glaucoma subjects using long-wave infrared thermal imaging
Pardhan S
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2019; 36: 1015-1021 (IGR: 20-3)

81253 Rapid Central Visual Field Progression Rate in Eyes with Open-Angle Glaucoma and Choroidal Microvasculature Dropout
Shon K
Scientific reports 2019; 9: 8525 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Aizawa N
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81318 Changes in vessel density of the patients with narrow antenior chamber after an acute intraocular pressure elevation observed by OCT angiography
Yang WH
BMC Ophthalmology 2019; 19: 132 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Vu B
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81326 Increased Nighttime Blood Pressure in Patients with Glaucoma: Cross-sectional Analysis of the LIGHT Study
Saeki K
Ophthalmology 2019; 126: 1366-1371 (IGR: 20-3)

81371 Effect of cold provocation on vessel density in eyes with primary open angle glaucoma: An optical coherence tomography angiography study
Chiou SH
Scientific reports 2019; 9: 9384 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Chackathayil TN
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Alnawaiseh M
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Wang L
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)

81460 Diagnostic Ability of Macular Vessel Density in the Ganglion Cell-Inner Plexiform Layer on Optical Coherence Tomographic Angiography for Glaucoma
Seo JH
Translational vision science & technology 2019; 8: 12 (IGR: 20-3)

81482 Retinal vessel segmentation using dense U-net with multiscale inputs
Liu Q
Journal of medical imaging (Bellingham, Wash.) 2019; 6: 034004 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Fard A
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Vemulakonda A
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80564 Greater Severity of Glaucomatous Damage in Eyes With Than Without Choroidal Microvasculature Dropout in Open-Angle Glaucoma
Kook MS
Investigative Ophthalmology and Visual Science 2019; 60: 901-912 (IGR: 20-3)

80602 Baseline Systolic versus Diastolic Blood Pressure Dip and Subsequent Visual Field Progression in Normal-Tension Glaucoma
Kook MS
Ophthalmology 2019; 126: 967-979 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Hasenstab K
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Hasenstab KA
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80652 Topical medical therapy and ocular perfusion pressure in open angle glaucoma: a systematic review and meta-analysis
Teixeira-Pinto A
Current Medical Research and Opinion 2019; 35: 1421-1431 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Baghdasaryan E
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80709 Diurnal variations in flow density measured using optical coherence tomography angiography and the impact of heart rate, mean arterial pressure and intraocular pressure on flow density in primary open-angle glaucoma patients
Eter N
Acta Ophthalmologica 2019; 97: e844-e849 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Kim YW
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Schmetterer L
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80844 Nailfold Capillaroscopy of Resting Peripheral Blood Flow in Exfoliation Glaucoma and Primary Open-Angle Glaucoma
Ritch R
JAMA ophthalmology 2019; 137: 618-625 (IGR: 20-3)

80900 Relating glaucomatous visual field loss to retinal oxygen delivery and metabolism
Varma R
Acta Ophthalmologica 2019; 97: e968-e972 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Lee J
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

80988 Intereye and intraeye asymmetry analysis of retinal microvascular and neural structure parameters for diagnosis of primary open-angle glaucoma
Jiang C
Eye 2019; 33: 1596-1605 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Cassani S
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81018 Retinal perfusion 6 months after trabeculectomy as measured by optical coherence tomography angiography
Grisanti S
International Ophthalmology 2019; 39: 2583-2594 (IGR: 20-3)

81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Mari JM
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)

81066 The Effects of Ocular Perfusion Pressure Variations on a Case of Circumscribed Choroidal Hemangioma Affected by Primary Open-Angle Glaucoma
Nicolò M
Ophthalmic surgery, lasers & imaging retina 2019; 50: e163-e165 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Kameda T
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Reddy PG
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81253 Rapid Central Visual Field Progression Rate in Eyes with Open-Angle Glaucoma and Choroidal Microvasculature Dropout
Kook MS
Scientific reports 2019; 9: 8525 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Omodaka K
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81318 Changes in vessel density of the patients with narrow antenior chamber after an acute intraocular pressure elevation observed by OCT angiography
Pan XF
BMC Ophthalmology 2019; 19: 132 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Burkemper B
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81326 Increased Nighttime Blood Pressure in Patients with Glaucoma: Cross-sectional Analysis of the LIGHT Study
Ogata N
Ophthalmology 2019; 126: 1366-1371 (IGR: 20-3)

81371 Effect of cold provocation on vessel density in eyes with primary open angle glaucoma: An optical coherence tomography angiography study
Chen WT
Scientific reports 2019; 9: 9384 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Binggeli T
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Clemens CR
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

81460 Diagnostic Ability of Macular Vessel Density in the Ganglion Cell-Inner Plexiform Layer on Optical Coherence Tomographic Angiography for Glaucoma
Jung JH
Translational vision science & technology 2019; 8: 12 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Durbin MK
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Luttrell I
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Hou H; Hou H; Hou H
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Hou H; Hou H; Hou H
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80652 Topical medical therapy and ocular perfusion pressure in open angle glaucoma: a systematic review and meta-analysis
Strippoli G
Current Medical Research and Opinion 2019; 35: 1421-1431 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Sadda SR
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80709 Diurnal variations in flow density measured using optical coherence tomography angiography and the impact of heart rate, mean arterial pressure and intraocular pressure on flow density in primary open-angle glaucoma patients
Alnawaiseh M
Acta Ophthalmologica 2019; 97: e844-e849 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Jeoung JW
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80814 Differences in Optic Nerve Head Blood Flow Regulation in Normal Tension Glaucoma Patients and Healthy Controls as Assessed With Laser Speckle Flowgraphy During the Water Drinking Test
Bolz M
Journal of Glaucoma 2019; 28: 649-654 (IGR: 20-3)

80900 Relating glaucomatous visual field loss to retinal oxygen delivery and metabolism
Shahidi M
Acta Ophthalmologica 2019; 97: e968-e972 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Kim JS
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

80988 Intereye and intraeye asymmetry analysis of retinal microvascular and neural structure parameters for diagnosis of primary open-angle glaucoma
Sun X
Eye 2019; 33: 1596-1605 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
De Silvestri A
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Nakanishi H
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Venugopal JP
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Tsuda S
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81318 Changes in vessel density of the patients with narrow antenior chamber after an acute intraocular pressure elevation observed by OCT angiography
Chen H
BMC Ophthalmology 2019; 19: 132 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Chu Z
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81371 Effect of cold provocation on vessel density in eyes with primary open angle glaucoma: An optical coherence tomography angiography study
Ko YC
Scientific reports 2019; 9: 9384 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Schoetzau A
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Eter N
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Reznik A
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Wang RK
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Ghahari E
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Penteado RC
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80675 Quantitative Analysis of Retinal and Choroidal Vascular Parameters in Patients With Low Tension Glaucoma
Chopra V
Journal of Glaucoma 2019; 28: 557-562 (IGR: 20-3)

80792 Topographic correlation between macular superficial microvessel density and ganglion cell-inner plexiform layer thickness in glaucoma-suspect and early normal-tension glaucoma
Park KH
British Journal of Ophthalmology 2020; 104: 104-109 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Jeoung JW
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Tinelli C
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Ikeda HO
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Puttaiah NK
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Kunikata H
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Fard A
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

81381 Effects of the Glaucoma Drugs Latanoprost and Brimonidine on Corneal Temperature
Flammer J
Translational vision science & technology 2019; 8: 47 (IGR: 20-3)

81427 Optical coherence tomography angiography image quality assessment at varying retinal expertise levels
Alten F
Journal of current ophthalmology 2019; 31: 161-167 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Xu BY
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Chen PP
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Manalastas PIC
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Manalastas PIC
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

80928 Diurnal change of retinal vessel density and mean ocular perfusion pressure in patients with open-angle glaucoma
Park KH
PLoS ONE 2019; 14: e0215684 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Milano G
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Miyake M
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Devi S
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81316 Sectoral Differences in the Association of Optic Nerve Head Blood Flow and Glaucomatous Visual Field Defect Severity and Progression
Nakazawa T
Investigative Ophthalmology and Visual Science 2019; 60: 2650-2658 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Kashani AH
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Kashani A
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Proudfoot J; Proudfoot J
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Moghimi S
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Siesky B
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Nakano E
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Weinreb RN
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Xu BY
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Varma R
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80613 Measurement Floors and Dynamic Ranges of OCT and OCT Angiography in Glaucoma
Weinreb RN
Ophthalmology 2019; 126: 980-988 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Shoji T
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

81005 Waveform parameters of retrobulbar vessels in glaucoma patients with different demographics and disease severity
Verticchio Vercellin AC
European Journal of Ophthalmology 2019; 0: 1120672119848259 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Motozawa N
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Mansouri K
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Wang RK
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Wang RK
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Christopher M
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

81067 Anterior Segment Optical Coherence Tomography Angiography Imaging of Conjunctiva and Intrasclera in Treated Primary Open-Angle Glaucoma
Tsujikawa A
American Journal of Ophthalmology 2019; 208: 313-322 (IGR: 20-3)

81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Webers CAB
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Varma R
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

80507 Effect of Scan Size on Glaucoma Diagnostic Performance Using OCT Angiography En Face Images of the Radial Peripapillary Capillaries
Richter GM
Journal of Glaucoma 2019; 28: 465-472 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Yarmohammadi A
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study
Richter GM
American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Weinreb RN
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)

81323 Systemic Determinants of Peripapillary Vessel Density in Healthy African Americans: the African American Eye Disease Study

American Journal of Ophthalmology 2019; 207: 240-247 (IGR: 20-3)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Hou H; Hou H; Hou H
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Yip VCH
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79478 Optical coherence tomography angiography: Value for glaucoma diagnostics
Alnawaiseh M
Ophthalmologe 2019; 116: 602-609 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Nascimento E Silva R
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79582 No Acute Effect of Smoking on Peripapillary and Macular Vessel Density in Healthy Middle-aged Smokers
Holló G
Journal of Glaucoma 2019; 28: e86-e88 (IGR: 20-2)

79599 Parapapillary Deep-Layer Microvasculature Dropout and Visual Field Progression in Glaucoma
Kwon JM
American Journal of Ophthalmology 2019; 200: 65-75 (IGR: 20-2)

79658 Reduced Macular Vessel Density and Capillary Perfusion in Glaucoma Detected Using OCT Angiography
Wu J
Current Eye Research 2019; 44: 533-540 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Rao HL
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79731 The Relationship Between Peripapillary Vascular Density and Visual Field Sensitivity in Primary Open-Angle and Angle-Closure Glaucoma
Jo YH
Investigative Ophthalmology and Visual Science 2018; 59: 5862-5867 (IGR: 20-2)

79764 In glaucoma patients, low blood pressure is accompanied by vascular dysregulation
Binggeli T
The EPMA Journal 2018; 9: 387-391 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Richter GM
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Shin JW
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Toshev AP
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Yamada Y
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80060 Peripapillary capillary vessel density progression in advanced glaucoma: a case report
Holló G
BMC Ophthalmology 2019; 19: 2 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Siesky B
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Rao HL
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Kuerten D
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Moghimi S
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Wong HT
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79478 Optical coherence tomography angiography: Value for glaucoma diagnostics
Lahme L
Ophthalmologe 2019; 116: 602-609 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Chiou CA
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79599 Parapapillary Deep-Layer Microvasculature Dropout and Visual Field Progression in Glaucoma
Weinreb RN
American Journal of Ophthalmology 2019; 200: 65-75 (IGR: 20-2)

79658 Reduced Macular Vessel Density and Capillary Perfusion in Glaucoma Detected Using OCT Angiography
Sebastian RT
Current Eye Research 2019; 44: 533-540 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Sreenivasaiah S
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79731 The Relationship Between Peripapillary Vascular Density and Visual Field Sensitivity in Primary Open-Angle and Angle-Closure Glaucoma
Sung KR
Investigative Ophthalmology and Visual Science 2018; 59: 5862-5867 (IGR: 20-2)

79764 In glaucoma patients, low blood pressure is accompanied by vascular dysregulation
Schoetzau A
The EPMA Journal 2018; 9: 387-391 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Sylvester B
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Lee J
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Schuster AK
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Higashide T
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Harris A
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Sreenivasaiah S
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Fuest M
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Zangwill LM
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Yong VKY
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79478 Optical coherence tomography angiography: Value for glaucoma diagnostics
Eter N
Ophthalmologe 2019; 116: 602-609 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Wang M
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79599 Parapapillary Deep-Layer Microvasculature Dropout and Visual Field Progression in Glaucoma
Zangwill LM
American Journal of Ophthalmology 2019; 200: 65-75 (IGR: 20-2)

79658 Reduced Macular Vessel Density and Capillary Perfusion in Glaucoma Detected Using OCT Angiography
Chu CJ
Current Eye Research 2019; 44: 533-540 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Riyazuddin M
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79731 The Relationship Between Peripapillary Vascular Density and Visual Field Sensitivity in Primary Open-Angle and Angle-Closure Glaucoma
Yun SC
Investigative Ophthalmology and Visual Science 2018; 59: 5862-5867 (IGR: 20-2)

79764 In glaucoma patients, low blood pressure is accompanied by vascular dysregulation
Konieczka K
The EPMA Journal 2018; 9: 387-391 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Chu Z
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Kwon J
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Udagawa S
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Gross J
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Dixit S
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Bienert M
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Shoji T
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Lim BA
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79478 Optical coherence tomography angiography: Value for glaucoma diagnostics
Mardin C
Ophthalmologe 2019; 116: 602-609 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Wang H
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79599 Parapapillary Deep-Layer Microvasculature Dropout and Visual Field Progression in Glaucoma
Suh MH
American Journal of Ophthalmology 2019; 200: 65-75 (IGR: 20-2)

79658 Reduced Macular Vessel Density and Capillary Perfusion in Glaucoma Detected Using OCT Angiography
McGregor F
Current Eye Research 2019; 44: 533-540 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Dasari S
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Burkemper B
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Jo Y
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Pfeiffer N
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Takeshima S
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Sechrist E
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Riyazuddin M
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Walter P
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Ghahari E
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Hee OK
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Shoji MK
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79658 Reduced Macular Vessel Density and Capillary Perfusion in Glaucoma Detected Using OCT Angiography
Dick AD
Current Eye Research 2019; 44: 533-540 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Dixit S
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Madi I
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Jeong D
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Hoffmann EM
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Sakaguchi K
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Camp D
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Dasari S
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

80085 Ocular Hemodynamics in Acute Nonarteritic Anterior Ischemic Optic Neuropathy Compared With Normal Tension Glaucoma
Plange N
Journal of Glaucoma 2019; 28: 334-340 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Penteado RC
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Cheng J
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Chou JC
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79658 Reduced Macular Vessel Density and Capillary Perfusion in Glaucoma Detected Using OCT Angiography
Liu L
Current Eye Research 2019; 44: 533-540 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Venugopal JP
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Chang R
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Shon G
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Nitta K
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Cardenas A
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Venugopal JP
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Akagi T
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Fu H
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
D'Souza EE
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Pradhan ZS
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Reznik A
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

79889 Relationship between macular vessel density and central visual field sensitivity at different glaucoma stages
Kook MS
British Journal of Ophthalmology 2019; 103: 1827-1833 (IGR: 20-2)

80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Sugiyama K
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Patel P; Patel P
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Pradhan ZS
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Manalastas PIC
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Lim C
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Greenstein SH
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Puttaiah NK
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Varma R
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Hasnain F
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Puttaiah NK
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79328 Macula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
Weinreb RN
American Journal of Ophthalmology 2019; 199: 120-132 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Tay ELT
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Brauner SC
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Devi S
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

79830 Peripapillary microvasculature in the retinal nerve fiber layer in glaucoma by optical coherence tomography angiography: focal structural and functional correlations and diagnostic performance
Wang RK
Clinical Ophthalmology 2018; 12: 2285-2296 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Kawiecki R
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Devi S
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Loo-Valdez RG
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Alves MR
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Weinreb RN
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Shah A
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Mansouri K
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Teo HY
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Pasquale LR
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Mansouri K
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

80076 Effects of image brightness and contrast dynamic altering stimuli (DAS) when viewing video content on ocular blood flow
Verticchio Vercellin AC
British Journal of Ophthalmology 2019; 103: 1511-1517 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Webers CAB
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Lim Ph A
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Shen LQ
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)

79727 Choroidal Microvascular Dropout in Primary Angle Closure Glaucoma
Webers CAB
American Journal of Ophthalmology 2019; 199: 184-192 (IGR: 20-2)

80083 Choroidal Microvascular Dropout in Primary Open-angle Glaucoma Eyes With Disc Hemorrhage
Weinreb RN
Journal of Glaucoma 2019; 28: 181-187 (IGR: 20-2)

79400 Optical Coherence Tomography Angiography of Optic Disc and Macula Vessel Density in Glaucoma and Healthy Eyes
Yip LWL
Journal of Glaucoma 2019; 28: 80-87 (IGR: 20-2)

78372 Blood pressure, ocular perfusion pressure and open-angle glaucoma in patients with systemic hypertension
Cantor E
Clinical Ophthalmology 2018; 12: 1511-1517 (IGR: 20-1)

78444 A comparative study of structural, functional and circulatory parameters in glaucoma diagnostics
Kurysheva NI
PLoS ONE 2018; 13: e0201599 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Venugopal JP
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Lindemann F
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Akagi T
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Akagi T
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78563 Macular Vessel Density and Ganglion Cell/Inner Plexiform Layer Thickness and Their Combinational Index Using Artificial Intelligence
Park K
Journal of Glaucoma 2018; 27: 750-760 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Wang Q
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78768 Optical coherence tomography angiography measured capillary density in the normal and glaucoma eyes
Mansoori T
Saudi Journal of Ophthalmology 2018; 32: 295-302 (IGR: 20-1)

78833 Evaluating changes of blood flow in retina, choroid, and outer choroid in rats in response to elevated intraocular pressure by 1300 nm swept-source OCT
Xu J
Microvascular Research 2019; 121: 37-45 (IGR: 20-1)

78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Kim JA
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)

78873 Steeper structure-function relationship in eyes with than without a parapapillary deep-layer microvasculature dropout
Kim JA
Scientific reports 2018; 8: 14182 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Bata AM
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78912 Relationship between filtering bleb vascularization and surgical outcomes after trabeculectomy: an optical coherence tomography angiography study
Yin X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2399-2405 (IGR: 20-1)

78919 Quantitative automated circumpapillary microvascular density measurements: a new angioOCT-based methodology
Jesus DA
Eye 2019; 33: 320-326 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Inoue-Yanagimachi M
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

78964 Optical coherence tomography angiography analysis of macular flow density in glaucoma
Kromer R
Acta Ophthalmologica 2019; 97: e199-e206 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Richter GM
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79133 Effect of Macular Vascular Density on Central Visual Function and Macular Structure in Glaucoma Patients
Jeon SJ
Scientific reports 2018; 8: 16009 (IGR: 20-1)

79140 Macular perfusion velocities in the ocular ischaemic syndrome
Klefter ON
Acta Ophthalmologica 2019; 97: 113-117 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Rabiolo A
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79218 A comparison of two optical coherence tomography-angiography devices in pseudoexfoliation glaucoma versus primary open-angle glaucoma and healthy subjects
Rebolleda G
European Journal of Ophthalmology 2018; 0: 1120672118805882 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Barbosa-Breda J
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Alizadeh R
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Numa S
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

79292 Peripapillary Vessel Density in Glaucomatous Eyes: Comparison Between Pseudoexfoliation Glaucoma and Primary Open-angle Glaucoma
Park JH
Journal of Glaucoma 2018; 27: 1009-1016 (IGR: 20-1)

78372 Blood pressure, ocular perfusion pressure and open-angle glaucoma in patients with systemic hypertension
Méndez F
Clinical Ophthalmology 2018; 12: 1511-1517 (IGR: 20-1)

78444 A comparative study of structural, functional and circulatory parameters in glaucoma diagnostics
Maslova EV
PLoS ONE 2018; 13: e0201599 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Rao HL
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Kuerten D
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Uji A
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Zangwill LM
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78563 Macular Vessel Density and Ganglion Cell/Inner Plexiform Layer Thickness and Their Combinational Index Using Artificial Intelligence
Kim J
Journal of Glaucoma 2018; 27: 750-760 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Chen W
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78768 Optical coherence tomography angiography measured capillary density in the normal and glaucoma eyes
Gamalapati J
Saudi Journal of Ophthalmology 2018; 32: 295-302 (IGR: 20-1)

78833 Evaluating changes of blood flow in retina, choroid, and outer choroid in rats in response to elevated intraocular pressure by 1300 nm swept-source OCT
Li Y
Microvascular Research 2019; 121: 37-45 (IGR: 20-1)

78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)

78873 Steeper structure-function relationship in eyes with than without a parapapillary deep-layer microvasculature dropout
Lee EJ
Scientific reports 2018; 8: 14182 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Fondi K
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78912 Relationship between filtering bleb vascularization and surgical outcomes after trabeculectomy: an optical coherence tomography angiography study
Cai Q
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2399-2405 (IGR: 20-1)

78919 Quantitative automated circumpapillary microvascular density measurements: a new angioOCT-based methodology
Barbosa Breda J
Eye 2019; 33: 320-326 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Himori N
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

78964 Optical coherence tomography angiography analysis of macular flow density in glaucoma
Glusa P
Acta Ophthalmologica 2019; 97: e199-e206 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Chang R
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79133 Effect of Macular Vascular Density on Central Visual Function and Macular Structure in Glaucoma Patients
Park HL
Scientific reports 2018; 8: 16009 (IGR: 20-1)

79140 Macular perfusion velocities in the ocular ischaemic syndrome
Kofoed PK
Acta Ophthalmologica 2019; 97: 113-117 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Gelormini F
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79218 A comparison of two optical coherence tomography-angiography devices in pseudoexfoliation glaucoma versus primary open-angle glaucoma and healthy subjects
Pérez-Sarriegui A
European Journal of Ophthalmology 2018; 0: 1120672118805882 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Abegão-Pinto L
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Vickers L
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Akagi T
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

79292 Peripapillary Vessel Density in Glaucomatous Eyes: Comparison Between Pseudoexfoliation Glaucoma and Primary Open-angle Glaucoma
Yoo C
Journal of Glaucoma 2018; 27: 1009-1016 (IGR: 20-1)

78372 Blood pressure, ocular perfusion pressure and open-angle glaucoma in patients with systemic hypertension
Rivera C
Clinical Ophthalmology 2018; 12: 1511-1517 (IGR: 20-1)

78444 A comparative study of structural, functional and circulatory parameters in glaucoma diagnostics
Zolnikova IV
PLoS ONE 2018; 13: e0201599 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Weinreb RN
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Koch E
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Huang AS
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Shoji T
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78563 Macular Vessel Density and Ganglion Cell/Inner Plexiform Layer Thickness and Their Combinational Index Using Artificial Intelligence
Lee J
Journal of Glaucoma 2018; 27: 750-760 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Qu X
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78768 Optical coherence tomography angiography measured capillary density in the normal and glaucoma eyes
Sivaswamy J
Saudi Journal of Ophthalmology 2018; 32: 295-302 (IGR: 20-1)

78833 Evaluating changes of blood flow in retina, choroid, and outer choroid in rats in response to elevated intraocular pressure by 1300 nm swept-source OCT
Song S
Microvascular Research 2019; 121: 37-45 (IGR: 20-1)

78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)

78873 Steeper structure-function relationship in eyes with than without a parapapillary deep-layer microvasculature dropout
Kim H
Scientific reports 2018; 8: 14182 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Witkowska KJ
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78912 Relationship between filtering bleb vascularization and surgical outcomes after trabeculectomy: an optical coherence tomography angiography study
Song R
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2399-2405 (IGR: 20-1)

78919 Quantitative automated circumpapillary microvascular density measurements: a new angioOCT-based methodology
Van Keer K
Eye 2019; 33: 320-326 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Sato K
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

78964 Optical coherence tomography angiography analysis of macular flow density in glaucoma
Framme C
Acta Ophthalmologica 2019; 97: e199-e206 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Situ B
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79133 Effect of Macular Vascular Density on Central Visual Function and Macular Structure in Glaucoma Patients
Park CK
Scientific reports 2018; 8: 16009 (IGR: 20-1)

79140 Macular perfusion velocities in the ocular ischaemic syndrome
Munch IC
Acta Ophthalmologica 2019; 97: 113-117 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Sacconi R
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79218 A comparison of two optical coherence tomography-angiography devices in pseudoexfoliation glaucoma versus primary open-angle glaucoma and healthy subjects
de Juan V
European Journal of Ophthalmology 2018; 0: 1120672118805882 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Van Keer K
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Hirunpatravong P
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Uji A
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

79292 Peripapillary Vessel Density in Glaucomatous Eyes: Comparison Between Pseudoexfoliation Glaucoma and Primary Open-angle Glaucoma
Girard MJA
Journal of Glaucoma 2018; 27: 1009-1016 (IGR: 20-1)

78372 Blood pressure, ocular perfusion pressure and open-angle glaucoma in patients with systemic hypertension
Castillo A
Clinical Ophthalmology 2018; 12: 1511-1517 (IGR: 20-1)

78444 A comparative study of structural, functional and circulatory parameters in glaucoma diagnostics
Fomin AV
PLoS ONE 2018; 13: e0201599 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Dasari S
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Fuest M
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Weinreb RN
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Suh MH
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Wang H
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78768 Optical coherence tomography angiography measured capillary density in the normal and glaucoma eyes
Balakrishna N
Saudi Journal of Ophthalmology 2018; 32: 295-302 (IGR: 20-1)

78833 Evaluating changes of blood flow in retina, choroid, and outer choroid in rats in response to elevated intraocular pressure by 1300 nm swept-source OCT
Cepurna W
Microvascular Research 2019; 121: 37-45 (IGR: 20-1)

78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Girard MJA
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)

78873 Steeper structure-function relationship in eyes with than without a parapapillary deep-layer microvasculature dropout
Kim TW
Scientific reports 2018; 8: 14182 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Werkmeister RM
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78912 Relationship between filtering bleb vascularization and surgical outcomes after trabeculectomy: an optical coherence tomography angiography study
He X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2399-2405 (IGR: 20-1)

78919 Quantitative automated circumpapillary microvascular density measurements: a new angioOCT-based methodology
Rocha Sousa A
Eye 2019; 33: 320-326 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Kokubun T
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

78964 Optical coherence tomography angiography analysis of macular flow density in glaucoma
Pielen A
Acta Ophthalmologica 2019; 97: e199-e206 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Chu Z
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79140 Macular perfusion velocities in the ocular ischaemic syndrome
Larsen M
Acta Ophthalmologica 2019; 97: 113-117 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Cicinelli MV
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79218 A comparison of two optical coherence tomography-angiography devices in pseudoexfoliation glaucoma versus primary open-angle glaucoma and healthy subjects
Ortiz-Toquero S
European Journal of Ophthalmology 2018; 0: 1120672118805882 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Jesus DA
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Romero P
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Suda K
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

79292 Peripapillary Vessel Density in Glaucomatous Eyes: Comparison Between Pseudoexfoliation Glaucoma and Primary Open-angle Glaucoma
Mari JM
Journal of Glaucoma 2018; 27: 1009-1016 (IGR: 20-1)

78372 Blood pressure, ocular perfusion pressure and open-angle glaucoma in patients with systemic hypertension
Martínez-Blanco A
Clinical Ophthalmology 2018; 12: 1511-1517 (IGR: 20-1)

78444 A comparative study of structural, functional and circulatory parameters in glaucoma diagnostics
Lagutin MB
PLoS ONE 2018; 13: e0201599 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Riyazuddin M
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Fischer C
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Yamada T
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Saunders LJ
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Wang Y
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78833 Evaluating changes of blood flow in retina, choroid, and outer choroid in rats in response to elevated intraocular pressure by 1300 nm swept-source OCT
Morrison J
Microvascular Research 2019; 121: 37-45 (IGR: 20-1)

78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Molenberghs G
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Hommer A
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78912 Relationship between filtering bleb vascularization and surgical outcomes after trabeculectomy: an optical coherence tomography angiography study
Lu P
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2399-2405 (IGR: 20-1)

78919 Quantitative automated circumpapillary microvascular density measurements: a new angioOCT-based methodology
Abegão Pinto L
Eye 2019; 33: 320-326 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Asano T
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

78964 Optical coherence tomography angiography analysis of macular flow density in glaucoma
Junker B
Acta Ophthalmologica 2019; 97: e199-e206 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Burkemper B
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Triolo G
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79218 A comparison of two optical coherence tomography-angiography devices in pseudoexfoliation glaucoma versus primary open-angle glaucoma and healthy subjects
Muñoz-Negrete FJ
European Journal of Ophthalmology 2018; 0: 1120672118805882 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Lemmens S
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Lin MC
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Nakanishi H
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

79292 Peripapillary Vessel Density in Glaucomatous Eyes: Comparison Between Pseudoexfoliation Glaucoma and Primary Open-angle Glaucoma
Kim YY
Journal of Glaucoma 2018; 27: 1009-1016 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Pradhan ZS
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Voss A
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Miyata M
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Yarmohammadi A
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Zhang X
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78833 Evaluating changes of blood flow in retina, choroid, and outer choroid in rats in response to elevated intraocular pressure by 1300 nm swept-source OCT
Wang RK
Microvascular Research 2019; 121: 37-45 (IGR: 20-1)

78900 Improved discrimination between normal-tension and primary open-angle glaucoma with advanced vascular examinations - the Leuven Eye Study
Willekens K
Acta Ophthalmologica 2019; 97: e50-e56 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Vass C
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78919 Quantitative automated circumpapillary microvascular density measurements: a new angioOCT-based methodology
Stalmans I
Eye 2019; 33: 320-326 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Shiga Y
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Reznik A
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Bettin P
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Vandewalle E
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Sharifipour F
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Kameda T
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Puttaiah NK
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78478 Blood Pressure and Heart Rate Variability in Primary Open-Angle Glaucoma and Normal Tension Glaucoma
Plange N
Current Eye Research 2018; 43: 1507-1513 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Kameda T
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Manalastas PIC
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Li T
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Resch H
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Tsuda S
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Bedrood S
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Nouri-Mahdavi K
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Rocha-Sousa A
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79281 A Phenotype of Primary Open-angle Glaucoma With Systemic Vasospasm
Caprioli J
Journal of Glaucoma 2018; 27: 987-992 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Ikeda HO
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Devi S
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Ikeda HO
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Penteado RC
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Wang N
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Schmidl D
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Kunikata H
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Kashani AH
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Bandello F
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

79226 Heterogeneity in arterial hypertension and ocular perfusion pressure definitions: Towards a consensus on blood pressure-related parameters for glaucoma studies
Stalmans I
Acta Ophthalmologica 2019; 97: e487-e492 (IGR: 20-1)

79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Tsujikawa A
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Mansouri K
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78498 Conjunctival and Intrascleral Vasculatures Assessed Using Anterior Segment Optical Coherence Tomography Angiography in Normal Eyes
Tsujikawa A
American Journal of Ophthalmology 2018; 196: 1-9 (IGR: 20-1)

78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Weinreb RN
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)

78583 Reduced Cerebral Blood Flow in the Visual Cortex and Its Correlation With Glaucomatous Structural Damage to the Retina in Patients With Mild to Moderate Primary Open-angle Glaucoma
Xian J
Journal of Glaucoma 2018; 27: 816-822 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Popa-Cherecheanu A
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

78951 Association between mitochondrial DNA damage and ocular blood flow in patients with glaucoma
Nakazawa T
British Journal of Ophthalmology 2019; 103: 1060-1065 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Varma R
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Querques G
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)

78463 Repeatability and comparability of peripapillary vessel density measurements of high-density and non-high-density optical coherence tomography angiography scans in normal and glaucoma eyes
Webers CAB
British Journal of Ophthalmology 2019; 103: 949-954 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Chua J
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

79081 Diagnostic Performance of Macular Versus Peripapillary Vessel Parameters by Optical Coherence Tomography Angiography for Glaucoma
Wang RK
Translational vision science & technology 2018; 7: 21 (IGR: 20-1)

78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Garhöfer G; Schmetterer L
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)

77438 Vascular Dysfunction in Exfoliation Syndrome
Holló G
Journal of Glaucoma 2018; 27: S72-S74 (IGR: 19-4)

77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Moyal L
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)

77686 Valsalva Maneuver and Peripapillary OCT Angiography Vessel Density
Holló G
Journal of Glaucoma 2018; 27: e133-e136 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Pinhas A
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Adiarti R
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)

77892 Carbohydrate ingestion induces differential autonomic dysregulation in normal-tension glaucoma and primary open angle glaucoma
Cao L
PLoS ONE 2018; 13: e0198432 (IGR: 19-4)

78024 Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study
Yoshikawa Y
Clinical Ophthalmology 2018; 12: 1113-1119 (IGR: 19-4)

78033 Diagnostic Ability and Discriminant Values of OCT-Angiography Parameters in Early Glaucoma Diagnosis
Rolle T
Ophthalmic Research 2018; 0: 1-10 (IGR: 19-4)

78038 Quantification of blood flow in the superior ophthalmic vein using phase contrast magnetic resonance imaging
Promelle V
Experimental Eye Research 2018; 176: 40-45 (IGR: 19-4)

78069 Optical coherence tomography angiography at the acute phase of optic disc edema
Rougier MB
Eye and vision (London, England) 2018; 5: 15 (IGR: 19-4)

78072 Toward quantitative and reproducible clinical use of OCT-Angiography
Douma I
PLoS ONE 2018; 13: e0197588 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Lauermann JL
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78106 Retrobulbar hemodynamics and aqueous humor levels of endothelin-1 in exfoliation syndrome and exfoliation glaucoma
Koukoula SC
Clinical Ophthalmology 2018; 12: 1199-1204 (IGR: 19-4)

78152 Peripapillary Choroidal Vascularity Index in Glaucoma-A Comparison Between Spectral-Domain OCT and OCT Angiography
Park JW
Investigative Ophthalmology and Visual Science 2018; 59: 3694-3701 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Muthu Krishnan V
Cureus 2018; 10: e2638 (IGR: 19-4)

78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
In JH
Journal of Ophthalmology 2018; 2018: 8909714 (IGR: 19-4)

78198 The short-term effect of acupuncture on different ocular blood flow parameters in patients with primary open-angle glaucoma: a randomized, clinical study
Leszczynska A
Clinical Ophthalmology 2018; 12: 1285-1291 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Kipli K
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

78253 Changes in Ocular Perfusion Pressure in Response to Short Term Isometric Exercise in Young Adults
Ramya CM
Nigerian journal of physiological sciences : official publication of the Physiological Society of Nigeria 2018; 33: 101-103 (IGR: 19-4)

78261 An Optical Coherence Tomography Angiography Study of the Relationship Between Foveal Avascular Zone Size and Retinal Vessel Density
Kwon J
Investigative Ophthalmology and Visual Science 2018; 59: 4143-4153 (IGR: 19-4)

78286 Comparative Study of Optical Coherence Tomography Angiography and Phase-Resolved Doppler Optical Coherence Tomography for Measurement of Retinal Blood Vessels Caliber
Hosseinaee Z
Translational vision science & technology 2018; 7: 18 (IGR: 19-4)

78291 Optical Coherence Tomography Angiography in Glaucoma
Holló G
Turkish journal of ophthalmology 2018; 48: 196-201 (IGR: 19-4)

77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Blumen-Ohana E
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Linderman R
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Ekantini R
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)

77892 Carbohydrate ingestion induces differential autonomic dysregulation in normal-tension glaucoma and primary open angle glaucoma
Graham SL
PLoS ONE 2018; 13: e0198432 (IGR: 19-4)

78024 Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study
Shoji T
Clinical Ophthalmology 2018; 12: 1113-1119 (IGR: 19-4)

78033 Diagnostic Ability and Discriminant Values of OCT-Angiography Parameters in Early Glaucoma Diagnosis
Dallorto L
Ophthalmic Research 2018; 0: 1-10 (IGR: 19-4)

78038 Quantification of blood flow in the superior ophthalmic vein using phase contrast magnetic resonance imaging
Bouzerar R
Experimental Eye Research 2018; 176: 40-45 (IGR: 19-4)

78069 Optical coherence tomography angiography at the acute phase of optic disc edema
Le Goff M
Eye and vision (London, England) 2018; 5: 15 (IGR: 19-4)

78072 Toward quantitative and reproducible clinical use of OCT-Angiography
Rousseau D
PLoS ONE 2018; 13: e0197588 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Woetzel AK
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78106 Retrobulbar hemodynamics and aqueous humor levels of endothelin-1 in exfoliation syndrome and exfoliation glaucoma
Katsanos A
Clinical Ophthalmology 2018; 12: 1199-1204 (IGR: 19-4)

78152 Peripapillary Choroidal Vascularity Index in Glaucoma-A Comparison Between Spectral-Domain OCT and OCT Angiography
Suh MH
Investigative Ophthalmology and Visual Science 2018; 59: 3694-3701 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Datta Gulnar P
Cureus 2018; 10: e2638 (IGR: 19-4)

78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
Lee SY
Journal of Ophthalmology 2018; 2018: 8909714 (IGR: 19-4)

78198 The short-term effect of acupuncture on different ocular blood flow parameters in patients with primary open-angle glaucoma: a randomized, clinical study
Ramm L
Clinical Ophthalmology 2018; 12: 1285-1291 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Hoque ME
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

78253 Changes in Ocular Perfusion Pressure in Response to Short Term Isometric Exercise in Young Adults
Nataraj SM
Nigerian journal of physiological sciences : official publication of the Physiological Society of Nigeria 2018; 33: 101-103 (IGR: 19-4)

78261 An Optical Coherence Tomography Angiography Study of the Relationship Between Foveal Avascular Zone Size and Retinal Vessel Density
Choi J
Investigative Ophthalmology and Visual Science 2018; 59: 4143-4153 (IGR: 19-4)

78286 Comparative Study of Optical Coherence Tomography Angiography and Phase-Resolved Doppler Optical Coherence Tomography for Measurement of Retinal Blood Vessels Caliber
Tan B
Translational vision science & technology 2018; 7: 18 (IGR: 19-4)

77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Blumen M
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Mo S
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Agni AN
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)

77892 Carbohydrate ingestion induces differential autonomic dysregulation in normal-tension glaucoma and primary open angle glaucoma
Pilowsky PM
PLoS ONE 2018; 13: e0198432 (IGR: 19-4)

78024 Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study
Kanno J
Clinical Ophthalmology 2018; 12: 1113-1119 (IGR: 19-4)

78033 Diagnostic Ability and Discriminant Values of OCT-Angiography Parameters in Early Glaucoma Diagnosis
Tavassoli M
Ophthalmic Research 2018; 0: 1-10 (IGR: 19-4)

78038 Quantification of blood flow in the superior ophthalmic vein using phase contrast magnetic resonance imaging
Milazzo S
Experimental Eye Research 2018; 176: 40-45 (IGR: 19-4)

78069 Optical coherence tomography angiography at the acute phase of optic disc edema
Korobelnik JF
Eye and vision (London, England) 2018; 5: 15 (IGR: 19-4)

78072 Toward quantitative and reproducible clinical use of OCT-Angiography
Sallit R
PLoS ONE 2018; 13: e0197588 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Treder M
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78106 Retrobulbar hemodynamics and aqueous humor levels of endothelin-1 in exfoliation syndrome and exfoliation glaucoma
Tentes IK
Clinical Ophthalmology 2018; 12: 1199-1204 (IGR: 19-4)

78152 Peripapillary Choroidal Vascularity Index in Glaucoma-A Comparison Between Spectral-Domain OCT and OCT Angiography
Agrawal R
Investigative Ophthalmology and Visual Science 2018; 59: 3694-3701 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Vasudev Anand R
Cureus 2018; 10: e2638 (IGR: 19-4)

78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
Cho SH
Journal of Ophthalmology 2018; 2018: 8909714 (IGR: 19-4)

78198 The short-term effect of acupuncture on different ocular blood flow parameters in patients with primary open-angle glaucoma: a randomized, clinical study
Spoerl E
Clinical Ophthalmology 2018; 12: 1285-1291 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Lim LT
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

78253 Changes in Ocular Perfusion Pressure in Response to Short Term Isometric Exercise in Young Adults
Rajalakshmi R
Nigerian journal of physiological sciences : official publication of the Physiological Society of Nigeria 2018; 33: 101-103 (IGR: 19-4)

78261 An Optical Coherence Tomography Angiography Study of the Relationship Between Foveal Avascular Zone Size and Retinal Vessel Density
Shin JW
Investigative Ophthalmology and Visual Science 2018; 59: 4143-4153 (IGR: 19-4)

78286 Comparative Study of Optical Coherence Tomography Angiography and Phase-Resolved Doppler Optical Coherence Tomography for Measurement of Retinal Blood Vessels Caliber
Martinez A
Translational vision science & technology 2018; 7: 18 (IGR: 19-4)

77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Blatrix C
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Krawitz BD
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Wong TY
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)

78024 Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study
Kimura I
Clinical Ophthalmology 2018; 12: 1113-1119 (IGR: 19-4)

78033 Diagnostic Ability and Discriminant Values of OCT-Angiography Parameters in Early Glaucoma Diagnosis
Nuzzi R
Ophthalmic Research 2018; 0: 1-10 (IGR: 19-4)

78038 Quantification of blood flow in the superior ophthalmic vein using phase contrast magnetic resonance imaging
Balédent O
Experimental Eye Research 2018; 176: 40-45 (IGR: 19-4)

78072 Toward quantitative and reproducible clinical use of OCT-Angiography
Kodjikian L
PLoS ONE 2018; 13: e0197588 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Alnawaiseh M
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78106 Retrobulbar hemodynamics and aqueous humor levels of endothelin-1 in exfoliation syndrome and exfoliation glaucoma
Labiris G
Clinical Ophthalmology 2018; 12: 1199-1204 (IGR: 19-4)

78152 Peripapillary Choroidal Vascularity Index in Glaucoma-A Comparison Between Spectral-Domain OCT and OCT Angiography
Khandelwal N
Investigative Ophthalmology and Visual Science 2018; 59: 3694-3701 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Vijayakumar C
Cureus 2018; 10: e2638 (IGR: 19-4)

78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
Hong YJ
Journal of Ophthalmology 2018; 2018: 8909714 (IGR: 19-4)

78198 The short-term effect of acupuncture on different ocular blood flow parameters in patients with primary open-angle glaucoma: a randomized, clinical study
Pillunat LE
Clinical Ophthalmology 2018; 12: 1285-1291 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Mahmood MH
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

78253 Changes in Ocular Perfusion Pressure in Response to Short Term Isometric Exercise in Young Adults
Smitha MC
Nigerian journal of physiological sciences : official publication of the Physiological Society of Nigeria 2018; 33: 101-103 (IGR: 19-4)

78261 An Optical Coherence Tomography Angiography Study of the Relationship Between Foveal Avascular Zone Size and Retinal Vessel Density
Lee J
Investigative Ophthalmology and Visual Science 2018; 59: 4143-4153 (IGR: 19-4)

78286 Comparative Study of Optical Coherence Tomography Angiography and Phase-Resolved Doppler Optical Coherence Tomography for Measurement of Retinal Blood Vessels Caliber
Bizheva KK
Translational vision science & technology 2018; 7: 18 (IGR: 19-4)

77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Chabolle F
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Geyman LS
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Sasongko MB
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)

78024 Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study
Hangai M
Clinical Ophthalmology 2018; 12: 1113-1119 (IGR: 19-4)

78072 Toward quantitative and reproducible clinical use of OCT-Angiography
Denis P
PLoS ONE 2018; 13: e0197588 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Clemens CR
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78106 Retrobulbar hemodynamics and aqueous humor levels of endothelin-1 in exfoliation syndrome and exfoliation glaucoma
Kozobolis VP
Clinical Ophthalmology 2018; 12: 1199-1204 (IGR: 19-4)

78158 Ocular and Systemic Risk Factors and Correlation with Glaucomatous Damage in Normal Tension Glaucoma
Balasubramaniyan G
Cureus 2018; 10: e2638 (IGR: 19-4)

78198 The short-term effect of acupuncture on different ocular blood flow parameters in patients with primary open-angle glaucoma: a randomized, clinical study
Terai N
Clinical Ophthalmology 2018; 12: 1285-1291 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Sahari SK
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

78261 An Optical Coherence Tomography Angiography Study of the Relationship Between Foveal Avascular Zone Size and Retinal Vessel Density
Kook MS
Investigative Ophthalmology and Visual Science 2018; 59: 4143-4153 (IGR: 19-4)

77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Nordmann JP
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Carroll J
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

78024 Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study
Shinoda K
Clinical Ophthalmology 2018; 12: 1113-1119 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Eter N
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Sapawi R
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Rosen RB
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

78078 Prevalences of segmentation errors and motion artifacts in OCT-angiography differ among retinal diseases
Alten F
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1807-1816 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Rajaee N
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

77791 A method for age-matched OCT angiography deviation mapping in the assessment of disease- related changes to the radial peripapillary capillaries
Chui TY
PLoS ONE 2018; 13: e0197062 (IGR: 19-4)

78230 A Review on the Extraction of Quantitative Retinal Microvascular Image Feature
Joseph A
Computational and mathematical methods in medicine 2018; 2018: 4019538 (IGR: 19-4)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Manalastas PIC
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76306 Optical Coherence Tomography Angiography Description of Ocular Decompression Retinopathy After Deep Sclerectomy in Traumatic Glaucoma
Salinas L
Journal of Glaucoma 2018; 27: 297-301 (IGR: 19-3)

76309 Comparison of Peripapillary OCT Angiography Vessel Density and Retinal Nerve Fiber Layer Thickness Measurements for Their Ability to Detect Progression in Glaucoma
Holló G
Journal of Glaucoma 2018; 27: 302-305 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Rao HL
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Richter GM
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76427 Neurovascular Changes Associated With the Water Drinking Test
Gameiro G
Journal of Glaucoma 2018; 27: 429-432 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Zhu L
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76474 Choroidal Microvasculature Dropout Is Associated With Parafoveal Visual Field Defects in Glaucoma
Kwon J
American Journal of Ophthalmology 2018; 188: 141-154 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Kosior-Jarecka E
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Ghahari E
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
Mansouri K
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76586 Choroidal Microvasculature Dropout Is Associated with Progressive Retinal Nerve Fiber Layer Thinning in Glaucoma with Disc Hemorrhage
Park HL
Ophthalmology 2018; 125: 1003-1013 (IGR: 19-3)

76661 Increase in the OCT angiographic peripapillary vessel density by ROCK inhibitor ripasudil instillation: a comparison with brimonidine
Chihara E
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1257-1264 (IGR: 19-3)

76722 Potential applications of optical coherence tomography angiography in glaucoma
Dastiridou A
Current Opinions in Ophthalmology 2018; 29: 226-233 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Pradhan ZS
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76778 Ocular microcirculation measurement with laser speckle flowgraphy and optical coherence tomography angiography in glaucoma
Kiyota N
Acta Ophthalmologica 2018; 96: e485-e492 (IGR: 19-3)

76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Wei X
Survey of Ophthalmology 2018; 0: (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Rao HL
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Hou H; Hou H; Hou H
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Fındık H
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76852 Association Between the Deep-layer Microvasculature Dropout and the Visual Field Damage in Glaucoma
Suh MH
Journal of Glaucoma 2018; 27: 543-551 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Suwan Y
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76899 OCTA vessel density changes in the macular zone in glaucomatous eyes
Lommatzsch C
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1499-1508 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Penteado RC
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Suh MH
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Cousins CC
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77056 Systemic hypertension is not protective against chronic intraocular pressure elevation in a rodent model
van Koeverden AK; van Koeverden AK
Scientific reports 2018; 8: 7107 (IGR: 19-3)

77091 Optical Coherence Tomography Angiography in Glaucoma Care
Chansangpetch S
Current Eye Research 2018; 0: 1-16 (IGR: 19-3)

77103 Influence of Removing the Large Retinal Vessels-related Effect on Peripapillary Vessel Density Progression Analysis in Glaucoma
Holló G
Journal of Glaucoma 2018; 27: e137-e139 (IGR: 19-3)

77169 Optical Coherence Tomography Angiography in Glaucoma: A Review
Van Melkebeke L
Ophthalmic Research 2018; 0: 1-13 (IGR: 19-3)

77216 Optical Coherence Tomography Angiography Compared With Optical Coherence Tomography Macular Measurements for Detection of Glaucoma
Wan KH
JAMA ophthalmology 2018; 136: 866-874 (IGR: 19-3)

77232 Relationship between vessel density and visual field sensitivity in glaucomatous eyes with high myopia
Shin JW
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77253 Vessel density in OCT angiography permits differentiation between normal and glaucomatous optic nerve heads
Lommatzsch C
International Journal of Ophthalmology 2018; 11: 835-843 (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Zangwill LM
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76306 Optical Coherence Tomography Angiography Description of Ocular Decompression Retinopathy After Deep Sclerectomy in Traumatic Glaucoma
Chaudhary A
Journal of Glaucoma 2018; 27: 297-301 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Dasari S
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Madi I
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76427 Neurovascular Changes Associated With the Water Drinking Test
Monsalve P
Journal of Glaucoma 2018; 27: 429-432 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Zong Y
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76474 Choroidal Microvasculature Dropout Is Associated With Parafoveal Visual Field Defects in Glaucoma
Shin JW
American Journal of Ophthalmology 2018; 188: 141-154 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Zhai R
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Bartosińska J
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Bowd C
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
Rao HL
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76586 Choroidal Microvasculature Dropout Is Associated with Progressive Retinal Nerve Fiber Layer Thinning in Glaucoma with Disc Hemorrhage
Kim JW
Ophthalmology 2018; 125: 1003-1013 (IGR: 19-3)

76661 Increase in the OCT angiographic peripapillary vessel density by ROCK inhibitor ripasudil instillation: a comparison with brimonidine
Dimitrova G
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1257-1264 (IGR: 19-3)

76722 Potential applications of optical coherence tomography angiography in glaucoma
Chopra V
Current Opinions in Ophthalmology 2018; 29: 226-233 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Dixit S
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76778 Ocular microcirculation measurement with laser speckle flowgraphy and optical coherence tomography angiography in glaucoma
Kunikata H
Acta Ophthalmologica 2018; 96: e485-e492 (IGR: 19-3)

76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Balne PK
Survey of Ophthalmology 2018; 0: (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Riyazuddin M
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Moghimi S
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Çeliker M
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76852 Association Between the Deep-layer Microvasculature Dropout and the Visual Field Damage in Glaucoma
Park JW
Journal of Glaucoma 2018; 27: 543-551 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Fard MA
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76899 OCTA vessel density changes in the macular zone in glaucomatous eyes
Rothaus K; Rothaus K
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1499-1508 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Zangwill LM
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Zangwill LM
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Chou JC
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77056 Systemic hypertension is not protective against chronic intraocular pressure elevation in a rodent model
He Z
Scientific reports 2018; 8: 7107 (IGR: 19-3)

77091 Optical Coherence Tomography Angiography in Glaucoma Care
Lin SC
Current Eye Research 2018; 0: 1-16 (IGR: 19-3)

77169 Optical Coherence Tomography Angiography in Glaucoma: A Review
Barbosa-Breda J
Ophthalmic Research 2018; 0: 1-13 (IGR: 19-3)

77216 Optical Coherence Tomography Angiography Compared With Optical Coherence Tomography Macular Measurements for Detection of Glaucoma
Lam AKN
JAMA ophthalmology 2018; 136: 866-874 (IGR: 19-3)

77232 Relationship between vessel density and visual field sensitivity in glaucomatous eyes with high myopia
Kwon J
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77253 Vessel density in OCT angiography permits differentiation between normal and glaucomatous optic nerve heads
Rothaus K; Rothaus K
International Journal of Ophthalmology 2018; 11: 835-843 (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Daga FB
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76306 Optical Coherence Tomography Angiography Description of Ocular Decompression Retinopathy After Deep Sclerectomy in Traumatic Glaucoma
Mansouri K
Journal of Glaucoma 2018; 27: 297-301 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Riyazuddin M
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Chu Z
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76427 Neurovascular Changes Associated With the Water Drinking Test
Golubev I
Journal of Glaucoma 2018; 27: 429-432 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Yu J
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76474 Choroidal Microvasculature Dropout Is Associated With Parafoveal Visual Field Defects in Glaucoma
Lee J
American Journal of Ophthalmology 2018; 188: 141-154 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Zong Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Łukasik U
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Borrelli E; Borrelli E
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Zangwill LM
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
Hoskens K
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76586 Choroidal Microvasculature Dropout Is Associated with Progressive Retinal Nerve Fiber Layer Thinning in Glaucoma with Disc Hemorrhage
Park CK
Ophthalmology 2018; 125: 1003-1013 (IGR: 19-3)

76661 Increase in the OCT angiographic peripapillary vessel density by ROCK inhibitor ripasudil instillation: a comparison with brimonidine
Chihara T
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1257-1264 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Sreenivasaiah S
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76778 Ocular microcirculation measurement with laser speckle flowgraphy and optical coherence tomography angiography in glaucoma
Shiga Y
Acta Ophthalmologica 2018; 96: e485-e492 (IGR: 19-3)

76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Meissner KE
Survey of Ophthalmology 2018; 0: (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Dasari S
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Zangwill LM
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Aslan MG
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76852 Association Between the Deep-layer Microvasculature Dropout and the Visual Field Damage in Glaucoma
Kim HR
Journal of Glaucoma 2018; 27: 543-551 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Geyman LS
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76899 OCTA vessel density changes in the macular zone in glaucomatous eyes
Koch JM
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1499-1508 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Daga FB
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Manalastas PIC
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Greenstein SH
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77056 Systemic hypertension is not protective against chronic intraocular pressure elevation in a rodent model
Nguyen CTO; Nguyen CTO
Scientific reports 2018; 8: 7107 (IGR: 19-3)

77169 Optical Coherence Tomography Angiography in Glaucoma: A Review
Huygens M
Ophthalmic Research 2018; 0: 1-13 (IGR: 19-3)

77216 Optical Coherence Tomography Angiography Compared With Optical Coherence Tomography Macular Measurements for Detection of Glaucoma
Leung CK
JAMA ophthalmology 2018; 136: 866-874 (IGR: 19-3)

77232 Relationship between vessel density and visual field sensitivity in glaucomatous eyes with high myopia
Lee J
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77253 Vessel density in OCT angiography permits differentiation between normal and glaucomatous optic nerve heads
Koch JM
International Journal of Ophthalmology 2018; 11: 835-843 (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Christopher MA
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Puttaiah NK
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Burkemper B
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76427 Neurovascular Changes Associated With the Water Drinking Test
Ventura L
Journal of Glaucoma 2018; 27: 429-432 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Jiang C
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76474 Choroidal Microvasculature Dropout Is Associated With Parafoveal Visual Field Defects in Glaucoma
Kook MS
American Journal of Ophthalmology 2018; 188: 141-154 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Kong X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Wróbel-Dudzińska D
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Suh MH
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
D'Alessandro E
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Rao HL
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76778 Ocular microcirculation measurement with laser speckle flowgraphy and optical coherence tomography angiography in glaucoma
Omodaka K
Acta Ophthalmologica 2018; 96: e485-e492 (IGR: 19-3)

76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Barathi VA
Survey of Ophthalmology 2018; 0: (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Puttaiah NK
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Shoji T
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Çeliker FB
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Tantraworasin A
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76899 OCTA vessel density changes in the macular zone in glaucomatous eyes
Heinz C
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1499-1508 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Saunders LJ
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Belghith A
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Brauner SC
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77056 Systemic hypertension is not protective against chronic intraocular pressure elevation in a rodent model
Vingrys AJ
Scientific reports 2018; 8: 7107 (IGR: 19-3)

77169 Optical Coherence Tomography Angiography in Glaucoma: A Review
Stalmans I
Ophthalmic Research 2018; 0: 1-13 (IGR: 19-3)

77232 Relationship between vessel density and visual field sensitivity in glaucomatous eyes with high myopia
Kook MS
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77253 Vessel density in OCT angiography permits differentiation between normal and glaucomatous optic nerve heads
Heinz C
International Journal of Ophthalmology 2018; 11: 835-843 (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Saunders LJ
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Pradhan ZS
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Chang R
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76427 Neurovascular Changes Associated With the Water Drinking Test
Porciatti V
Journal of Glaucoma 2018; 27: 429-432 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
He Y
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Jiang C
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Krasowska D
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Shoji T
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
Flores-Reyes EM
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Venugopal JP
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76778 Ocular microcirculation measurement with laser speckle flowgraphy and optical coherence tomography angiography in glaucoma
Nakazawa T
Acta Ophthalmologica 2018; 96: e485-e492 (IGR: 19-3)

76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Schmetterer L
Survey of Ophthalmology 2018; 0: (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Pradhan ZS
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Ghahari E
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
İnecikli MF
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Chui TY
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76899 OCTA vessel density changes in the macular zone in glaucomatous eyes
Grisanti S
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1499-1508 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Manalastas PIC
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Yarmohammadi A
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Shen LQ
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

77056 Systemic hypertension is not protective against chronic intraocular pressure elevation in a rodent model
Bui BV
Scientific reports 2018; 8: 7107 (IGR: 19-3)

77253 Vessel density in OCT angiography permits differentiation between normal and glaucomatous optic nerve heads
Grisanti S
International Journal of Ophthalmology 2018; 11: 835-843 (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Shoji T
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Weinreb RN
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Zaman A
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Jia Y
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Sun X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Chodorowska G
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Hasenstab KA
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
Mermoud A
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Devi S
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Agrawal R
Survey of Ophthalmology 2018; 0: (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Weinreb RN
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Manalastas PIC
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Dursun E
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Rosen RB
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Shoji T
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Akagi T
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Turalba AV
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Akagi T
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Mansouri K
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Sylvester B
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Huang D
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
He Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76518 Results of Nailfold Capillaroscopy in Patients with Normal-Tension Glaucoma
Żarnowski T
Current Eye Research 2018; 43: 747-753 (IGR: 19-3)

76519 Optical Coherence Tomography Angiography of the Peripapillary Retina in Normal-Tension Glaucoma and Chronic Nonarteritic Anterior Ischemic Optic Neuropathy
Mastropasqua L
Current Eye Research 2018; 43: 778-784 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Saunders LJ
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76542 Diurnal Variations of Peripapillary and Macular Vessel Density in Glaucomatous Eyes Using Optical Coherence Tomography Angiography
Weinreb RN
Journal of Glaucoma 2018; 27: 336-341 (IGR: 19-3)

76734 A Sectoral Analysis of Vessel Density Measurements in Perimetrically Intact Regions of Glaucomatous Eyes: An Optical Coherence Tomography Angiography Study
Webers CAB
Journal of Glaucoma 2018; 27: 525-531 (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Mansouri K
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Penteado RC
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Okutucu M
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76868 Association of Myopia With Peripapillary Perfused Capillary Density in Patients With Glaucoma: An Optical Coherence Tomography Angiography Study
Ritch R
JAMA ophthalmology 2018; 136: 507-513 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Akagi T
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Diniz-Filho A
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Houlihan P
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Penteado RC
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76333 Diagnostic Ability and Structure-function Relationship of Peripapillary Optical Microangiography Measurements in Glaucoma
Webers CAB
Journal of Glaucoma 2018; 27: 219-226 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Reznik A
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76449 Reduced Retinal Vessel Density in Primary Angle Closure Glaucoma: A Quantitative Study Using Optical Coherence Tomography Angiography
Sun X
Journal of Glaucoma 2018; 27: 322-327 (IGR: 19-3)

76516 Comparison of retinal microvascular changes in eyes with high-tension glaucoma or normal-tension glaucoma: a quantitative optic coherence tomography angiographic study
Li X
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1179-1186 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Moghimi S
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76788 Diagnostic Abilities of the Optical Microangiography Parameters of the 3×3 mm and 6×6 mm Macular Scans in Glaucoma
Webers CAB
Journal of Glaucoma 2018; 27: 496-503 (IGR: 19-3)

76793 Inter-eye Asymmetry of Optical Coherence Tomography Angiography Vessel Density in Bilateral Glaucoma, Glaucoma Suspect, and Healthy Eyes
Weinreb RN
American Journal of Ophthalmology 2018; 190: 69-77 (IGR: 19-3)

76815 The relation between retrobulbar blood flow and posterior ocular changes measured using spectral-domain optical coherence tomography in patients with obstructive sleep apnea syndrome
Şahin Ü
International Ophthalmology 2019; 39: 1013-1025 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Christopher M
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Saunders L
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Ritch R
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Yarmohammadi A
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Kashani A
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Hou H; Hou H; Hou H
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Yarmohammadi A
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

76968 Deep-Layer Microvasculature Dropout by Optical Coherence Tomography Angiography and Microstructure of Parapapillary Atrophy
Weinreb RN
Investigative Ophthalmology and Visual Science 2018; 59: 1995-2004 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Wiggs JL
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Suh MH
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Wang RK
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Manalastas PIC
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Moghimi S
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Knepper PA
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Medeiros FA
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76415 Structural and Functional Associations of Macular Microcirculation in the Ganglion Cell-Inner Plexiform Layer in Glaucoma Using Optical Coherence Tomography Angiography
Varma R
Journal of Glaucoma 2018; 27: 281-290 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Penteado RC
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

76933 Optical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in Glaucoma
Weinreb RN
Journal of Glaucoma 2018; 27: 481-489 (IGR: 19-3)

77007 Resting nailfold capillary blood flow in primary open-angle glaucoma
Pasquale LR
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)

76300 The Association Between Macula and ONH Optical Coherence Tomography Angiography (OCT-A) Vessel Densities in Glaucoma, Glaucoma Suspect, and Healthy Eyes
Weinreb RN
Journal of Glaucoma 2018; 27: 227-232 (IGR: 19-3)

76541 Macular Vessel Density in Glaucomatous Eyes With Focal Lamina Cribrosa Defects
Weinreb RN
Journal of Glaucoma 2018; 27: 342-349 (IGR: 19-3)

75152 Glaucoma Diagnostic Capabilities of Foveal Avascular Zone Parameters Using Optical Coherence Tomography Angiography According to Visual Field Defect Location
Kwon J
Journal of Glaucoma 2017; 26: 1120-1129 (IGR: 19-2)

75239 Topographic correlation between juxtapapillary choroidal thickness and parapapillary deep-layer microvasculature dropout in primary open-angle glaucoma
Lee SH
British Journal of Ophthalmology 2018; 102: 1134-1140 (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Suwan Y
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Yarmohammadi A
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75422 Review of the association between retinal microvascular characteristics and eye disease
Newman A
Clinical and Experimental Ophthalmology 2018; 46: 531-552 (IGR: 19-2)

75445 Optical Coherence Tomography-Based Scattering Properties of Retinal Vessels in Glaucoma Patients
Kromer R
Current Eye Research 2018; 43: 503-510 (IGR: 19-2)

75499 Neural control of choroidal blood flow
Reiner A
Progress in Retinal and Eye Research 2018; 64: 96-130 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Aizawa N
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75595 Choroidal Microvasculature Dropout is Not Associated With Myopia, But is Associated With Glaucoma
Shin JW
Journal of Glaucoma 2018; 27: 189-196 (IGR: 19-2)

75632 Radiation induced violations of blood circulation in the ciliary body and changes of the anterior chamber angle in the pathogenesis of glaucoma in clean up workers of the Chornobyl NPP accident and residents of contaminated areas
Garkava NA
Problemy radiatsiinoi medytsyny ta radiobiolohii 2017; 22: 332-338 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Melgarejo JD
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75704 Inter-relationship between ocular perfusion pressure, blood pressure, intraocular pressure profiles and primary open-angle glaucoma: the Singapore Epidemiology of Eye Diseases study
Tham YC
British Journal of Ophthalmology 2018; 0: (IGR: 19-2)

75152 Glaucoma Diagnostic Capabilities of Foveal Avascular Zone Parameters Using Optical Coherence Tomography Angiography According to Visual Field Defect Location
Choi J
Journal of Glaucoma 2017; 26: 1120-1129 (IGR: 19-2)

75239 Topographic correlation between juxtapapillary choroidal thickness and parapapillary deep-layer microvasculature dropout in primary open-angle glaucoma
Lee EJ
British Journal of Ophthalmology 2018; 102: 1134-1140 (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Geyman LS
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Zangwill LM
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75422 Review of the association between retinal microvascular characteristics and eye disease
Andrew N
Clinical and Experimental Ophthalmology 2018; 46: 531-552 (IGR: 19-2)

75445 Optical Coherence Tomography-Based Scattering Properties of Retinal Vessels in Glaucoma Patients
Boelefahr S
Current Eye Research 2018; 43: 503-510 (IGR: 19-2)

75499 Neural control of choroidal blood flow
Fitzgerald MEC
Progress in Retinal and Eye Research 2018; 64: 96-130 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Kunikata H
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75595 Choroidal Microvasculature Dropout is Not Associated With Myopia, But is Associated With Glaucoma
Kwon J
Journal of Glaucoma 2018; 27: 189-196 (IGR: 19-2)

75632 Radiation induced violations of blood circulation in the ciliary body and changes of the anterior chamber angle in the pathogenesis of glaucoma in clean up workers of the Chornobyl NPP accident and residents of contaminated areas
Fedirko PA
Problemy radiatsiinoi medytsyny ta radiobiolohii 2017; 22: 332-338 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Lee JH
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75704 Inter-relationship between ocular perfusion pressure, blood pressure, intraocular pressure profiles and primary open-angle glaucoma: the Singapore Epidemiology of Eye Diseases study
Lim SH
British Journal of Ophthalmology 2018; 0: (IGR: 19-2)

75152 Glaucoma Diagnostic Capabilities of Foveal Avascular Zone Parameters Using Optical Coherence Tomography Angiography According to Visual Field Defect Location
Shin JW
Journal of Glaucoma 2017; 26: 1120-1129 (IGR: 19-2)

75239 Topographic correlation between juxtapapillary choroidal thickness and parapapillary deep-layer microvasculature dropout in primary open-angle glaucoma
Kim TW
British Journal of Ophthalmology 2018; 102: 1134-1140 (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Fard MA
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Manalastas PIC
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75422 Review of the association between retinal microvascular characteristics and eye disease
Casson R
Clinical and Experimental Ophthalmology 2018; 46: 531-552 (IGR: 19-2)

75445 Optical Coherence Tomography-Based Scattering Properties of Retinal Vessels in Glaucoma Patients
Eck B
Current Eye Research 2018; 43: 503-510 (IGR: 19-2)

75499 Neural control of choroidal blood flow
Del Mar N
Progress in Retinal and Eye Research 2018; 64: 96-130 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Shiga Y
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75595 Choroidal Microvasculature Dropout is Not Associated With Myopia, But is Associated With Glaucoma
Lee J
Journal of Glaucoma 2018; 27: 189-196 (IGR: 19-2)

75632 Radiation induced violations of blood circulation in the ciliary body and changes of the anterior chamber angle in the pathogenesis of glaucoma in clean up workers of the Chornobyl NPP accident and residents of contaminated areas
Babenko TF
Problemy radiatsiinoi medytsyny ta radiobiolohii 2017; 22: 332-338 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Petitto M
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75704 Inter-relationship between ocular perfusion pressure, blood pressure, intraocular pressure profiles and primary open-angle glaucoma: the Singapore Epidemiology of Eye Diseases study
Gupta P
British Journal of Ophthalmology 2018; 0: (IGR: 19-2)

75152 Glaucoma Diagnostic Capabilities of Foveal Avascular Zone Parameters Using Optical Coherence Tomography Angiography According to Visual Field Defect Location
Lee J
Journal of Glaucoma 2017; 26: 1120-1129 (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Tantraworasin A
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Fuller NJ
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75445 Optical Coherence Tomography-Based Scattering Properties of Retinal Vessels in Glaucoma Patients
Rahman S
Current Eye Research 2018; 43: 503-510 (IGR: 19-2)

75499 Neural control of choroidal blood flow
Li C
Progress in Retinal and Eye Research 2018; 64: 96-130 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Tsuda S
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75595 Choroidal Microvasculature Dropout is Not Associated With Myopia, But is Associated With Glaucoma
Kook MS
Journal of Glaucoma 2018; 27: 189-196 (IGR: 19-2)

75632 Radiation induced violations of blood circulation in the ciliary body and changes of the anterior chamber angle in the pathogenesis of glaucoma in clean up workers of the Chornobyl NPP accident and residents of contaminated areas
Dorichevska RE
Problemy radiatsiinoi medytsyny ta radiobiolohii 2017; 22: 332-338 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Yépez JB
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75704 Inter-relationship between ocular perfusion pressure, blood pressure, intraocular pressure profiles and primary open-angle glaucoma: the Singapore Epidemiology of Eye Diseases study
Aung T
British Journal of Ophthalmology 2018; 0: (IGR: 19-2)

75152 Glaucoma Diagnostic Capabilities of Foveal Avascular Zone Parameters Using Optical Coherence Tomography Angiography According to Visual Field Defect Location
Kook MS
Journal of Glaucoma 2017; 26: 1120-1129 (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Chui TY
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Diniz-Filho A
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75445 Optical Coherence Tomography-Based Scattering Properties of Retinal Vessels in Glaucoma Patients
Klemm M
Current Eye Research 2018; 43: 503-510 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Yokoyama Y
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Murati FA
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75704 Inter-relationship between ocular perfusion pressure, blood pressure, intraocular pressure profiles and primary open-angle glaucoma: the Singapore Epidemiology of Eye Diseases study
Wong TY
British Journal of Ophthalmology 2018; 0: (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Rosen RB
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Saunders LJ
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Omodaka K
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Jin Z
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75704 Inter-relationship between ocular perfusion pressure, blood pressure, intraocular pressure profiles and primary open-angle glaucoma: the Singapore Epidemiology of Eye Diseases study
Cheng CY
British Journal of Ophthalmology 2018; 0: (IGR: 19-2)

75346 Peripapillary Perfused Capillary Density in Exfoliation Syndrome and Exfoliation Glaucoma versus POAG and Healthy Controls: An OCTA Study
Ritch R
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2018; 7: 84-89 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Suh MH
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Yasui T
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Chávez CA
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Hasenstab K
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Pirela RV
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75362 Peripapillary and Macular Vessel Density in Patients with Primary Open-Angle Glaucoma and Unilateral Visual Field Loss
Weinreb RN
Ophthalmology 2018; 125: 578-587 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Kurashima H
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Calmón GE
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Miyamoto E
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Lee W
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Hashimoto M
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Johnson MP
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75509 Preperimetric Glaucoma Prospective Observational Study (PPGPS): Design, baseline characteristics, and therapeutic effect of tafluprost in preperimetric glaucoma eye
Nakazawa T
PLoS ONE 2017; 12: e0188692 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Mena LJ; Al-Aswad LA; Terwilliger JD; Allikmets R; Maestre GE; De Moraes CG
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Jiang X
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74121 Optical Coherence Tomography Angiography: A New Tool in Glaucoma Diagnostics and Research
Daneshvar R
Journal of ophthalmic & vision research 2017; 12: 325-332 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Akil H
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Zhang S
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Katsanos A
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Perucho-González L
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Manalastas PIC
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74283 Comparison of peripapillary vessel density between preperimetric and perimetric glaucoma evaluated by OCT-angiography
Kim SB
PLoS ONE 2017; 12: e0184297 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Witkowska KJ
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74372 Glaucoma Diagnostic Ability of the Optical Coherence Tomography Angiography Vessel Density Parameters
Chung JK
Current Eye Research 2017; 42: 1458-1467 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Igarashi R
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74411 Optical Coherence Tomography Angiography to Better understand Glaucoma
Holló G
Journal of Current Glaucoma Practice 2017; 11: 35-37 (IGR: 19-1)

74427 Optical coherence tomography angiography in glaucoma: a mini-review
Wan KH
F1000Research 2017; 6: 1686 (IGR: 19-1)

74446 Quantitative optical coherence tomography angiography of macular vascular structure and foveal avascular zone in glaucoma
Choi J
PLoS ONE 2017; 12: e0184948 (IGR: 19-1)

74491 Optical coherence tomography angiography: Technical principles and clinical applications in ophthalmology
Hagag AM
Taiwan journal of ophthalmology 2017; 7: 115-129 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Rao HL
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74564 Spontaneous Retinal Venous Pulsation in Unilateral Primary Open-angle Glaucoma With Low Intraocular Pressure
Lee E
Journal of Glaucoma 2017; 26: 896-901 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Jia Y
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74630 Comparison of Sectoral Structure-Function Relationships in Glaucoma: Vessel Density Versus Thickness in the Peripapillary Retinal Nerve Fiber Layer
Sakaguchi K
Investigative Ophthalmology and Visual Science 2017; 58: 5251-5262 (IGR: 19-1)

74639 The vessel and primary glaucoma
Li RS
Chinese Journal of Ophthalmology 2017; 53: 791-796 (IGR: 19-1)

74654 Glaucoma classification from retina optical coherence tomography angiogram
Ee Ping Ong
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2017; 2017: 596-599 (IGR: 19-1)

74669 Blood Vessel Extraction in Color Retinal Fundus Images with Enhancement Filtering and Unsupervised Classification
Yavuz Z
Journal of healthcare engineering 2017; 2017: 4897258 (IGR: 19-1)

74725 Diurnal variation of pulse waveform parameters determined by laser speckle flowgraphy on the optic nerve head in healthy subjects
Fukami M
Medicine 2017; 96: e8312 (IGR: 19-1)

74746 Ocular pulse amplitude in different types of glaucoma using dynamic contour tonometry: Diagnosis and follow-up of glaucoma
Cheng L
Experimental and therapeutic medicine 2017; 14: 4148-4152 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Triolo G
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74776 Hypothesis: Watershed zones in the human eye are a key for understanding glaucomatous retinal damage
May CA
Medical Hypotheses 2017; 109: 1-5 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Shin JW
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74809 Diseases potentially related to Flammer syndrome
Konieczka K
The EPMA Journal 2017; 8: 327-332 (IGR: 19-1)

74810 Retinal venous pressure measurements in patients with Flammer syndrome and metabolic syndrome
Mustur D
The EPMA Journal 2017; 8: 339-344 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Do JL
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74844 Retinal vasculature in glaucoma: a review
Chan KKW
BMJ open ophthalmology 2017; 1: e000032 (IGR: 19-1)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Johnson E
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74121 Optical Coherence Tomography Angiography: A New Tool in Glaucoma Diagnostics and Research
Nouri-Mahdavi K
Journal of ophthalmic & vision research 2017; 12: 325-332 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Chopra V
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Wu C
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Dastiridou AI
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Méndez-Hernández CD
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Zangwill LM
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74283 Comparison of peripapillary vessel density between preperimetric and perimetric glaucoma evaluated by OCT-angiography
Lee EJ
PLoS ONE 2017; 12: e0184297 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Bata AM
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74372 Glaucoma Diagnostic Ability of the Optical Coherence Tomography Angiography Vessel Density Parameters
Hwang YH
Current Eye Research 2017; 42: 1458-1467 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Ochiai S
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74427 Optical coherence tomography angiography in glaucoma: a mini-review
Leung CKS
F1000Research 2017; 6: 1686 (IGR: 19-1)

74446 Quantitative optical coherence tomography angiography of macular vascular structure and foveal avascular zone in glaucoma
Kwon J
PLoS ONE 2017; 12: e0184948 (IGR: 19-1)

74491 Optical coherence tomography angiography: Technical principles and clinical applications in ophthalmology
Gao SS
Taiwan journal of ophthalmology 2017; 7: 115-129 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Pradhan ZS
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74564 Spontaneous Retinal Venous Pulsation in Unilateral Primary Open-angle Glaucoma With Low Intraocular Pressure
Kim TW
Journal of Glaucoma 2017; 26: 896-901 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Simonett JM
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74630 Comparison of Sectoral Structure-Function Relationships in Glaucoma: Vessel Density Versus Thickness in the Peripapillary Retinal Nerve Fiber Layer
Higashide T
Investigative Ophthalmology and Visual Science 2017; 58: 5251-5262 (IGR: 19-1)

74639 The vessel and primary glaucoma
Pan YZ
Chinese Journal of Ophthalmology 2017; 53: 791-796 (IGR: 19-1)

74654 Glaucoma classification from retina optical coherence tomography angiogram
Jun Cheng
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2017; 2017: 596-599 (IGR: 19-1)

74669 Blood Vessel Extraction in Color Retinal Fundus Images with Enhancement Filtering and Unsupervised Classification
Köse C
Journal of healthcare engineering 2017; 2017: 4897258 (IGR: 19-1)

74725 Diurnal variation of pulse waveform parameters determined by laser speckle flowgraphy on the optic nerve head in healthy subjects
Iwase T
Medicine 2017; 96: e8312 (IGR: 19-1)

74746 Ocular pulse amplitude in different types of glaucoma using dynamic contour tonometry: Diagnosis and follow-up of glaucoma
Ding Y
Experimental and therapeutic medicine 2017; 14: 4148-4152 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Rabiolo A
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74776 Hypothesis: Watershed zones in the human eye are a key for understanding glaucomatous retinal damage
Rutkowski P
Medical Hypotheses 2017; 109: 1-5 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Sung KR
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74809 Diseases potentially related to Flammer syndrome
Erb C
The EPMA Journal 2017; 8: 327-332 (IGR: 19-1)

74810 Retinal venous pressure measurements in patients with Flammer syndrome and metabolic syndrome
Vahedian Z
The EPMA Journal 2017; 8: 339-344 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Sylvester B
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74844 Retinal vasculature in glaucoma: a review
Tang F
BMJ open ophthalmology 2017; 1: e000032 (IGR: 19-1)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Cepurna W
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Al-Sheikh M
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Liu L
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Quaranta L
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
González-de-la-Rosa M
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Saunders LJ
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74283 Comparison of peripapillary vessel density between preperimetric and perimetric glaucoma evaluated by OCT-angiography
Han JC
PLoS ONE 2017; 12: e0184297 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Calzetti G
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74372 Glaucoma Diagnostic Ability of the Optical Coherence Tomography Angiography Vessel Density Parameters
Wi JM
Current Eye Research 2017; 42: 1458-1467 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Sakaue Y
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74446 Quantitative optical coherence tomography angiography of macular vascular structure and foveal avascular zone in glaucoma
Shin JW
PLoS ONE 2017; 12: e0184948 (IGR: 19-1)

74491 Optical coherence tomography angiography: Technical principles and clinical applications in ophthalmology
Jia Y
Taiwan journal of ophthalmology 2017; 7: 115-129 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Weinreb RN
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74564 Spontaneous Retinal Venous Pulsation in Unilateral Primary Open-angle Glaucoma With Low Intraocular Pressure
Kim JA
Journal of Glaucoma 2017; 26: 896-901 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Wang J
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74630 Comparison of Sectoral Structure-Function Relationships in Glaucoma: Vessel Density Versus Thickness in the Peripapillary Retinal Nerve Fiber Layer
Udagawa S
Investigative Ophthalmology and Visual Science 2017; 58: 5251-5262 (IGR: 19-1)

74654 Glaucoma classification from retina optical coherence tomography angiogram
Wong DWK
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2017; 2017: 596-599 (IGR: 19-1)

74725 Diurnal variation of pulse waveform parameters determined by laser speckle flowgraphy on the optic nerve head in healthy subjects
Yamamoto K
Medicine 2017; 96: e8312 (IGR: 19-1)

74746 Ocular pulse amplitude in different types of glaucoma using dynamic contour tonometry: Diagnosis and follow-up of glaucoma
Duan X
Experimental and therapeutic medicine 2017; 14: 4148-4152 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Shemonski ND
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Uhm KB
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74810 Retinal venous pressure measurements in patients with Flammer syndrome and metabolic syndrome
Bovet J
The EPMA Journal 2017; 8: 339-344 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Shahidzadeh A
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74844 Retinal vasculature in glaucoma: a review
Tham CCY
BMJ open ophthalmology 2017; 1: e000032 (IGR: 19-1)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Lozano D
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Ghasemi Falavarjani K
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Jia Y
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Rulli E
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Fernández-Pérez C
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Mansouri K
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74283 Comparison of peripapillary vessel density between preperimetric and perimetric glaucoma evaluated by OCT-angiography
Kee C
PLoS ONE 2017; 12: e0184297 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Luft N
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74372 Glaucoma Diagnostic Ability of the Optical Coherence Tomography Angiography Vessel Density Parameters
Kim M
Current Eye Research 2017; 42: 1458-1467 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Suetake A
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74446 Quantitative optical coherence tomography angiography of macular vascular structure and foveal avascular zone in glaucoma
Lee J
PLoS ONE 2017; 12: e0184948 (IGR: 19-1)

74491 Optical coherence tomography angiography: Technical principles and clinical applications in ophthalmology
Huang D
Taiwan journal of ophthalmology 2017; 7: 115-129 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Dasari S
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Hua X
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74630 Comparison of Sectoral Structure-Function Relationships in Glaucoma: Vessel Density Versus Thickness in the Peripapillary Retinal Nerve Fiber Layer
Ohkubo S
Investigative Ophthalmology and Visual Science 2017; 58: 5251-5262 (IGR: 19-1)

74654 Glaucoma classification from retina optical coherence tomography angiogram
Jiang Liu
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2017; 2017: 596-599 (IGR: 19-1)

74725 Diurnal variation of pulse waveform parameters determined by laser speckle flowgraphy on the optic nerve head in healthy subjects
Ra E
Medicine 2017; 96: e8312 (IGR: 19-1)

74746 Ocular pulse amplitude in different types of glaucoma using dynamic contour tonometry: Diagnosis and follow-up of glaucoma
Wu Z
Experimental and therapeutic medicine 2017; 14: 4148-4152 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Fard A
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Jo J
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74810 Retinal venous pressure measurements in patients with Flammer syndrome and metabolic syndrome
Mozaffarieh M
The EPMA Journal 2017; 8: 339-344 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Wang RK
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74844 Retinal vasculature in glaucoma: a review
Young AL
BMJ open ophthalmology 2017; 1: e000032 (IGR: 19-1)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Men S
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Huang AS
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Zhang Y
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Riva I
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Sáez-Francés F
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Belghith A
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Fondi K
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74372 Glaucoma Diagnostic Ability of the Optical Coherence Tomography Angiography Vessel Density Parameters
Jung JJ
Current Eye Research 2017; 42: 1458-1467 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Iikawa R
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74446 Quantitative optical coherence tomography angiography of macular vascular structure and foveal avascular zone in glaucoma
Lee S
PLoS ONE 2017; 12: e0184948 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Riyazuddin M
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74564 Spontaneous Retinal Venous Pulsation in Unilateral Primary Open-angle Glaucoma With Low Intraocular Pressure
Kim H
Journal of Glaucoma 2017; 26: 896-901 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Liu L
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74630 Comparison of Sectoral Structure-Function Relationships in Glaucoma: Vessel Density Versus Thickness in the Peripapillary Retinal Nerve Fiber Layer
Sugiyama K
Investigative Ophthalmology and Visual Science 2017; 58: 5251-5262 (IGR: 19-1)

74654 Glaucoma classification from retina optical coherence tomography angiogram
Tay ELT
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2017; 2017: 596-599 (IGR: 19-1)

74725 Diurnal variation of pulse waveform parameters determined by laser speckle flowgraphy on the optic nerve head in healthy subjects
Murotani K
Medicine 2017; 96: e8312 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Di Matteo F
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Moon Y
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Chu Z
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74844 Retinal vasculature in glaucoma: a review
Cheung CY
BMJ open ophthalmology 2017; 1: e000032 (IGR: 19-1)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Wang RK
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Sadda SR
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Dimasi V
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Andrés-Guerrero V
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Suh MH
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Wozniak PA
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Togano T
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74446 Quantitative optical coherence tomography angiography of macular vascular structure and foveal avascular zone in glaucoma
Kook MS
PLoS ONE 2017; 12: e0184948 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Venugopal JP
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Hwang TS
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74654 Glaucoma classification from retina optical coherence tomography angiogram
Yip LWL
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2017; 2017: 596-599 (IGR: 19-1)

74725 Diurnal variation of pulse waveform parameters determined by laser speckle flowgraphy on the optic nerve head in healthy subjects
Terasaki H
Medicine 2017; 96: e8312 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Sacconi R
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Song MK
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Patel V
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74103 The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography
Morrison J
Microvascular Research 2018; 115: 12-19 (IGR: 19-1)

74126 Swept-source OCT angiography imaging of the macular capillary network in glaucoma
Francis BA
British Journal of Ophthalmology 2017; 0: (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Zhang H
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Tsironi EE
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
García-Feijoó J
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Yarmohammadi A
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Schmidl D
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Miyamoto F
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Puttaiah NK
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74627 Wide-Field OCT Angiography Investigation of the Relationship Between Radial Peripapillary Capillary Plexus Density and Nerve Fiber Layer Thickness
Huang D
Investigative Ophthalmology and Visual Science 2017; 58: 5188-5194 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Bettin P
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74803 Peripapillary Microvascular Improvement and Lamina Cribrosa Depth Reduction After Trabeculectomy in Primary Open-Angle Glaucoma
Song JY
Investigative Ophthalmology and Visual Science 2017; 58: 5993-5999 (IGR: 19-1)

74821 Utility of optical coherence tomography angiography in detecting glaucomatous damage in a uveitic patient with disc congestion: A case report
Richter GM
American journal of ophthalmology case reports 2017; 8: 78-83 (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Zhong Y
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74165 The Effect of Posture on Intraocular Pressure and Systemic Hemodynamic Parameters in Treated and Untreated Patients with Primary Open-Angle Glaucoma
Weinreb RN
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 598-603 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Penteado RC
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Bolz M
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Miyamoto D
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Rao DAS
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Magazzeni S
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74133 Optical Coherence Tomography Angiography of the Peripapillary Retina in Primary Angle-Closure Glaucoma
Huang D
American Journal of Ophthalmology 2017; 182: 194-200 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Akagi T
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Popa-Cherecheanu A
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74388 Optical coherence tomography angiography of the peripapillary capillaries in primary open-angle and normal-tension glaucoma
Fukuchi T
PLoS ONE 2017; 12: e0184301 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Devi S
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Querques G
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Shoji T
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Werkmeister RM
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Mansouri K
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Vazquez LE
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74269 Reproducibility of Optical Coherence Tomography Angiography Macular and Optic Nerve Head Vascular Density in Glaucoma and Healthy Eyes
Weinreb RN
Journal of Glaucoma 2017; 26: 851-859 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Garhöfer G
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Webers CAB
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Barboni P
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Schmetterer L
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)

74753 Optical Coherence Tomography Angiography Macular and Peripapillary Vessel Perfusion Density in Healthy Subjects, Glaucoma Suspects, and Glaucoma Patients
Bandello F
Investigative Ophthalmology and Visual Science 2017; 58: 5713-5722 (IGR: 19-1)

72618 OCT Angiography of the Glaucoma Optic Nerve
Lommatzsch C
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Rao HL
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Terelak-Borys B
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72643 Underlying Microstructure of Parapapillary Deep-Layer Capillary Dropout Identified by Optical Coherence Tomography Angiography
Lee EJ
Investigative Ophthalmology and Visual Science 2017; 58: 1621-1627 (IGR: 18-4)

72644 Alterations of the Foveal Avascular Zone Measured by Optical Coherence Tomography Angiography in Glaucoma Patients With Central Visual Field Defects
Kwon J
Investigative Ophthalmology and Visual Science 2017; 58: 1637-1645 (IGR: 18-4)

72648 Optical Coherence Tomography Angiography of the Optic Disc; an Overview
Akil H
Journal of ophthalmic & vision research 2017; 12: 98-105 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Kocatürk T
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Rao HL
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72725 Optical Coherence Angiographic Demonstration of Retinal Changes From Chronic Optic Neuropathies
Chen JJ
Neuro-Ophthalmology 2017; 41: 76-83 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Chen CL
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72895 Optical coherence tomography angiography vessel density mapping at various retinal layers in healthy and normal tension glaucoma eyes
Shin JW
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1193-1202 (IGR: 18-4)

72905 Regional vascular density-visual field sensitivity relationship in glaucoma according to disease severity
Shin JW
British Journal of Ophthalmology 2017; 101: 1666-1672 (IGR: 18-4)

72909 Parapapillary Choroidal Microvasculature Dropout in Glaucoma: A Comparison between Optical Coherence Tomography Angiography and Indocyanine Green Angiography
Lee EJ
Ophthalmology 2017; 124: 1209-1217 (IGR: 18-4)

72947 Topography and correlation of radial peripapillary capillary density network with retinal nerve fibre layer thickness
Mansoori T
International Ophthalmology 2018; 38: 967-974 (IGR: 18-4)

72984 Relationship between laser speckle flowgraphy and optical coherence tomography angiography measurements of ocular microcirculation
Kiyota N
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1633-1642 (IGR: 18-4)

72994 Elevated Intraocular Pressure Induces Cellular Responses in the Retinal Capillaries
Brockhaus K
Klinische Monatsblätter für Augenheilkunde 2017; 234: 1266-1275 (IGR: 18-4)

73004 Blood vessel segmentation in color fundus images based on regional and Hessian features
Shah SAA
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1525-1533 (IGR: 18-4)

73012 Is there an association between glaucoma and capillaroscopy in patients with systemic sclerosis?
Gomes BF
International Ophthalmology 2018; 38: 251-256 (IGR: 18-4)

73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Na KI
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)

73341 Comparisons of retinal vessel diameter and glaucomatous parameters between both eyes of subjects with clinically unilateral pseudoexfoliation syndrome
Takai Y
PLoS ONE 2017; 12: e0179663 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
An D
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72618 OCT Angiography of the Glaucoma Optic Nerve
Koch JM
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Pradhan ZS
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Grabska-Liberek I
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72643 Underlying Microstructure of Parapapillary Deep-Layer Capillary Dropout Identified by Optical Coherence Tomography Angiography
Kim TW
Investigative Ophthalmology and Visual Science 2017; 58: 1621-1627 (IGR: 18-4)

72644 Alterations of the Foveal Avascular Zone Measured by Optical Coherence Tomography Angiography in Glaucoma Patients With Central Visual Field Defects
Choi J
Investigative Ophthalmology and Visual Science 2017; 58: 1637-1645 (IGR: 18-4)

72648 Optical Coherence Tomography Angiography of the Optic Disc; an Overview
Falavarjani KG
Journal of ophthalmic & vision research 2017; 12: 98-105 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Akgüllü Ç
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Pradhan ZS
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72725 Optical Coherence Angiographic Demonstration of Retinal Changes From Chronic Optic Neuropathies
AbouChehade JE
Neuro-Ophthalmology 2017; 41: 76-83 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Bojikian KD
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Ishida K
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72895 Optical coherence tomography angiography vessel density mapping at various retinal layers in healthy and normal tension glaucoma eyes
Sung KR
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1193-1202 (IGR: 18-4)

72905 Regional vascular density-visual field sensitivity relationship in glaucoma according to disease severity
Lee J
British Journal of Ophthalmology 2017; 101: 1666-1672 (IGR: 18-4)

72909 Parapapillary Choroidal Microvasculature Dropout in Glaucoma: A Comparison between Optical Coherence Tomography Angiography and Indocyanine Green Angiography
Lee KM
Ophthalmology 2017; 124: 1209-1217 (IGR: 18-4)

72947 Topography and correlation of radial peripapillary capillary density network with retinal nerve fibre layer thickness
Sivaswamy J
International Ophthalmology 2018; 38: 967-974 (IGR: 18-4)

72984 Relationship between laser speckle flowgraphy and optical coherence tomography angiography measurements of ocular microcirculation
Kunikata H
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1633-1642 (IGR: 18-4)

72994 Elevated Intraocular Pressure Induces Cellular Responses in the Retinal Capillaries
Melkonyan H
Klinische Monatsblätter für Augenheilkunde 2017; 234: 1266-1275 (IGR: 18-4)

73004 Blood vessel segmentation in color fundus images based on regional and Hessian features
Tang TB
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1525-1533 (IGR: 18-4)

73012 Is there an association between glaucoma and capillaroscopy in patients with systemic sclerosis?
Souza R
International Ophthalmology 2018; 38: 251-256 (IGR: 18-4)

73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Lee WJ
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)

73341 Comparisons of retinal vessel diameter and glaucomatous parameters between both eyes of subjects with clinically unilateral pseudoexfoliation syndrome
Tanito M
PLoS ONE 2017; 12: e0179663 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
House P
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72618 OCT Angiography of the Glaucoma Optic Nerve
Claußnitzer H
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Weinreb RN
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Piekarniak-Wozniak A
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72643 Underlying Microstructure of Parapapillary Deep-Layer Capillary Dropout Identified by Optical Coherence Tomography Angiography
Lee SH
Investigative Ophthalmology and Visual Science 2017; 58: 1621-1627 (IGR: 18-4)

72644 Alterations of the Foveal Avascular Zone Measured by Optical Coherence Tomography Angiography in Glaucoma Patients With Central Visual Field Defects
Shin JW
Investigative Ophthalmology and Visual Science 2017; 58: 1637-1645 (IGR: 18-4)

72648 Optical Coherence Tomography Angiography of the Optic Disc; an Overview
Sadda SR
Journal of ophthalmic & vision research 2017; 12: 98-105 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Weinreb RN
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72725 Optical Coherence Angiographic Demonstration of Retinal Changes From Chronic Optic Neuropathies
Iezzi R
Neuro-Ophthalmology 2017; 41: 76-83 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Wen JC
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Enomoto N
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72895 Optical coherence tomography angiography vessel density mapping at various retinal layers in healthy and normal tension glaucoma eyes
Lee JY
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1193-1202 (IGR: 18-4)

72905 Regional vascular density-visual field sensitivity relationship in glaucoma according to disease severity
Kwon J
British Journal of Ophthalmology 2017; 101: 1666-1672 (IGR: 18-4)

72909 Parapapillary Choroidal Microvasculature Dropout in Glaucoma: A Comparison between Optical Coherence Tomography Angiography and Indocyanine Green Angiography
Lee SH
Ophthalmology 2017; 124: 1209-1217 (IGR: 18-4)

72947 Topography and correlation of radial peripapillary capillary density network with retinal nerve fibre layer thickness
Gamalapati JS
International Ophthalmology 2018; 38: 967-974 (IGR: 18-4)

72984 Relationship between laser speckle flowgraphy and optical coherence tomography angiography measurements of ocular microcirculation
Shiga Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1633-1642 (IGR: 18-4)

72994 Elevated Intraocular Pressure Induces Cellular Responses in the Retinal Capillaries
Prokosch V
Klinische Monatsblätter für Augenheilkunde 2017; 234: 1266-1275 (IGR: 18-4)

73004 Blood vessel segmentation in color fundus images based on regional and Hessian features
Faye I
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1525-1533 (IGR: 18-4)

73012 Is there an association between glaucoma and capillaroscopy in patients with systemic sclerosis?
Valadão T
International Ophthalmology 2018; 38: 251-256 (IGR: 18-4)

73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Kim YK
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)

73341 Comparisons of retinal vessel diameter and glaucomatous parameters between both eyes of subjects with clinically unilateral pseudoexfoliation syndrome
Omura T
PLoS ONE 2017; 12: e0179663 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Barry C
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72618 OCT Angiography of the Glaucoma Optic Nerve
Heinz C
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Riyazuddin M
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72627 Choroidal infarction in a glaucoma patient with Flammer syndrome: a case report with a long term follow-up
Konieczka K
BMC Ophthalmology 2017; 17: 23 (IGR: 18-4)

72643 Underlying Microstructure of Parapapillary Deep-Layer Capillary Dropout Identified by Optical Coherence Tomography Angiography
Kim JA
Investigative Ophthalmology and Visual Science 2017; 58: 1621-1627 (IGR: 18-4)

72644 Alterations of the Foveal Avascular Zone Measured by Optical Coherence Tomography Angiography in Glaucoma Patients With Central Visual Field Defects
Lee J
Investigative Ophthalmology and Visual Science 2017; 58: 1637-1645 (IGR: 18-4)

72648 Optical Coherence Tomography Angiography of the Optic Disc; an Overview
Sadun AA
Journal of ophthalmic & vision research 2017; 12: 98-105 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Ömürlü İK
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Dasari S
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72725 Optical Coherence Angiographic Demonstration of Retinal Changes From Chronic Optic Neuropathies
Leavitt JA
Neuro-Ophthalmology 2017; 41: 76-83 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Zhang Q
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Takagi S
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72895 Optical coherence tomography angiography vessel density mapping at various retinal layers in healthy and normal tension glaucoma eyes
Kwon J
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1193-1202 (IGR: 18-4)

72905 Regional vascular density-visual field sensitivity relationship in glaucoma according to disease severity
Choi J
British Journal of Ophthalmology 2017; 101: 1666-1672 (IGR: 18-4)

72909 Parapapillary Choroidal Microvasculature Dropout in Glaucoma: A Comparison between Optical Coherence Tomography Angiography and Indocyanine Green Angiography
Kim TW
Ophthalmology 2017; 124: 1209-1217 (IGR: 18-4)

72947 Topography and correlation of radial peripapillary capillary density network with retinal nerve fibre layer thickness
Balakrishna N
International Ophthalmology 2018; 38: 967-974 (IGR: 18-4)

72984 Relationship between laser speckle flowgraphy and optical coherence tomography angiography measurements of ocular microcirculation
Omodaka K
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1633-1642 (IGR: 18-4)

72994 Elevated Intraocular Pressure Induces Cellular Responses in the Retinal Capillaries
Thanos S
Klinische Monatsblätter für Augenheilkunde 2017; 234: 1266-1275 (IGR: 18-4)

73004 Blood vessel segmentation in color fundus images based on regional and Hessian features
Laude A
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1525-1533 (IGR: 18-4)

73012 Is there an association between glaucoma and capillaroscopy in patients with systemic sclerosis?
Kara-Junior N
International Ophthalmology 2018; 38: 251-256 (IGR: 18-4)

73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Jeoung JW
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)

73341 Comparisons of retinal vessel diameter and glaucomatous parameters between both eyes of subjects with clinically unilateral pseudoexfoliation syndrome
Kawasaki R
PLoS ONE 2017; 12: e0179663 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Turpin A
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Dasari S
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72644 Alterations of the Foveal Avascular Zone Measured by Optical Coherence Tomography Angiography in Glaucoma Patients With Central Visual Field Defects
Kook MS
Investigative Ophthalmology and Visual Science 2017; 58: 1637-1645 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Çakmak H
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Riyazuddin M
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72725 Optical Coherence Angiographic Demonstration of Retinal Changes From Chronic Optic Neuropathies
Kardon RH
Neuro-Ophthalmology 2017; 41: 76-83 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Xin C
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Ito H
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

72895 Optical coherence tomography angiography vessel density mapping at various retinal layers in healthy and normal tension glaucoma eyes
Seong M
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1193-1202 (IGR: 18-4)

72905 Regional vascular density-visual field sensitivity relationship in glaucoma according to disease severity
Kook MS
British Journal of Ophthalmology 2017; 101: 1666-1672 (IGR: 18-4)

72984 Relationship between laser speckle flowgraphy and optical coherence tomography angiography measurements of ocular microcirculation
Nakazawa T
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 1633-1642 (IGR: 18-4)

73012 Is there an association between glaucoma and capillaroscopy in patients with systemic sclerosis?
Moraes HV
International Ophthalmology 2018; 38: 251-256 (IGR: 18-4)

73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Park KH
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
McKendrick AM
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Venugopal JP
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Eryılmaz U
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Raveendran S
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Mudumbai RC
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Takeyama A
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

73012 Is there an association between glaucoma and capillaroscopy in patients with systemic sclerosis?
Santhiago MR
International Ophthalmology 2018; 38: 251-256 (IGR: 18-4)

73341 Comparisons of retinal vessel diameter and glaucomatous parameters between both eyes of subjects with clinically unilateral pseudoexfoliation syndrome
Ohira A
PLoS ONE 2017; 12: e0179663 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Chauhan BC
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Puttaiah NK
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72671 Diurnal blood pressure parameters in normal tension glaucoma, primary open angle glaucoma, and healthy subjects
Dayanır V
Anatolian journal of cardiology 2017; 18: 62-67 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Puttaiah NK
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Johnstone MA
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Yagi F
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Manners S
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Rao DA
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Venugopal JP
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Chen PP
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

72883 Association between Optic Nerve Head Microcirculation and Macular Ganglion Cell Complex Thickness in Eyes with Untreated Normal Tension Glaucoma and a Hemifield Defect
Tomita G
Journal of Ophthalmology 2017; 2017: 3608396 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Graham SL
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Devi S
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Rao DAS
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

72751 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Eyes With Glaucoma and Single-Hemifield Visual Field Loss
Wang RK
JAMA ophthalmology 2017; 135: 461-468 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Yu DY
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Mansouri K
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Devi S
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Morgan WH
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)

72626 A comparison of the diagnostic ability of vessel density and structural measurements of optical coherence tomography in primary open angle glaucoma
Webers CA
PLoS ONE 2017; 12: e0173930 (IGR: 18-4)

72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Mansouri K; Webers CAB
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Yap ZL
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Cousins CC
Eye 2017; 31: 698-707 (IGR: 18-3)

71382 Effect of selective laser trabeculoplasty on ocular haemodynamics in primary open-angle glaucoma
Pillunat KR
Acta Ophthalmologica 2017; 95: 374-377 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Geyman LS
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71434 Prostaglandins and optic papilla blood flow
Zhang SH
Chinese Journal of Ophthalmology 2017; 53: 73-76 (IGR: 18-3)

71455 Relationship Between OCT Angiography Temporal Peripapillary Vessel-Density and Octopus Perimeter Paracentral Cluster Mean Defect
Holló G
Journal of Glaucoma 2017; 26: 397-402 (IGR: 18-3)

71457 Choroidal Vessel Diameters in Pseudoexfoliation and Pseudoexfoliation Glaucoma Analyzed Using Spectral-Domain Optical Coherence Tomography
Sarrafpour S
Journal of Glaucoma 2017; 26: 383-389 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Yarmohammadi A
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71561 Radial Peripapillary Capillary Density Measurement Using Optical Coherence Tomography Angiography in Early Glaucoma
Mansoori T
Journal of Glaucoma 2017; 26: 438-443 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Zéboulon P
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Rao HL
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71638 Study of retinal microvascular perfusion alteration and structural damage at macular region in primary open-angle glaucoma patients
Xu H
Chinese Journal of Ophthalmology 2017; 53: 98-103 (IGR: 18-3)

71646 Fluctuation in systolic blood pressure is a major systemic risk factor for development of primary open-angle glaucoma
Lee NY
Scientific reports 2017; 7: 43734 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
Porciatti V
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Rao HL
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Ong C
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Kang JH
Eye 2017; 31: 698-707 (IGR: 18-3)

71382 Effect of selective laser trabeculoplasty on ocular haemodynamics in primary open-angle glaucoma
Spoerl E
Acta Ophthalmologica 2017; 95: 374-377 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Garg RA
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71434 Prostaglandins and optic papilla blood flow
Zhao JL
Chinese Journal of Ophthalmology 2017; 53: 73-76 (IGR: 18-3)

71457 Choroidal Vessel Diameters in Pseudoexfoliation and Pseudoexfoliation Glaucoma Analyzed Using Spectral-Domain Optical Coherence Tomography
Adhi M
Journal of Glaucoma 2017; 26: 383-389 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Zangwill LM
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71561 Radial Peripapillary Capillary Density Measurement Using Optical Coherence Tomography Angiography in Early Glaucoma
Sivaswamy J
Journal of Glaucoma 2017; 26: 438-443 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Lévêque PM
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Pradhan ZS
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71638 Study of retinal microvascular perfusion alteration and structural damage at macular region in primary open-angle glaucoma patients
Kong XM
Chinese Journal of Ophthalmology 2017; 53: 98-103 (IGR: 18-3)

71646 Fluctuation in systolic blood pressure is a major systemic risk factor for development of primary open-angle glaucoma
Jung Y
Scientific reports 2017; 7: 43734 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
Feuer WJ
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Pradhan ZS
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Lee YF
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Bovee C
Eye 2017; 31: 698-707 (IGR: 18-3)

71382 Effect of selective laser trabeculoplasty on ocular haemodynamics in primary open-angle glaucoma
Terai N
Acta Ophthalmologica 2017; 95: 374-377 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Suwan Y
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71457 Choroidal Vessel Diameters in Pseudoexfoliation and Pseudoexfoliation Glaucoma Analyzed Using Spectral-Domain Optical Coherence Tomography
Zhang JY
Journal of Glaucoma 2017; 26: 383-389 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Diniz-Filho A
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71561 Radial Peripapillary Capillary Density Measurement Using Optical Coherence Tomography Angiography in Early Glaucoma
Gamalapati JS
Journal of Glaucoma 2017; 26: 438-443 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Brasnu E
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Weinreb RN
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71646 Fluctuation in systolic blood pressure is a major systemic risk factor for development of primary open-angle glaucoma
Han K
Scientific reports 2017; 7: 43734 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
Monsalve P
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Weinreb RN
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Tsai A
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Wang J
Eye 2017; 31: 698-707 (IGR: 18-3)

71382 Effect of selective laser trabeculoplasty on ocular haemodynamics in primary open-angle glaucoma
Pillunat LE
Acta Ophthalmologica 2017; 95: 374-377 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Trivedi V
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71457 Choroidal Vessel Diameters in Pseudoexfoliation and Pseudoexfoliation Glaucoma Analyzed Using Spectral-Domain Optical Coherence Tomography
Duker JS
Journal of Glaucoma 2017; 26: 383-389 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Saunders LJ
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71561 Radial Peripapillary Capillary Density Measurement Using Optical Coherence Tomography Angiography in Early Glaucoma
Balakrishna N
Journal of Glaucoma 2017; 26: 438-443 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Aragno V
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Riyazuddin M
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71646 Fluctuation in systolic blood pressure is a major systemic risk factor for development of primary open-angle glaucoma
Park CK
Scientific reports 2017; 7: 43734 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
Triolo G
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Reddy HB
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Cheng C
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Greenstein SH
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Krawitz BD
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71457 Choroidal Vessel Diameters in Pseudoexfoliation and Pseudoexfoliation Glaucoma Analyzed Using Spectral-Domain Optical Coherence Tomography
Krishnan C
Journal of Glaucoma 2017; 26: 383-389 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Suh MH
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Hamard P
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Dasari S
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
Vazquez L
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Riyazuddin M
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Nongpiur ME
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Turalba A
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Mo S
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Wu Z
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Baudouin C
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Venugopal JP
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
McSoley J
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Sachdeva S
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71262 Retinal Oximetry in Subjects With Glaucomatous Hemifield Asymmetry
Perera SA
Journal of Glaucoma 2017; 26: 367-372 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Shen LQ
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Pinhas A
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Manalastas PI
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71562 Effect of Surgical Intraocular Pressure Lowering on Peripapillary and Macular Vessel Density in Glaucoma Patients: An Optical Coherence Tomography Angiography Study
Labbé A
Journal of Glaucoma 2017; 26: 466-472 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Puttaiah NK
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71647 Head-down Posture in Glaucoma Suspects Induces Changes in IOP, Systemic Pressure, and PERG That Predict Future Loss of Optic Nerve Tissue
Ventura LM
Journal of Glaucoma 2017; 26: 459-465 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Puttaiah NK
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Brauner S
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Tantraworasin A
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Akagi T
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Rao DA
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Jayadev C
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Boumenna T
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Chui TY
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Medeiros FA
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Devi S
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71649 Determinants of Peripapillary and Macular Vessel Densities Measured by Optical Coherence Tomography Angiography in Normal Eyes
Webers CA
Journal of Glaucoma 2017; 26: 491-497 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Blum S
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Ritch R
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71493 Peripapillary and Macular Vessel Density in Patients with Glaucoma and Single-Hemifield Visual Field Defect
Weinreb RN
Ophthalmology 2017; 124: 709-719 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Mansouri K
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Levkovitch-Verbin H
Eye 2017; 31: 698-707 (IGR: 18-3)

71399 Peripapillary perfused capillary density in primary open-angle glaucoma across disease stage: an optical coherence tomography angiography study
Rosen RB
British Journal of Ophthalmology 2017; 101: 1261-1268 (IGR: 18-3)

71622 Vessel density and structural measurements of optical coherence tomography in primary angle closure and primary angle closure glaucoma
Webers CA
American Journal of Ophthalmology 2017; 177: 106-115 (IGR: 18-3)

71277 Nailfold capillary morphology in exfoliation syndrome
Ritch R; Wiggs JL; Knepper PA; Pasquale LR
Eye 2017; 31: 698-707 (IGR: 18-3)

69845 Effects of Swimming Goggles Wearing on Intraocular Pressure, Ocular Perfusion Pressure, and Ocular Pulse Amplitude
Paula AP
Journal of Glaucoma 2016; 25: 860-864 (IGR: 18-2)

70025 Intrasession and Between-Visit Variability of Sector Peripapillary Angioflow Vessel Density Values Measured with the Angiovue Optical Coherence Tomograph in Different Retinal Layers in Ocular Hypertension and Glaucoma
Holló G
PLoS ONE 2016; 11: e0161631 (IGR: 18-2)

70034 Microvascular endothelial function and severity of primary open angle glaucoma
Bukhari SM
Eye 2016; 30: 1579-1587 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Kaskan B
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Siesky B
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70107 Influence of Large Intraocular Pressure Reduction on Peripapillary OCT Vessel Density in Ocular Hypertensive and Glaucoma Eyes
Holló G
Journal of Glaucoma 2017; 26: e7-e10 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Rao HL
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Suh MH
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70167 Capillary Dropout at the Retinal Nerve Fiber Layer Defect in Glaucoma: An Optical Coherence Tomography Angiography Study
Ichiyama Y
Journal of Glaucoma 2017; 26: e142-e145 (IGR: 18-2)

70183 Retinal Oxygen Saturation in Patients with Primary Open-angle Glaucoma Using a Non-flash Hypespectral Camera
Shahidi AM
Current Eye Research 2016; 0: 1-5 (IGR: 18-2)

70329 Optical coherence tomography angiography: an overview of the technology and an assessment of applications for clinical research
Koustenis A
British Journal of Ophthalmology 2017; 101: 16-20 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Yarmohammadi A
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Suh MH
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Nitta E
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Kumar RS
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70560 OCT Angiography of the Peripapillary Retina in Primary Open-Angle Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2016; 57: 6265-6270 (IGR: 18-2)

70571 Current Imaging Modalities for assessing Ocular Blood Flow in Glaucoma
Mohindroo C
Journal of Current Glaucoma Practice 2016; 10: 104-112 (IGR: 18-2)

70640 Carotid Arterial Flow in Pseudoexfoliation Glaucoma and its Role in Diagnosing the Disease
Uz B
Journal of Glaucoma 2016; 25: 959-962 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Rao HL
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70653 Measurement of Radial Peripapillary Capillary Density in the Normal Human Retina Using Optical Coherence Tomography Angiography
Mansoori T
Journal of Glaucoma 2017; 26: 241-246 (IGR: 18-2)

70676 Comparison of retinal vessel diameter between open-angle glaucoma patients with initial parafoveal scotoma and peripheral nasal step
Yoo E
American Journal of Ophthalmology 2017; 175: 30-36 (IGR: 18-2)

70687 First insight into the proteome landscape of the porcine short posterior ciliary arteries: Key signalling pathways maintaining physiologic functions
Manicam C
Scientific reports 2016; 6: 38298 (IGR: 18-2)

70691 Colour Doppler analysis of ophthalmic vessels in the diagnosis of carotic artery and retinal vein occlusion, diabetic retinopathy and glaucoma: systematic review of test accuracy studies
Bittner M
BMC Ophthalmology 2016; 16: 214 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
You Q
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70779 Phenomenology and Clinical Relevance of the Flammer Syndrome
Konieczka K
Klinische Monatsblätter für Augenheilkunde 2016; 233: 1331-1336 (IGR: 18-2)

70835 Active-passive path-length encoded (APPLE) Doppler OCT
Wartak A
Biomedical optics express 2016; 7: 5233-5251 (IGR: 18-2)

70852 Retinal and choroidal oxygen saturation of the optic nerve head in open-angle glaucoma subjects by multispectral imaging
Li GY
Medicine 2016; 95: e5775 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Mo S
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70880 The effect of deep sclerectomy on ocular blood flow: a 6-month clinical trial
Özsoy A
Turkish journal of medical sciences 2016; 46: 1773-1778 (IGR: 18-2)

70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Chihara E
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)

70921 Retinal vessel density from optical coherence tomography angiography to differentiate early glaucoma, pre-perimetric glaucoma and normal eyes
Akil H
PLoS ONE 2017; 12: e0170476 (IGR: 18-2)

70922 Relationship between optical coherence tomography sector peripapillary angioflow-density and Octopus visual field cluster mean defect values
Holló G
PLoS ONE 2017; 12: e0171541 (IGR: 18-2)

69845 Effects of Swimming Goggles Wearing on Intraocular Pressure, Ocular Perfusion Pressure, and Ocular Pulse Amplitude
Paula JS
Journal of Glaucoma 2016; 25: 860-864 (IGR: 18-2)

70034 Microvascular endothelial function and severity of primary open angle glaucoma
Kiu KY
Eye 2016; 30: 1579-1587 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Ramezani K
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Harris A
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Pradhan ZS
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Zangwill LM
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70167 Capillary Dropout at the Retinal Nerve Fiber Layer Defect in Glaucoma: An Optical Coherence Tomography Angiography Study
Minamikawa T
Journal of Glaucoma 2017; 26: e142-e145 (IGR: 18-2)

70183 Retinal Oxygen Saturation in Patients with Primary Open-angle Glaucoma Using a Non-flash Hypespectral Camera
Hudson C
Current Eye Research 2016; 0: 1-5 (IGR: 18-2)

70329 Optical coherence tomography angiography: an overview of the technology and an assessment of applications for clinical research
Harris A
British Journal of Ophthalmology 2017; 101: 16-20 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Zangwill LM
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Zangwill LM
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Hirooka K
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Anegondi N
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70560 OCT Angiography of the Peripapillary Retina in Primary Open-Angle Glaucoma
Lee KM
Investigative Ophthalmology and Visual Science 2016; 57: 6265-6270 (IGR: 18-2)

70571 Current Imaging Modalities for assessing Ocular Blood Flow in Glaucoma
Ichhpujani P
Journal of Current Glaucoma Practice 2016; 10: 104-112 (IGR: 18-2)

70640 Carotid Arterial Flow in Pseudoexfoliation Glaucoma and its Role in Diagnosing the Disease
Durum Y
Journal of Glaucoma 2016; 25: 959-962 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Kadambi SV
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70653 Measurement of Radial Peripapillary Capillary Density in the Normal Human Retina Using Optical Coherence Tomography Angiography
Sivaswamy J
Journal of Glaucoma 2017; 26: 241-246 (IGR: 18-2)

70676 Comparison of retinal vessel diameter between open-angle glaucoma patients with initial parafoveal scotoma and peripheral nasal step
Yoo C
American Journal of Ophthalmology 2017; 175: 30-36 (IGR: 18-2)

70687 First insight into the proteome landscape of the porcine short posterior ciliary arteries: Key signalling pathways maintaining physiologic functions
Perumal N
Scientific reports 2016; 6: 38298 (IGR: 18-2)

70691 Colour Doppler analysis of ophthalmic vessels in the diagnosis of carotic artery and retinal vein occlusion, diabetic retinopathy and glaucoma: systematic review of test accuracy studies
Faes L
BMC Ophthalmology 2016; 16: 214 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
Freeman WR
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70779 Phenomenology and Clinical Relevance of the Flammer Syndrome
Flammer J
Klinische Monatsblätter für Augenheilkunde 2016; 233: 1331-1336 (IGR: 18-2)

70835 Active-passive path-length encoded (APPLE) Doppler OCT
Haindl R
Biomedical optics express 2016; 7: 5233-5251 (IGR: 18-2)

70852 Retinal and choroidal oxygen saturation of the optic nerve head in open-angle glaucoma subjects by multispectral imaging
Al-Wesabi SA
Medicine 2016; 95: e5775 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Phillips E
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70880 The effect of deep sclerectomy on ocular blood flow: a 6-month clinical trial
Sarıcaoğlu MS
Turkish journal of medical sciences 2016; 46: 1773-1778 (IGR: 18-2)

70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Dimitrova G
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)

70921 Retinal vessel density from optical coherence tomography angiography to differentiate early glaucoma, pre-perimetric glaucoma and normal eyes
Huang AS
PLoS ONE 2017; 12: e0170476 (IGR: 18-2)

69845 Effects of Swimming Goggles Wearing on Intraocular Pressure, Ocular Perfusion Pressure, and Ocular Pulse Amplitude
Silva MJ
Journal of Glaucoma 2016; 25: 860-864 (IGR: 18-2)

70034 Microvascular endothelial function and severity of primary open angle glaucoma
Thambiraja R
Eye 2016; 30: 1579-1587 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Harris A
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Carr J
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Weinreb RN
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Manalastas PI
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70167 Capillary Dropout at the Retinal Nerve Fiber Layer Defect in Glaucoma: An Optical Coherence Tomography Angiography Study
Niwa Y
Journal of Glaucoma 2017; 26: e142-e145 (IGR: 18-2)

70183 Retinal Oxygen Saturation in Patients with Primary Open-angle Glaucoma Using a Non-flash Hypespectral Camera
Tayyari F
Current Eye Research 2016; 0: 1-5 (IGR: 18-2)

70329 Optical coherence tomography angiography: an overview of the technology and an assessment of applications for clinical research
Gross J
British Journal of Ophthalmology 2017; 101: 16-20 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Diniz-Filho A
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Manalastas PI
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Shimazaki T
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Chandapura RS
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70560 OCT Angiography of the Peripapillary Retina in Primary Open-Angle Glaucoma
Lee SH
Investigative Ophthalmology and Visual Science 2016; 57: 6265-6270 (IGR: 18-2)

70571 Current Imaging Modalities for assessing Ocular Blood Flow in Glaucoma
Kumar S
Journal of Current Glaucoma Practice 2016; 10: 104-112 (IGR: 18-2)

70640 Carotid Arterial Flow in Pseudoexfoliation Glaucoma and its Role in Diagnosing the Disease
Kocatürk T
Journal of Glaucoma 2016; 25: 959-962 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Weinreb RN
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70653 Measurement of Radial Peripapillary Capillary Density in the Normal Human Retina Using Optical Coherence Tomography Angiography
Gamalapati JS
Journal of Glaucoma 2017; 26: 241-246 (IGR: 18-2)

70676 Comparison of retinal vessel diameter between open-angle glaucoma patients with initial parafoveal scotoma and peripheral nasal step
Lee TE
American Journal of Ophthalmology 2017; 175: 30-36 (IGR: 18-2)

70687 First insight into the proteome landscape of the porcine short posterior ciliary arteries: Key signalling pathways maintaining physiologic functions
Pfeiffer N
Scientific reports 2016; 6: 38298 (IGR: 18-2)

70691 Colour Doppler analysis of ophthalmic vessels in the diagnosis of carotic artery and retinal vein occlusion, diabetic retinopathy and glaucoma: systematic review of test accuracy studies
Boehni SC
BMC Ophthalmology 2016; 16: 214 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
Weinreb RN
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70835 Active-passive path-length encoded (APPLE) Doppler OCT
Trasischker W
Biomedical optics express 2016; 7: 5233-5251 (IGR: 18-2)

70852 Retinal and choroidal oxygen saturation of the optic nerve head in open-angle glaucoma subjects by multispectral imaging
Zhang H
Medicine 2016; 95: e5775 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Krawitz BD
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70880 The effect of deep sclerectomy on ocular blood flow: a 6-month clinical trial
Çavuşoğlu M
Turkish journal of medical sciences 2016; 46: 1773-1778 (IGR: 18-2)

70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Amano H
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)

70921 Retinal vessel density from optical coherence tomography angiography to differentiate early glaucoma, pre-perimetric glaucoma and normal eyes
Francis BA
PLoS ONE 2017; 12: e0170476 (IGR: 18-2)

69845 Effects of Swimming Goggles Wearing on Intraocular Pressure, Ocular Perfusion Pressure, and Ocular Pulse Amplitude
Rocha EM
Journal of Glaucoma 2016; 25: 860-864 (IGR: 18-2)

70034 Microvascular endothelial function and severity of primary open angle glaucoma
Sulong S
Eye 2016; 30: 1579-1587 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Siesky B
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Verticchio Vercellin A
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Reddy HB
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Belghith A
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70167 Capillary Dropout at the Retinal Nerve Fiber Layer Defect in Glaucoma: An Optical Coherence Tomography Angiography Study
Ohji M
Journal of Glaucoma 2017; 26: e142-e145 (IGR: 18-2)

70183 Retinal Oxygen Saturation in Patients with Primary Open-angle Glaucoma Using a Non-flash Hypespectral Camera
Flanagan JG
Current Eye Research 2016; 0: 1-5 (IGR: 18-2)

70329 Optical coherence tomography angiography: an overview of the technology and an assessment of applications for clinical research
Januleviciene I
British Journal of Ophthalmology 2017; 101: 16-20 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Suh MH
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Belghith A
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Sato S
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Sudhakaran S
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70560 OCT Angiography of the Peripapillary Retina in Primary Open-Angle Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2016; 57: 6265-6270 (IGR: 18-2)

70640 Carotid Arterial Flow in Pseudoexfoliation Glaucoma and its Role in Diagnosing the Disease
Dayanir YO
Journal of Glaucoma 2016; 25: 959-962 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Puttaiah NK
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70653 Measurement of Radial Peripapillary Capillary Density in the Normal Human Retina Using Optical Coherence Tomography Angiography
Agraharam SG
Journal of Glaucoma 2017; 26: 241-246 (IGR: 18-2)

70676 Comparison of retinal vessel diameter between open-angle glaucoma patients with initial parafoveal scotoma and peripheral nasal step
Kim YY
American Journal of Ophthalmology 2017; 175: 30-36 (IGR: 18-2)

70687 First insight into the proteome landscape of the porcine short posterior ciliary arteries: Key signalling pathways maintaining physiologic functions
Grus FH
Scientific reports 2016; 6: 38298 (IGR: 18-2)

70691 Colour Doppler analysis of ophthalmic vessels in the diagnosis of carotic artery and retinal vein occlusion, diabetic retinopathy and glaucoma: systematic review of test accuracy studies
Bachmann LM
BMC Ophthalmology 2016; 16: 214 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
Zangwill L
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70835 Active-passive path-length encoded (APPLE) Doppler OCT
Baumann B
Biomedical optics express 2016; 7: 5233-5251 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Garg R
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Chihara T
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)

70921 Retinal vessel density from optical coherence tomography angiography to differentiate early glaucoma, pre-perimetric glaucoma and normal eyes
Sadda SR
PLoS ONE 2017; 12: e0170476 (IGR: 18-2)

69845 Effects of Swimming Goggles Wearing on Intraocular Pressure, Ocular Perfusion Pressure, and Ocular Pulse Amplitude
De Moraes CG
Journal of Glaucoma 2016; 25: 860-864 (IGR: 18-2)

70034 Microvascular endothelial function and severity of primary open angle glaucoma
Rasool AH
Eye 2016; 30: 1579-1587 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Olinde C
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Hussain RM
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Riyazuddin M
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Yarmohammadi A
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70329 Optical coherence tomography angiography: an overview of the technology and an assessment of applications for clinical research
Shah A
British Journal of Ophthalmology 2017; 101: 16-20 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Yousefi S
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Yarmohammadi A
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Ukegawa K
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Kadambi SV
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70640 Carotid Arterial Flow in Pseudoexfoliation Glaucoma and its Role in Diagnosing the Disease
Dayanir V
Journal of Glaucoma 2016; 25: 959-962 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Pradhan ZS
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70653 Measurement of Radial Peripapillary Capillary Density in the Normal Human Retina Using Optical Coherence Tomography Angiography
Balakrishna N
Journal of Glaucoma 2017; 26: 241-246 (IGR: 18-2)

70687 First insight into the proteome landscape of the porcine short posterior ciliary arteries: Key signalling pathways maintaining physiologic functions
Gericke A
Scientific reports 2016; 6: 38298 (IGR: 18-2)

70691 Colour Doppler analysis of ophthalmic vessels in the diagnosis of carotic artery and retinal vein occlusion, diabetic retinopathy and glaucoma: systematic review of test accuracy studies
Schlingemann RO
BMC Ophthalmology 2016; 16: 214 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
Manalastas PI
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70835 Active-passive path-length encoded (APPLE) Doppler OCT
Pircher M
Biomedical optics express 2016; 7: 5233-5251 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Salim S
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70921 Retinal vessel density from optical coherence tomography angiography to differentiate early glaucoma, pre-perimetric glaucoma and normal eyes
Chopra V
PLoS ONE 2017; 12: e0170476 (IGR: 18-2)

69845 Effects of Swimming Goggles Wearing on Intraocular Pressure, Ocular Perfusion Pressure, and Ocular Pulse Amplitude
Rodrigues ML
Journal of Glaucoma 2016; 25: 860-864 (IGR: 18-2)

70034 Microvascular endothelial function and severity of primary open angle glaucoma
Liza-Sharmini AT
Eye 2016; 30: 1579-1587 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
WuDunn D
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Parekh Hembree P
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Dasari S
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Medeiros FA
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70329 Optical coherence tomography angiography: an overview of the technology and an assessment of applications for clinical research
Siesky B
British Journal of Ophthalmology 2017; 101: 16-20 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Saunders LJ
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Medeiros FA
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Nakano Y
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Rao HL
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70640 Carotid Arterial Flow in Pseudoexfoliation Glaucoma and its Role in Diagnosing the Disease
Bilgen M
Journal of Glaucoma 2016; 25: 959-962 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Rao DA
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70691 Colour Doppler analysis of ophthalmic vessels in the diagnosis of carotic artery and retinal vein occlusion, diabetic retinopathy and glaucoma: systematic review of test accuracy studies
Schmid MK
BMC Ophthalmology 2016; 16: 214 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
Saunders LJ
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70835 Active-passive path-length encoded (APPLE) Doppler OCT
Hitzenberger CK
Biomedical optics express 2016; 7: 5233-5251 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Geyman LS
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Eikenberry J
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Wentz S
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Palakurthy M
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Diniz-Filho A
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Belghith A
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Diniz-Filho A
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70415 Retinal oxygen saturation before and after glaucoma surgery
Tsujikawa A
Acta Ophthalmologica 2017; 95: e350-e353 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Aung T
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Kumar RS
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70702 REPRODUCIBILITY OF VESSEL DENSITY MEASUREMENT WITH OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY IN EYES WITH AND WITHOUT RETINOPATHY
Nudleman E
Retina (Philadelphia, Pa.) 2017; 37: 1475-1482 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Efstathiadis E
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Tobe LA
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Isaacs M
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Puttaiah NK
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Saunders LJ
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Manalastas PI
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Saunders LJ
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70504 Discriminant Function of Optical Coherence Tomography Angiography to Determine Disease Severity in Glaucoma
Sinha Roy A
Investigative Ophthalmology and Visual Science 2016; 57: 6079-6088 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Webers CA
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Carroll J
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70086 Differences in Ocular Blood Flow Between People of African and European Descent With Healthy Eyes
Racette L
Journal of Glaucoma 2016; 25: 709-715 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Eckert G
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Rao DA
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Yousefi S
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Medeiros FA
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70407 Deep Retinal Layer Microvasculature Dropout Detected by the Optical Coherence Tomography Angiography in Glaucoma
Weinreb RN
Ophthalmology 2016; 123: 2509-2518 (IGR: 18-2)

70643 Diagnostic ability of peripapillary vessel density measurements of optical coherence tomography angiography in primary open-angle and angle-closure glaucoma
Shetty R
British Journal of Ophthalmology 2017; 101: 1066-1070 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Rosen RB
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

70087 Reductions in Retrobulbar and Retinal Capillary Blood Flow Strongly Correlate With Changes in Optic Nerve Head and Retinal Morphology Over 4 Years in Open-angle Glaucoma Patients of African Descent Compared With Patients of European Descent
Moore NA
Journal of Glaucoma 2016; 25: 750-757 (IGR: 18-2)

70143 Regional Comparisons of Optical Coherence Tomography Angiography Vessel Density in Primary Open-Angle Glaucoma
Webers CA
American Journal of Ophthalmology 2016; 171: 75-83 (IGR: 18-2)

70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Weinreb RN
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)

70349 Relationship between Optical Coherence Tomography Angiography Vessel Density and Severity of Visual Field Loss in Glaucoma
Weinreb RN
Ophthalmology 2016; 123: 2498-2508 (IGR: 18-2)

70873 Visualization of Radial Peripapillary Capillaries Using Optical Coherence Tomography Angiography: The Effect of Image Averaging
Chui TY
PLoS ONE 2017; 12: e0169385 (IGR: 18-2)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Bojikian KD
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Shiga Y
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Shimazaki T
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Kanadani FN
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69077 Retinal vessel diameter in bilateral glaucoma suspects: comparison between the eye converted to glaucoma and the contralateral non-converted eye
Yoo E
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1599-1608 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Akagi T
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Moore NA
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69187 InÂ vivo oximetry of human bulbar conjunctival and episcleral microvasculature using snapshot multispectral imaging
MacKenzie LE
Experimental Eye Research 2016; 149: 48-58 (IGR: 18-1)

69213 Value of Structural and Hemodynamic Parameters for the Early Detection of Primary Open-Angle Glaucoma
Kurysheva NI
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69267 Microcirculation of optic nerve head and glaucoma
Zhang SH
Chinese Journal of Ophthalmology 2016; 52: 466-470 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Yarmohammadi A
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69329 Retinal venous pulsation: Expanding our understanding and use of this enigmatic phenomenon
Morgan WH
Progress in Retinal and Eye Research 2016; 55: 82-107 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Tham YC
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Chen CL
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Mammo Z
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Cheng CS
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

69472 Macular microvasculature alterations in patients with primary open-angle glaucoma: A cross-sectional study
Xu H
Medicine 2016; 95: e4341 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Chen CL
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Kunikata H
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Hirooka K
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Moreira T
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69077 Retinal vessel diameter in bilateral glaucoma suspects: comparison between the eye converted to glaucoma and the contralateral non-converted eye
Yoo C
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1599-1608 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Iida Y
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Harris A
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Park HY
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69187 InÂ vivo oximetry of human bulbar conjunctival and episcleral microvasculature using snapshot multispectral imaging
Choudhary TR
Experimental Eye Research 2016; 149: 48-58 (IGR: 18-1)

69213 Value of Structural and Hemodynamic Parameters for the Early Detection of Primary Open-Angle Glaucoma
Parshunina OA
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69267 Microcirculation of optic nerve head and glaucoma
Zhao JL
Chinese Journal of Ophthalmology 2016; 52: 466-470 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Zangwill LM
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69329 Retinal venous pulsation: Expanding our understanding and use of this enigmatic phenomenon
Hazelton ML
Progress in Retinal and Eye Research 2016; 55: 82-107 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Siantar RG
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Zhang A
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Heisler M
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Lee YF
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

69472 Macular microvasculature alterations in patients with primary open-angle glaucoma: A cross-sectional study
Yu J
Medicine 2016; 95: e4341 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Wen JC
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Aizawa N
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Nakano Y
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Bezerra B
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69077 Retinal vessel diameter in bilateral glaucoma suspects: comparison between the eye converted to glaucoma and the contralateral non-converted eye
Lee TE
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1599-1608 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Nakanishi H
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Wentz S
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Park CK
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69187 InÂ vivo oximetry of human bulbar conjunctival and episcleral microvasculature using snapshot multispectral imaging
McNaught AI
Experimental Eye Research 2016; 149: 48-58 (IGR: 18-1)

69213 Value of Structural and Hemodynamic Parameters for the Early Detection of Primary Open-Angle Glaucoma
Shatalova EO
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69267 Microcirculation of optic nerve head and glaucoma
Wu C
Chinese Journal of Ophthalmology 2016; 52: 466-470 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Diniz-Filho A
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69329 Retinal venous pulsation: Expanding our understanding and use of this enigmatic phenomenon
Yu DY
Progress in Retinal and Eye Research 2016; 55: 82-107 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Cheung CY
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Bojikian KD
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Balaratnasingam C
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Riva I
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Ong C
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

69472 Macular microvasculature alterations in patients with primary open-angle glaucoma: A cross-sectional study
Kong X
Medicine 2016; 95: e4341 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Zhang Q
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Kiyota N
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Nitta E
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Vianello MP
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69077 Retinal vessel diameter in bilateral glaucoma suspects: comparison between the eye converted to glaucoma and the contralateral non-converted eye
Kim YY
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1599-1608 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Terada N
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Verticchio Vercellin AC
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69187 InÂ vivo oximetry of human bulbar conjunctival and episcleral microvasculature using snapshot multispectral imaging
Harvey AR
Experimental Eye Research 2016; 149: 48-58 (IGR: 18-1)

69213 Value of Structural and Hemodynamic Parameters for the Early Detection of Primary Open-Angle Glaucoma
Kiseleva TN
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Suh MH
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Tan SP
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Wen JC
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Lee S
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Yap ZL
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

69472 Macular microvasculature alterations in patients with primary open-angle glaucoma: A cross-sectional study
Sun X
Medicine 2016; 95: e4341 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Xin C
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Maiya Y
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Ukegawa K
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Corradi J
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Morooka S
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Parekh P
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69213 Value of Structural and Hemodynamic Parameters for the Early Detection of Primary Open-Angle Glaucoma
Lagutin MB
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Manalastas PI
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Koh VT
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Zhang Q
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Yu DY
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Oddone F
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Tsai A
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

69472 Macular microvasculature alterations in patients with primary open-angle glaucoma: A cross-sectional study
Jiang C
Medicine 2016; 95: e4341 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Gupta D
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Yokoyama Y
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Sato S
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Dorairaj SK
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Yamada H
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Gross J
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69213 Value of Structural and Hemodynamic Parameters for the Early Detection of Primary Open-Angle Glaucoma
Fomin AV
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Fatehee N
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Aung T
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Xin C
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Mackenzie P
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Mohla A
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Mudumbai RC
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Omodaka K
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69028 Relationship between oxygen saturation of the retinal vessels and visual field defect in glaucoma patients: comparison with each hemifield
Tsujikawa A
Acta Ophthalmologica 2016; 94: e683-e687 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Prata TS
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Hasegawa T
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Hussain RM
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Yousefi S
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Wong TY
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Mudumbai RC
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Schendel S
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Nongpiur ME
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Johnstone MA
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Takahashi H
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Yokota S
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Thieme C
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Belghith A
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69339 Inter-Relationships Between Retinal Vascular Caliber, Retinal Nerve Fiber Layer Thickness, and Glaucoma: A Mediation Analysis Approach
Cheng CY
Investigative Ophthalmology and Visual Science 2016; 57: 3803-3809 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Johnstone MA
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Merkur A
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Aung T
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Wang RK
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Yasui T
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Yoshikawa M
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4â€…years
Siesky B
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Saunders LJ
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Chen PP
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Kirker A
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69446 Inter-eye comparison of retinal oximetry and vessel caliber between eyes with asymmetrical glaucoma severity in different glaucoma subtypes
Perera SA
Clinical Ophthalmology 2016; 10: 1315-1321 (IGR: 18-1)

68908 Optic Disc Perfusion in Primary Open Angle and Normal Tension Glaucoma Eyes Using Optical Coherence Tomography-Based Microangiography
Chen PP
PLoS ONE 2016; 11: e0154691 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Kato K
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69151 Microvascular Density in Glaucomatous Eyes With Hemifield Visual Field Defects: An Optical Coherence Tomography Angiography Study
Yoshimura N
American Journal of Ophthalmology 2016; 168: 237-249 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Medeiros FA
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69369 Peripapillary Retinal Nerve Fiber Layer Vascular Microcirculation in Glaucoma Using Optical Coherence Tomography-Based Microangiography
Wang RK
Investigative Ophthalmology and Visual Science 2016; 57: OCT475-85 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Albiani D
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Iwase A
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Huang D
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Navajas E
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Nakazawa T
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)

69318 Optical Coherence Tomography Angiography Vessel Density in Healthy, Glaucoma Suspect, and Glaucoma Eyes
Weinreb RN
Investigative Ophthalmology and Visual Science 2016; 57: OCT451-9 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Beg MF
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Morgan W
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

69413 Quantitative Optical Coherence Tomography Angiography of Radial Peripapillary Capillaries in Glaucoma, Glaucoma Suspect, and Normal Eyes
Sarunic MV
American Journal of Ophthalmology 2016; 170: 41-49 (IGR: 18-1)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Vercellin Alice C V
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Lévêque PM
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)

66696 Association Between Peripheral Vascular Endothelial Function and Progression of Open-Angle Glaucoma
Liu CH
Medicine 2016; 95: e3055 (IGR: 17-4)

66701 Ocular blood flow and cerebrospinal fluid pressure in glaucoma
Promelle V
Acta radiologica open 2016; 5: 2058460115624275 (IGR: 17-4)

66715 Effects of Dorzolamide on Retinal and Choroidal Blood Flow in the DBA/2J Mouse Model of Glaucoma
Chandra S
Investigative Ophthalmology and Visual Science 2016; 57: 826-831 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Pekel G
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Abegão Pinto L
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Lam J
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

66876 Vascular and autonomic dysregulation in primary open-angle glaucoma
Pasquale LR
Current Opinions in Ophthalmology 2016; 27: 94-101 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Chen CL
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67218 The prognostic value of retinal vessel analysis in primary open-angle glaucoma
Waldmann NP
Acta Ophthalmologica 2016; 94: e474-e480 (IGR: 17-4)

67231 Phase and amplitude of spontaneous retinal vein pulsations: An extended constant inflow and variable outflow model
Levine DN
Microvascular Research 2016; 106: 67-79 (IGR: 17-4)

67473 Value of Pressure Measurements: Methods and Sources of Errors
Rüfer F
Klinische Monatsblätter für Augenheilkunde 2016; 233: 847-855 (IGR: 17-4)

67475 Glaucoma diagnostic capacity of optic nerve head haemoglobin measures compared with spectral domain OCT and HRT III confocal tomography
Mendez-Hernandez C
Acta Ophthalmologica 2016; 94: 697-704 (IGR: 17-4)

67479 The Effects of Nocturnal Dip and Blood Pressure Variability on Paracentral Scotoma in Early Open-Angle Glaucoma
Jin SW
Seminars in Ophthalmology 2016; 0: 1-7 (IGR: 17-4)

67519 Increased erythrocyte aggregation in patients with primary open angle glaucoma
Kilic-Toprak E
Clinical and Experimental Optometry 2016; 99: 544-549 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Samsudin A
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Desjardins M
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67614 Arteriolar Diameters in Glaucomatous Eyes with Single-Hemifield Damage
Russo A
Optometry and Vision Science 2016; 93: 504-509 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Cutolo CA
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Zéboulon P
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)

66696 Association Between Peripheral Vascular Endothelial Function and Progression of Open-Angle Glaucoma
Su WW
Medicine 2016; 95: e3055 (IGR: 17-4)

66701 Ocular blood flow and cerebrospinal fluid pressure in glaucoma
Daouk J
Acta radiologica open 2016; 5: 2058460115624275 (IGR: 17-4)

66715 Effects of Dorzolamide on Retinal and Choroidal Blood Flow in the DBA/2J Mouse Model of Glaucoma
Muir ER
Investigative Ophthalmology and Visual Science 2016; 57: 826-831 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Acer S
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Willekens K
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Chan G
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Bojikian KD
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67218 The prognostic value of retinal vessel analysis in primary open-angle glaucoma
Kochkorov A
Acta Ophthalmologica 2016; 94: e474-e480 (IGR: 17-4)

67231 Phase and amplitude of spontaneous retinal vein pulsations: An extended constant inflow and variable outflow model
Bebie H
Microvascular Research 2016; 106: 67-79 (IGR: 17-4)

67475 Glaucoma diagnostic capacity of optic nerve head haemoglobin measures compared with spectral domain OCT and HRT III confocal tomography
Rodriguez-Uña I
Acta Ophthalmologica 2016; 94: 697-704 (IGR: 17-4)

67479 The Effects of Nocturnal Dip and Blood Pressure Variability on Paracentral Scotoma in Early Open-Angle Glaucoma
Seo HR
Seminars in Ophthalmology 2016; 0: 1-7 (IGR: 17-4)

67519 Increased erythrocyte aggregation in patients with primary open angle glaucoma
Toprak I
Clinical and Experimental Optometry 2016; 99: 544-549 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Isaacs N
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Sylvestre JP
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67614 Arteriolar Diameters in Glaucomatous Eyes with Single-Hemifield Damage
Costagliola C
Optometry and Vision Science 2016; 93: 504-509 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Dellafiore C
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Brasnu E
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)

66696 Association Between Peripheral Vascular Endothelial Function and Progression of Open-Angle Glaucoma
Shie SS
Medicine 2016; 95: e3055 (IGR: 17-4)

66701 Ocular blood flow and cerebrospinal fluid pressure in glaucoma
Bouzerar R
Acta radiologica open 2016; 5: 2058460115624275 (IGR: 17-4)

66715 Effects of Dorzolamide on Retinal and Choroidal Blood Flow in the DBA/2J Mouse Model of Glaucoma
Deo K
Investigative Ophthalmology and Visual Science 2016; 57: 826-831 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Yağci R
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Van Keer K
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Morgan WH
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Gupta D
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67218 The prognostic value of retinal vessel analysis in primary open-angle glaucoma
Polunina A
Acta Ophthalmologica 2016; 94: e474-e480 (IGR: 17-4)

67475 Glaucoma diagnostic capacity of optic nerve head haemoglobin measures compared with spectral domain OCT and HRT III confocal tomography
Gonzalez-de-la Rosa M
Acta Ophthalmologica 2016; 94: 697-704 (IGR: 17-4)

67479 The Effects of Nocturnal Dip and Blood Pressure Variability on Paracentral Scotoma in Early Open-Angle Glaucoma
Rho SS
Seminars in Ophthalmology 2016; 0: 1-7 (IGR: 17-4)

67519 Increased erythrocyte aggregation in patients with primary open angle glaucoma
Kilic-Erkek O
Clinical and Experimental Optometry 2016; 99: 544-549 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Tai ML
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Jafari R
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67614 Arteriolar Diameters in Glaucomatous Eyes with Single-Hemifield Damage
Rizzoni D
Optometry and Vision Science 2016; 93: 504-509 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Lava M
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Baudouin C
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)

66696 Association Between Peripheral Vascular Endothelial Function and Progression of Open-Angle Glaucoma
Cheng ST
Medicine 2016; 95: e3055 (IGR: 17-4)

66701 Ocular blood flow and cerebrospinal fluid pressure in glaucoma
Jany B
Acta radiologica open 2016; 5: 2058460115624275 (IGR: 17-4)

66715 Effects of Dorzolamide on Retinal and Choroidal Blood Flow in the DBA/2J Mouse Model of Glaucoma
Kiel JW
Investigative Ophthalmology and Visual Science 2016; 57: 826-831 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Özdemir S
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Shibesh A
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Hazelton M
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Wen JC
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67218 The prognostic value of retinal vessel analysis in primary open-angle glaucoma
Orgül S
Acta Ophthalmologica 2016; 94: e474-e480 (IGR: 17-4)

67475 Glaucoma diagnostic capacity of optic nerve head haemoglobin measures compared with spectral domain OCT and HRT III confocal tomography
Arribas-Pardo P
Acta Ophthalmologica 2016; 94: 697-704 (IGR: 17-4)

67479 The Effects of Nocturnal Dip and Blood Pressure Variability on Paracentral Scotoma in Early Open-Angle Glaucoma
Rho SH
Seminars in Ophthalmology 2016; 0: 1-7 (IGR: 17-4)

67519 Increased erythrocyte aggregation in patients with primary open angle glaucoma
Kucukatay V
Clinical and Experimental Optometry 2016; 99: 544-549 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Ramli N
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Kulasekara S
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67614 Arteriolar Diameters in Glaucomatous Eyes with Single-Hemifield Damage
Ghilardi N
Optometry and Vision Science 2016; 93: 504-509 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Tinelli C
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Labbé A
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)

66696 Association Between Peripheral Vascular Endothelial Function and Progression of Open-Angle Glaucoma
Su CW
Medicine 2016; 95: e3055 (IGR: 17-4)

66701 Ocular blood flow and cerebrospinal fluid pressure in glaucoma
Milazzo S
Acta radiologica open 2016; 5: 2058460115624275 (IGR: 17-4)

66715 Effects of Dorzolamide on Retinal and Choroidal Blood Flow in the DBA/2J Mouse Model of Glaucoma
Duong TQ
Investigative Ophthalmology and Visual Science 2016; 57: 826-831 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Kaya H
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Molenberghs G
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Betz-Stablein B
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Zhang Q
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67218 The prognostic value of retinal vessel analysis in primary open-angle glaucoma
Gugleta K
Acta Ophthalmologica 2016; 94: e474-e480 (IGR: 17-4)

67475 Glaucoma diagnostic capacity of optic nerve head haemoglobin measures compared with spectral domain OCT and HRT III confocal tomography
Garcia-Feijoo J
Acta Ophthalmologica 2016; 94: 697-704 (IGR: 17-4)

67519 Increased erythrocyte aggregation in patients with primary open angle glaucoma
Bor-Kucukatay M
Clinical and Experimental Optometry 2016; 99: 544-549 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Mimiwati Z
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Rose K
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67614 Arteriolar Diameters in Glaucomatous Eyes with Single-Hemifield Damage
Turano R
Optometry and Vision Science 2016; 93: 504-509 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
De Silvestri A
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66696 Association Between Peripheral Vascular Endothelial Function and Progression of Open-Angle Glaucoma
Ho WJ
Medicine 2016; 95: e3055 (IGR: 17-4)

66701 Ocular blood flow and cerebrospinal fluid pressure in glaucoma
Balédent O
Acta radiologica open 2016; 5: 2058460115624275 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Hiraali MC
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Vandewalle E
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Cringle SJ
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Xin C
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67557 Ocular perfusion pressure and ophthalmic artery flow in patients with normal tension glaucoma
Choo MM
BMC Ophthalmology 2016; 16: 39 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Trussart R
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67614 Arteriolar Diameters in Glaucomatous Eyes with Single-Hemifield Damage
Semeraro F
Optometry and Vision Science 2016; 93: 504-509 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Calliada F
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

66732 Relationship Between Subfoveal Choroidal Thickness, Ocular Pulse Amplitude, and Intraocular Pressure in Healthy Subjects
Çetin EN
Journal of Glaucoma 2016; 25: 613-617 (IGR: 17-4)

66763 Ocular blood flow in glaucoma - the Leuven Eye Study
Stalmans I
Acta Ophthalmologica 2016; 94: 592-598 (IGR: 17-4)

66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Yu DY
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Kono R
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Arbour JD
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

66622 Inter-device reproducibility of retrobulbar blood flow velocity measurements in healthy subjects using color Doppler imaging
Milano G
Journal of ultrasound 2016; 19: 125-130 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Mudumbai RC
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Hudson C
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Johnstone MA
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

67581 Preliminary investigation of multispectral retinal tissue oximetry mapping using a hyperspectral retinal camera
Lesage F
Experimental Eye Research 2016; 146: 330-340 (IGR: 17-4)

67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Chen PP; Wang RK
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)

65798 Migraine and Vasospasm in Glaucoma: Age-Related Evaluation of 2027 Patients With Glaucoma or Ocular Hypertension
Gramer G
Investigative Ophthalmology and Visual Science 2015; 56: 7999-8007 (IGR: 17-3)

65821 Diagnostic Ability of Retinal Vessel Diameter Measurements in Open-Angle Glaucoma
Yoo E
Investigative Ophthalmology and Visual Science 2015; 56: 7915-7922 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Willekens K
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

65898 Vascular factors in glaucoma
Mottet B
Journal Français d'Ophtalmologie 2015; 38: 983-995 (IGR: 17-3)

66213 Ocular Blood Flow and Influencing Factors for Glaucoma
Nakazawa T
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 38-44 (IGR: 17-3)

66230 Effects of dorzolamide/timolol fixed combination on retrobulbar hemodynamics in pseudoexfoliative glaucoma
Eliacik M
The Kaohsiung Journal of Medical Sciences 2016; 32: 38-43 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
Morgan WH
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Stockslager MA
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66318 Vessel density calculated from OCT angiography in 3 peripapillary sectors in normal, ocular hypertensive, and glaucoma eyes
Holló G
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-3)

66494 Effects of prostaglandin analogs on blood flow velocity and resistance in the ophthalmic artery of rabbits
Giannico AT
Arquivos Brasileiros de Oftalmologia 2016; 79: 33-36 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Dong Y
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

65798 Migraine and Vasospasm in Glaucoma: Age-Related Evaluation of 2027 Patients With Glaucoma or Ocular Hypertension
Weber BH
Investigative Ophthalmology and Visual Science 2015; 56: 7999-8007 (IGR: 17-3)

65821 Diagnostic Ability of Retinal Vessel Diameter Measurements in Open-Angle Glaucoma
Yoo C
Investigative Ophthalmology and Visual Science 2015; 56: 7915-7922 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Rocha R
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

65898 Vascular factors in glaucoma
Aptel F
Journal Français d'Ophtalmologie 2015; 38: 983-995 (IGR: 17-3)

66230 Effects of dorzolamide/timolol fixed combination on retrobulbar hemodynamics in pseudoexfoliative glaucoma
Karaman Erdur S
The Kaohsiung Journal of Medical Sciences 2016; 32: 38-43 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
House PH
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Samuels BC
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66494 Effects of prostaglandin analogs on blood flow velocity and resistance in the ophthalmic artery of rabbits
Lima L
Arquivos Brasileiros de Oftalmologia 2016; 79: 33-36 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Sawada Y
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

65798 Migraine and Vasospasm in Glaucoma: Age-Related Evaluation of 2027 Patients With Glaucoma or Ocular Hypertension
Gramer E
Investigative Ophthalmology and Visual Science 2015; 56: 7999-8007 (IGR: 17-3)

65821 Diagnostic Ability of Retinal Vessel Diameter Measurements in Open-Angle Glaucoma
Lee BR
Investigative Ophthalmology and Visual Science 2015; 56: 7915-7922 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Van Keer K
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

65898 Vascular factors in glaucoma
Geiser M
Journal Français d'Ophtalmologie 2015; 38: 983-995 (IGR: 17-3)

66230 Effects of dorzolamide/timolol fixed combination on retrobulbar hemodynamics in pseudoexfoliative glaucoma
Baltepe Altıok I
The Kaohsiung Journal of Medical Sciences 2016; 32: 38-43 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
Hazelton ML
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Allingham RR
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66494 Effects of prostaglandin analogs on blood flow velocity and resistance in the ophthalmic artery of rabbits
Shaw GC
Arquivos Brasileiros de Oftalmologia 2016; 79: 33-36 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Cui J
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

65821 Diagnostic Ability of Retinal Vessel Diameter Measurements in Open-Angle Glaucoma
Lee TE
Investigative Ophthalmology and Visual Science 2015; 56: 7915-7922 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Vandewalle E
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

65898 Vascular factors in glaucoma
Romanet JP
Journal Français d'Ophtalmologie 2015; 38: 983-995 (IGR: 17-3)

66230 Effects of dorzolamide/timolol fixed combination on retrobulbar hemodynamics in pseudoexfoliative glaucoma
Gulkilik G
The Kaohsiung Journal of Medical Sciences 2016; 32: 38-43 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
Betz-Stablein BD
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Klesmith ZA
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66494 Effects of prostaglandin analogs on blood flow velocity and resistance in the ophthalmic artery of rabbits
Russ HH
Arquivos Brasileiros de Oftalmologia 2016; 79: 33-36 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Hayakawa M
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

65821 Diagnostic Ability of Retinal Vessel Diameter Measurements in Open-Angle Glaucoma
Kim YY
Investigative Ophthalmology and Visual Science 2015; 56: 7915-7922 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Abegão Pinto L
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

65898 Vascular factors in glaucoma
Chiquet C
Journal Français d'Ophtalmologie 2015; 38: 983-995 (IGR: 17-3)

66230 Effects of dorzolamide/timolol fixed combination on retrobulbar hemodynamics in pseudoexfoliative glaucoma
Aslan CA
The Kaohsiung Journal of Medical Sciences 2016; 32: 38-43 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
Chauhan BC
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Schwaner SA
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66494 Effects of prostaglandin analogs on blood flow velocity and resistance in the ophthalmic artery of rabbits
Froes TR
Arquivos Brasileiros de Oftalmologia 2016; 79: 33-36 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Ogino D
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Stalmans I
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

66230 Effects of dorzolamide/timolol fixed combination on retrobulbar hemodynamics in pseudoexfoliative glaucoma
Kaya F
The Kaohsiung Journal of Medical Sciences 2016; 32: 38-43 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
Viswanathan A
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Forest CR
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66494 Effects of prostaglandin analogs on blood flow velocity and resistance in the ophthalmic artery of rabbits
Montiani-Ferreira F
Arquivos Brasileiros de Oftalmologia 2016; 79: 33-36 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Ishikawa M
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

65839 Review on Dynamic Contour Tonometry and Ocular Pulse Amplitude
Marques-Neves C
Ophthalmic Research 2015; 55: 91-98 (IGR: 17-3)

66237 Intraocular Pressure Reduction Is Associated with Reduced Venous Pulsation Pressure
Yu DY
PLoS ONE 2016; 11: e0147915 (IGR: 17-3)

66262 System for Rapid, Precise Modulation of Intraocular Pressure, toward Minimally-Invasive In Vivo Measurement of Intracranial Pressure
Ethier CR
PLoS ONE 2016; 11: e0147020 (IGR: 17-3)

66579 Dorzolamide-induced relaxation of isolated rabbit ciliary arteries mediated by inhibition of extracellular calcium influx
Yoshitomi T
Japanese Journal of Ophthalmology 2016; 60: 103-110 (IGR: 17-3)

61015 Correlation Between Peripapillary Choroidal Thickness and Retinal Vessel Oxygen Saturation in Young Healthy Individuals and Glaucoma Patients
Van Keer K
Investigative Ophthalmology and Visual Science 2015; 56: 3758-3762 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Tan O
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Gangwani RA
Medicine 2015; 94: e947 (IGR: 17-1)

61115 In vivo volumetric depth-resolved vasculature imaging of human limbus and sclera with 1μm swept source phase-variance optical coherence angiography
Poddar R
Journal of optics (2010) 2015; 17: (IGR: 17-1)

61417 Relationship Between Daytime Variability of Blood Pressure or Ocular Perfusion Pressure and Glaucomatous Visual Field Progression
Lee J
American Journal of Ophthalmology 2015; 160: 522-537.e1 (IGR: 17-1)

61426 Correlation of retinal nerve fibre layer thickness and spontaneous retinal venous pulsations in glaucoma and normal controls
Golzan SM
PLoS ONE 2015; 10: e0128433 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Liu L
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61723 Central retinal artery resistive index and optical coherence tomography in assessment of glaucoma progression
Ghany AF
International Journal of Ophthalmology 2015; 8: 305-309 (IGR: 17-1)

61724 Comparison of Goldmann applanation tonometry, rebound tonometry and dynamic contour tonometry in normal and glaucomatous eyes
Özcura F
International Journal of Ophthalmology 2015; 8: 299-304 (IGR: 17-1)

61731 Non-continuous measurement of intraocular pressure in laboratory animals
Millar JC
Experimental Eye Research 2015; 141: 74-90 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Gao J
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Pillunat KR
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61807 Dependence of diameters and oxygen saturation of retinal vessels on visual field damage and age in primary open-angle glaucoma
Ramm L
Acta Ophthalmologica 2016; 94: 276-281 (IGR: 17-1)

61818 The effect of nifedipine on retinal venous pressure of glaucoma patients with the Flammer-Syndrome
Fang L
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 935-939 (IGR: 17-1)

61015 Correlation Between Peripapillary Choroidal Thickness and Retinal Vessel Oxygen Saturation in Young Healthy Individuals and Glaucoma Patients
Abegão Pinto L
Investigative Ophthalmology and Visual Science 2015; 56: 3758-3762 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Liu G
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Lee JW
Medicine 2015; 94: e947 (IGR: 17-1)

61115 In vivo volumetric depth-resolved vasculature imaging of human limbus and sclera with 1μm swept source phase-variance optical coherence angiography
Zawadzki RJ
Journal of optics (2010) 2015; 17: (IGR: 17-1)

61417 Relationship Between Daytime Variability of Blood Pressure or Ocular Perfusion Pressure and Glaucomatous Visual Field Progression
Choi J
American Journal of Ophthalmology 2015; 160: 522-537.e1 (IGR: 17-1)

61426 Correlation of retinal nerve fibre layer thickness and spontaneous retinal venous pulsations in glaucoma and normal controls
Morgan WH
PLoS ONE 2015; 10: e0128433 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Jia Y
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61723 Central retinal artery resistive index and optical coherence tomography in assessment of glaucoma progression
Botros SM
International Journal of Ophthalmology 2015; 8: 305-309 (IGR: 17-1)

61724 Comparison of Goldmann applanation tonometry, rebound tonometry and dynamic contour tonometry in normal and glaucomatous eyes
Yildirim N
International Journal of Ophthalmology 2015; 8: 299-304 (IGR: 17-1)

61731 Non-continuous measurement of intraocular pressure in laboratory animals
Pang IH
Experimental Eye Research 2015; 141: 74-90 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Liang Y
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Spoerl E
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61807 Dependence of diameters and oxygen saturation of retinal vessels on visual field damage and age in primary open-angle glaucoma
Jentsch S
Acta Ophthalmologica 2016; 94: 276-281 (IGR: 17-1)

61818 The effect of nifedipine on retinal venous pressure of glaucoma patients with the Flammer-Syndrome
Turtschi S
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 935-939 (IGR: 17-1)

61015 Correlation Between Peripapillary Choroidal Thickness and Retinal Vessel Oxygen Saturation in Young Healthy Individuals and Glaucoma Patients
Willekens K
Investigative Ophthalmology and Visual Science 2015; 56: 3758-3762 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Liang L
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Mo HY
Medicine 2015; 94: e947 (IGR: 17-1)

61115 In vivo volumetric depth-resolved vasculature imaging of human limbus and sclera with 1μm swept source phase-variance optical coherence angiography
Cortés DE
Journal of optics (2010) 2015; 17: (IGR: 17-1)

61417 Relationship Between Daytime Variability of Blood Pressure or Ocular Perfusion Pressure and Glaucomatous Visual Field Progression
Jeong D
American Journal of Ophthalmology 2015; 160: 522-537.e1 (IGR: 17-1)

61426 Correlation of retinal nerve fibre layer thickness and spontaneous retinal venous pulsations in glaucoma and normal controls
Georgevsky D
PLoS ONE 2015; 10: e0128433 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Takusagawa HL
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61723 Central retinal artery resistive index and optical coherence tomography in assessment of glaucoma progression
El-Raggal TM
International Journal of Ophthalmology 2015; 8: 305-309 (IGR: 17-1)

61724 Comparison of Goldmann applanation tonometry, rebound tonometry and dynamic contour tonometry in normal and glaucomatous eyes
Şahin A
International Journal of Ophthalmology 2015; 8: 299-304 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Wang F
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Jasper C
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61807 Dependence of diameters and oxygen saturation of retinal vessels on visual field damage and age in primary open-angle glaucoma
Peters S
Acta Ophthalmologica 2016; 94: 276-281 (IGR: 17-1)

61818 The effect of nifedipine on retinal venous pressure of glaucoma patients with the Flammer-Syndrome
Mozaffarieh M
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 935-939 (IGR: 17-1)

61015 Correlation Between Peripapillary Choroidal Thickness and Retinal Vessel Oxygen Saturation in Young Healthy Individuals and Glaucoma Patients
Stalmans I
Investigative Ophthalmology and Visual Science 2015; 56: 3758-3762 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Gao SS
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Sum R
Medicine 2015; 94: e947 (IGR: 17-1)

61115 In vivo volumetric depth-resolved vasculature imaging of human limbus and sclera with 1μm swept source phase-variance optical coherence angiography
Mannis MJ
Journal of optics (2010) 2015; 17: (IGR: 17-1)

61417 Relationship Between Daytime Variability of Blood Pressure or Ocular Perfusion Pressure and Glaucomatous Visual Field Progression
Kim S
American Journal of Ophthalmology 2015; 160: 522-537.e1 (IGR: 17-1)

61426 Correlation of retinal nerve fibre layer thickness and spontaneous retinal venous pulsations in glaucoma and normal controls
Graham SL
PLoS ONE 2015; 10: e0128433 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Pechauer AD
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61724 Comparison of Goldmann applanation tonometry, rebound tonometry and dynamic contour tonometry in normal and glaucomatous eyes
Çolak E
International Journal of Ophthalmology 2015; 8: 299-304 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Shen R
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Furashova O
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61807 Dependence of diameters and oxygen saturation of retinal vessels on visual field damage and age in primary open-angle glaucoma
Sauer L
Acta Ophthalmologica 2016; 94: 276-281 (IGR: 17-1)

61015 Correlation Between Peripapillary Choroidal Thickness and Retinal Vessel Oxygen Saturation in Young Healthy Individuals and Glaucoma Patients
Vandewalle E
Investigative Ophthalmology and Visual Science 2015; 56: 3758-3762 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Pechauer AD
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Kwong AS
Medicine 2015; 94: e947 (IGR: 17-1)

61115 In vivo volumetric depth-resolved vasculature imaging of human limbus and sclera with 1μm swept source phase-variance optical coherence angiography
Werner JS
Journal of optics (2010) 2015; 17: (IGR: 17-1)

61417 Relationship Between Daytime Variability of Blood Pressure or Ocular Perfusion Pressure and Glaucomatous Visual Field Progression
Kook MS
American Journal of Ophthalmology 2015; 160: 522-537.e1 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Edmunds B
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Wong T
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Hermann C
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61807 Dependence of diameters and oxygen saturation of retinal vessels on visual field damage and age in primary open-angle glaucoma
Augsten R
Acta Ophthalmologica 2016; 94: 276-281 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Jia Y
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Wang JH
Medicine 2015; 94: e947 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Lombardi L
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Peng Y
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Borrmann A
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61807 Dependence of diameters and oxygen saturation of retinal vessels on visual field damage and age in primary open-angle glaucoma
Hammer M
Acta Ophthalmologica 2016; 94: 276-281 (IGR: 17-1)

61022 En face Doppler total retinal blood flow measurement with 70 kHz spectral optical coherence tomography
Huang D
Journal of biomedical Optics 2015; 20: 066004 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Tsui WW
Medicine 2015; 94: e947 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Davis E
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Friedman DS
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Passauer J
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Chan JC
Medicine 2015; 94: e947 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Morrison JC
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61735 Retinal vessels change in primary angle-closure glaucoma: the Handan Eye Study
Wang N
Scientific reports 2015; 5: 9585 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Middeke M
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61023 The Correlation of Retinal Nerve Fiber Layer Thickness With Blood Pressure in a Chinese Hypertensive Population
Lai JS
Medicine 2015; 94: e947 (IGR: 17-1)

61541 Optical Coherence Tomography Angiography of the Peripapillary Retina in Glaucoma
Huang D
JAMA ophthalmology 2015; 133: 1045-1052 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Pillunat LE
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

60019 Dynamic, in vivo, real-time detection of retinal oxidative status in a model of elevated intraocular pressure using a novel, reversibly responsive, profluorescent nitroxide probe
Rayner CL
Experimental Eye Research 2014; 129: 48-56 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Tobe LA
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Arai N
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
A Bouhenni R
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Wierzbowska J
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60114 Choroid thickness and ocular pulse amplitude in migraine during attack
Dervisogullari MS
Eye 2015; 29: 371-375 (IGR: 16-4)

60124 Reduction of intraocular pressure and ocular pulse amplitude during general anesthesia
Zuche H
Ophthalmologe 2015; 112: 764-769 (IGR: 16-4)

60149 Long term effect of trabeculectomy on retrobulbar haemodynamics in glaucoma
Kuerten D
Ophthalmic and Physiological Optics 2015; 35: 194-200 (IGR: 16-4)

60260 Central retinal vein: its pulsation and pressure in glaucoma
Stodtmeister R
Klinische Monatsblätter für Augenheilkunde 2015; 232: 147-151 (IGR: 16-4)

60270 Functional differences in the microcirculatory units of the eye
Funk RH
Klinische Monatsblätter für Augenheilkunde 2015; 232: 133-140 (IGR: 16-4)

60377 Retrobulbar hemodynamic parameters in men and women with open angle glaucoma
Marjanović I
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2014; 71: 1128-1131 (IGR: 16-4)

60397 Objective detection of retinal vessel pulsation
Morgan WH
PLoS ONE 2015; 10: e0116475 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Lee NY
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Pena-Betancor C
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60468 Quantitative study of the microvasculature and its endothelial cells in the porcine iris
Yang H
Experimental Eye Research 2015; 132: 249-258 (IGR: 16-4)

60500 Ocular perfusion pressure and its relevance for glaucoma
Schmidl D
Klinische Monatsblätter für Augenheilkunde 2015; 232: 141-146 (IGR: 16-4)

60501 Ocular blood flow regulation in glaucoma - examination with the ocular pressure flow analyzer (OPFA)
Ulrich WD
Klinische Monatsblätter für Augenheilkunde 2015; 232: 152-161 (IGR: 16-4)

60502 Role of ocular pulse amplitude in glaucoma
Stürmer JP
Klinische Monatsblätter für Augenheilkunde 2015; 232: 162-168 (IGR: 16-4)

60503 Ambulatory 24-h blood pressure measurement in patients with glaucoma
Weisser B
Klinische Monatsblätter für Augenheilkunde 2015; 232: 169-173 (IGR: 16-4)

60548 Retinal Blood Vessel Distribution Correlates With the Peripapillary Retinal Nerve Fiber Layer Thickness Profile as Measured With GDx VCC and ECC
Resch H
Journal of Glaucoma 2015; 24: 389-395 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Bowe A
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Bianchi E
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Ciancaglini M
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
De Leon JM
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60782 Nailfold capillaroscopy assessment in patients with glaucoma with a current optic disc hemorrhage
Patel HY
Canadian Journal of Ophthalmology 2015; 50: 155-158 (IGR: 16-4)

60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Park HY
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)

60019 Dynamic, in vivo, real-time detection of retinal oxidative status in a model of elevated intraocular pressure using a novel, reversibly responsive, profluorescent nitroxide probe
Gole GA
Experimental Eye Research 2014; 129: 48-56 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Harris A
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Sasahara A
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Al Jadaan I
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Wojtkiewicz S
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60114 Choroid thickness and ocular pulse amplitude in migraine during attack
Totan Y
Eye 2015; 29: 371-375 (IGR: 16-4)

60124 Reduction of intraocular pressure and ocular pulse amplitude during general anesthesia
Morinello E
Ophthalmologe 2015; 112: 764-769 (IGR: 16-4)

60149 Long term effect of trabeculectomy on retrobulbar haemodynamics in glaucoma
Fuest M
Ophthalmic and Physiological Optics 2015; 35: 194-200 (IGR: 16-4)

60377 Retrobulbar hemodynamic parameters in men and women with open angle glaucoma
Marjanović M
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2014; 71: 1128-1131 (IGR: 16-4)

60397 Objective detection of retinal vessel pulsation
Abdul-Rahman A
PLoS ONE 2015; 10: e0116475 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Park HY
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Gonzalez-Hernandez M
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60468 Quantitative study of the microvasculature and its endothelial cells in the porcine iris
Yu PK
Experimental Eye Research 2015; 132: 249-258 (IGR: 16-4)

60500 Ocular perfusion pressure and its relevance for glaucoma
Werkmeister R
Klinische Monatsblätter für Augenheilkunde 2015; 232: 141-146 (IGR: 16-4)

60501 Ocular blood flow regulation in glaucoma - examination with the ocular pressure flow analyzer (OPFA)
Moeller A
Klinische Monatsblätter für Augenheilkunde 2015; 232: 152-161 (IGR: 16-4)

60502 Role of ocular pulse amplitude in glaucoma
Kniestedt C
Klinische Monatsblätter für Augenheilkunde 2015; 232: 162-168 (IGR: 16-4)

60503 Ambulatory 24-h blood pressure measurement in patients with glaucoma
Erb C
Klinische Monatsblätter für Augenheilkunde 2015; 232: 169-173 (IGR: 16-4)

60548 Retinal Blood Vessel Distribution Correlates With the Peripapillary Retinal Nerve Fiber Layer Thickness Profile as Measured With GDx VCC and ECC
Pereira I
Journal of Glaucoma 2015; 24: 389-395 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Grünig M
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Ripandelli G
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Guerra G
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
Cheung CY
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60782 Nailfold capillaroscopy assessment in patients with glaucoma with a current optic disc hemorrhage
Buys YM
Canadian Journal of Ophthalmology 2015; 50: 155-158 (IGR: 16-4)

60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Jeong HJ
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)

60019 Dynamic, in vivo, real-time detection of retinal oxidative status in a model of elevated intraocular pressure using a novel, reversibly responsive, profluorescent nitroxide probe
Bottle SE
Experimental Eye Research 2014; 129: 48-56 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Hussain RM
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Hagiwara S
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Rassavong H
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Zbieć A
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60114 Choroid thickness and ocular pulse amplitude in migraine during attack
Gençler OS
Eye 2015; 29: 371-375 (IGR: 16-4)

60124 Reduction of intraocular pressure and ocular pulse amplitude during general anesthesia
Viestenz A
Ophthalmologe 2015; 112: 764-769 (IGR: 16-4)

60149 Long term effect of trabeculectomy on retrobulbar haemodynamics in glaucoma
Koch EC
Ophthalmic and Physiological Optics 2015; 35: 194-200 (IGR: 16-4)

60377 Retrobulbar hemodynamic parameters in men and women with open angle glaucoma
Gvozdenović R
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2014; 71: 1128-1131 (IGR: 16-4)

60397 Objective detection of retinal vessel pulsation
Yu DY
PLoS ONE 2015; 10: e0116475 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Park SH
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Fumero-Batista F
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60468 Quantitative study of the microvasculature and its endothelial cells in the porcine iris
Cringle SJ
Experimental Eye Research 2015; 132: 249-258 (IGR: 16-4)

60500 Ocular perfusion pressure and its relevance for glaucoma
Garhöfer G
Klinische Monatsblätter für Augenheilkunde 2015; 232: 141-146 (IGR: 16-4)

60501 Ocular blood flow regulation in glaucoma - examination with the ocular pressure flow analyzer (OPFA)
Ulrich C
Klinische Monatsblätter für Augenheilkunde 2015; 232: 152-161 (IGR: 16-4)

60548 Retinal Blood Vessel Distribution Correlates With the Peripapillary Retinal Nerve Fiber Layer Thickness Profile as Measured With GDx VCC and ECC
Weber S
Journal of Glaucoma 2015; 24: 389-395 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Schubert J
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Feher J
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Agnifili L
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
Wong TY
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60782 Nailfold capillaroscopy assessment in patients with glaucoma with a current optic disc hemorrhage
Trope GE
Canadian Journal of Ophthalmology 2015; 50: 155-158 (IGR: 16-4)

60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Kim YH
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)

60019 Dynamic, in vivo, real-time detection of retinal oxidative status in a model of elevated intraocular pressure using a novel, reversibly responsive, profluorescent nitroxide probe
Barnett NL
Experimental Eye Research 2014; 129: 48-56 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Eckert G
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Tani S
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Al Shahwan S
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Wierzbowski R
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60124 Reduction of intraocular pressure and ocular pulse amplitude during general anesthesia
Fiorentzis M
Ophthalmologe 2015; 112: 764-769 (IGR: 16-4)

60149 Long term effect of trabeculectomy on retrobulbar haemodynamics in glaucoma
Remky A
Ophthalmic and Physiological Optics 2015; 35: 194-200 (IGR: 16-4)

60377 Retrobulbar hemodynamic parameters in men and women with open angle glaucoma
Risović D
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2014; 71: 1128-1131 (IGR: 16-4)

60397 Objective detection of retinal vessel pulsation
Hazelton ML
PLoS ONE 2015; 10: e0116475 (IGR: 16-4)

60435 The Association of Nailfold Capillaroscopy with Systemic Matrix Metalloproteinase-9 Concentration in Normal-Tension Glaucoma
Park CK
Current Eye Research 2015; 0: 1-7 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Sigut J
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60468 Quantitative study of the microvasculature and its endothelial cells in the porcine iris
Sun X
Experimental Eye Research 2015; 132: 249-258 (IGR: 16-4)

60500 Ocular perfusion pressure and its relevance for glaucoma
Schmetterer L
Klinische Monatsblätter für Augenheilkunde 2015; 232: 141-146 (IGR: 16-4)

60501 Ocular blood flow regulation in glaucoma - examination with the ocular pressure flow analyzer (OPFA)
Siebert G
Klinische Monatsblätter für Augenheilkunde 2015; 232: 152-161 (IGR: 16-4)

60548 Retinal Blood Vessel Distribution Correlates With the Peripapillary Retinal Nerve Fiber Layer Thickness Profile as Measured With GDx VCC and ECC
Holzer S
Journal of Glaucoma 2015; 24: 389-395 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Demir M
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Plateroti AM
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Mastropasqua R
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
Li X
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Park CK
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Huck A
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Ohbuchi H
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Al Katan H
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Liebert A
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60124 Reduction of intraocular pressure and ocular pulse amplitude during general anesthesia
Seitz B
Ophthalmologe 2015; 112: 764-769 (IGR: 16-4)

60149 Long term effect of trabeculectomy on retrobulbar haemodynamics in glaucoma
Plange N
Ophthalmic and Physiological Optics 2015; 35: 194-200 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Ryu M
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60397 Objective detection of retinal vessel pulsation
Betz-Stablein B
PLoS ONE 2015; 10: e0116475 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Medina-Mesa E
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60468 Quantitative study of the microvasculature and its endothelial cells in the porcine iris
Yu DY
Experimental Eye Research 2015; 132: 249-258 (IGR: 16-4)

60501 Ocular blood flow regulation in glaucoma - examination with the ocular pressure flow analyzer (OPFA)
Wernecke KD
Klinische Monatsblätter für Augenheilkunde 2015; 232: 152-161 (IGR: 16-4)

60548 Retinal Blood Vessel Distribution Correlates With the Peripapillary Retinal Nerve Fiber Layer Thickness Profile as Measured With GDx VCC and ECC
Fischer G
Journal of Glaucoma 2015; 24: 389-395 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Hoffmann V
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Plateroti R
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Fasanella V
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
Hamzah H
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Park J
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Hirota K
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Dunmire J
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60110 Prolonged postocclusive hyperemia response in patients with normal-tension glaucoma
Maniewski R
Medical Science Monitor 2014; 20: 2607-2616 (IGR: 16-4)

60124 Reduction of intraocular pressure and ocular pulse amplitude during general anesthesia
Volk T
Ophthalmologe 2015; 112: 764-769 (IGR: 16-4)

60397 Objective detection of retinal vessel pulsation
Lind CR
PLoS ONE 2015; 10: e0116475 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Alayon S
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60501 Ocular blood flow regulation in glaucoma - examination with the ocular pressure flow analyzer (OPFA)
Erb C
Klinische Monatsblätter für Augenheilkunde 2015; 232: 152-161 (IGR: 16-4)

60548 Retinal Blood Vessel Distribution Correlates With the Peripapillary Retinal Nerve Fiber Layer Thickness Profile as Measured With GDx VCC and ECC
Vass C
Journal of Glaucoma 2015; 24: 389-395 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Kütting F
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Kovacs I
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Cinelli M
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
Aung T
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Egan P
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Koseki H
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Krasniqi M
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60447 Estimation of the relative amount of hemoglobin in the cup and neuroretinal rim using stereoscopic color fundus images
Gonzalez de la Rosa M
Investigative Ophthalmology and Visual Science 2015; 56: 1562-1568 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Pelc A
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Plateroti P
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Costagliola C
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60676 Retinal vascular caliber between eyes with asymmetric glaucoma
Su DH
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 583-589 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Kim NJ
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Kuroi Y
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60096 Lymphatic and Blood Vessel Density in Human Conjunctiva After Glaucoma Filtration Surgery
Edward DP
Journal of Glaucoma 2016; 25: e35-e38 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Yuasa T
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60633 Circadian Variation in Arterial Blood Pressure and Glaucomatous Optic Neuropathy-A Systematic Review and Meta-Analysis
Steffen HM
American journal of hypertension 2015; 28: 1077-1082 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Taurone S
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Ambrosone L
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)

60050 The role of retrobulbar and retinal circulation on optic nerve head and retinal nerve fibre layer structure in patients with open-angle glaucoma over an 18-month period
Siesky B
British Journal of Ophthalmology 2015; 99: 609-612 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Ohkuma H
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60243 Correlation of optic nerve microcirculation with papillomacular bundle structure in treatment naive normal tension glaucoma
Nakazawa T
Journal of Ophthalmology 2014; 2014: 468908 (IGR: 16-4)

60666 Occlusion of retinal capillaries caused by glial cell proliferation in chronic ocular inflammation
Artico M
Folia morphologica 2015; 74: 33-41 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Matsubara M
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Hayashi M
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

60058 Immediate improvement of ischemic oculopathy after stenting for internal carotid artery stenosis
Iwabuchi S; Kasuya H
Brain and nerve = Shinkei kenkyū no shinpo 2014; 66: 1503-1508 (IGR: 16-4)

59630 Central Corneal Thickness Correlates with Oxygen Levels in the Human Anterior Chamber Angle
Siegfried CJ; Shui YB; Bai F; Beebe DC
American Journal of Ophthalmology 2015; 159: 457-62.e1 (IGR: 16-3)

59594 Correlating cup-to-disc ratios measured by HRT-III, SD-OCT and the new color imaging Laguna ONhE procedure
Rodríguez Uña I; Méndez Hernández CD; Sáenz-Francés F; García Feijóo J
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 212-219 (IGR: 16-3)

59058 A theoretical model to allow prediction of the CSF pressure from observations of the retinal venous pulse
Stewart PS; Jensen OE; Foss AJ
Investigative Ophthalmology and Visual Science 2014; 55: 6319-6323 (IGR: 16-3)

58871 Morphological and morphometric changes in rat optic nerve microvessels in a glaucoma experimental model
Moreno M; Ríos MC; Alba C; Díaz F; Villena A; Figueroa-Ortiz LC; García-Campos J
Archivos de la Sociedad Española de Oftalmologia 2014; 89: 471-476 (IGR: 16-3)

59284 A combined method to quantify the retinal metabolic rate of oxygen using photoacoustic ophthalmoscopy and optical coherence tomography
Song W; Wei Q; Liu W; Liu T; Yi J; Sheibani N; Fawzi AA; Linsenmeier RA; Jiao S; Zhang HF
Scientific reports 2014; 4: 6525 (IGR: 16-3)

58925 Investigation of blood flow regulation and oxygen saturation of the retinal vessels in primary open-angle glaucoma
Ramm L; Jentsch S; Peters S; Augsten R; Hammer M
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1803-1810 (IGR: 16-3)

58990 A poroelastic model for the perfusion of the lamina cribrosa in the optic nerve head
Causin P; Guidoboni G; Harris A; Prada D; Sacco R; Terragni S
Mathematical biosciences 2014; 257: 33-41 (IGR: 16-3)

59409 Contact lens dynamometry influences the systemic blood circulation: clinical significance
Rüfer F; Köpke B
Klinische Monatsblätter für Augenheilkunde 2014; 231: 1120-1125 (IGR: 16-3)

59575 Reproducibility of retinal oximetry measurements in healthy and diseased retinas
Türksever C; Orgül S; Todorova MG
Acta Ophthalmologica 2015; 93: e439-e445 (IGR: 16-3)

59179 Reproducibility of retinal oxygen saturation in normal and treated glaucomatous eyes
Goharian I; Iverson SM; Ruiz RC; Kishor K; Greenfield DS; Sehi M
British Journal of Ophthalmology 2015; 99: 318-322 (IGR: 16-3)

59344 The effect of flammer-syndrome on retinal venous pressure
Fang L; Baertschi M; Mozaffarieh M
BMC Ophthalmology 2014; 14: 121 (IGR: 16-3)

58850 Can dynamic contour tonometry and ocular pulse amplitude help to detect severe cardiovascular pathologies?
Bertelmann T; Langanke S; Potstawa M; Strempel I
Clinical Ophthalmology 2014; 8: 1317-1321 (IGR: 16-3)

59348 Influence of latanoprost on retinal microcirculation in glaucoma
Kremmer S; Iliadou M; Anastassiou G; Schallenberg M; Vilser W; Steuhl KP; Selbach JM
Open Ophthalmology Journal 2014; 8: 60-66 (IGR: 16-3)

59466 Regional choroidal blood flow and multifocal electroretinography in experimental glaucoma in rhesus macaques
Nork TM; Kim CB; Munsey KM; Dashek RJ; Hoeve JN
Investigative Ophthalmology and Visual Science 2014; 55: 7786-7798 (IGR: 16-3)

58779 Vascular dysfunction in ocular blood flow regulation: impact of reactive oxygen species in an experimental setup
Wagenfeld L; Weiss S; Klemm M; Richard G; Zeitz O
Investigative Ophthalmology and Visual Science 2014; 55: 5531-5536 (IGR: 16-3)

59440 Trabeculectomy Improves Vessel Response Measured by Dynamic Vessel Analysis (DVA) in Glaucoma Patients
J MS; Schallenberg M; Kramer S; Anastassiou G; Steuhl KP; Vilser W; Kremmer S
Open Ophthalmology Journal 2014; 8: 75-81 (IGR: 16-3)

59432 Reproducibility of Optic Nerve Head Hemoglobin Measures
Mendez-Hernandez C; Garcia-Feijoo J; Arribas-Pardo P; Saenz-Frances F; Rodriguez-Uña I; Fernandez-Perez C; de la Rosa MG
Journal of Glaucoma 2016; 25: 348-354 (IGR: 16-3)

59048 Photoplethysmographic measurement of various retinal vascular pulsation parameters and measurement of the venous phase delay
Morgan WH; Hazelton ML; Betz-Stablein BD; Yu DY; Lind CR; Ravichandran V; House PH
Investigative Ophthalmology and Visual Science 2014; 55: 5998-6006 (IGR: 16-3)

59221 Segmentation of the blood vessels and optic disk in retinal images
Salazar-Gonzalez A; Kaba D; Li Y; Liu X
IEEE journal of biomedical and health informatics 2014; 18: 1874-1886 (IGR: 16-3)

59075 Effects of cigarette smoking on choroidal and retinal thickness and ocular pulse amplitude
Dervişoğulları MS; Totan Y; Tenlik A; Yuce A
Cutaneous and Ocular Toxicology 2014; 0: 1-5 (IGR: 16-3)

59310 Reliability and determinants of retinal vessel oximetry measurements in healthy eyes
Yip W; Siantar R; Perera SA; Milastuti N; Ho KK; Tan B; Wong TY; Cheung CY
Investigative Ophthalmology and Visual Science 2014; 55: 7104-7110 (IGR: 16-3)

59178 Correlation between structure/function and optic disc microcirculation in myopic glaucoma, measured with laser speckle flowgraphy
Aizawa N; Kunikata H; Shiga Y; Yokoyama Y; Omodaka K; Nakazawa T
BMC Ophthalmology 2014; 14: 113 (IGR: 16-3)

59300 A cohort study of duplex Doppler examinations of the carotid artery in primary open angle glaucoma
Marmion VJ; Aldoori MI; Woodcock JP; Stephenson J
JRSM open 2014; 5: 2054270414527933 (IGR: 16-3)

58823 Oxygen saturation measurements of the retinal vasculature in treated asymmetrical primary open-angle glaucoma using hyperspectral imaging
Mordant DJ; Al-Abboud I; Muyo G; Gorman A; Harvey AR; McNaught AI
Eye 2014; 28: 1190-1200 (IGR: 16-3)

59462 Relationship between systemic hypertension, perfusion pressure and glaucoma: A comparative study in an adult Indian population
Deb AK; Kaliaperumal S; Rao VA; Sengupta S
Indian Journal of Ophthalmology 2014; 62: 917-922 (IGR: 16-3)

58774 Glaucomatous and age-related changes in corneal pulsation shape. The ocular dicrotism
Danielewska ME; Krzyżanowska-Berkowska P; Iskander DR
PLoS ONE 2014; 9: e102814 (IGR: 16-3)

59196 Vascular Dysfunction in Diabetes and Glaucoma: A Complex Relationship Reviewed
Gerber AL; Harris A; Siesky B; Lee E; Schaab TJ; Huck A; Amireskandari A
Journal of Glaucoma 2015; 24: 474-479 (IGR: 16-3)

56993 Loss of inner retinal neurons after retinal ischemia in rats
Schmid H; Renner M; Dick HB; Joachim SC
Investigative Ophthalmology and Visual Science 2014; 55: 2777-2787 (IGR: 16-2)

57005 The influence of new beta-adrenolytics nebivolol and carvedilol on intraocular pressure and iris blood flow in rabbits
Szumny D; Szeląg A
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 917-923 (IGR: 16-2)

57449 Colour Doppler Imaging of Ophthalmic Artery and Central Retinal Artery in Glaucoma Patients with and without Diabetes Mellitus
Srikanth K; Kumar MA; Selvasundari S; Prakash ML
Journal of clinical and diagnostic research : JCDR 2014; 8: VC01-VC02 (IGR: 16-2)

57346 Doppler evaluation of ocular vessels in patients with primary open angle glaucoma
Suprasanna K; Shetty CM; Charudutt S; Kadavigere R
Journal of Clinical Ultrasound 2014; 42: 486-491 (IGR: 16-2)

57299 The Association of Blood Pressure and Primary Open-Angle Glaucoma: A Meta-analysis
Zhao D; Cho J; Kim MH; Guallar E
American Journal of Ophthalmology 2014; 158: 615-627.e9 (IGR: 16-2)

57504 Changes in the retrobulbar hemodynamic parameters after decreasing the elevated intraocular pressure in primary open-angle glaucoma patients
Marjanović I; Martinez A; Marjanović M; Milić N; Kontić D; Hentova-Senćanić P; Marković V; Bozić M
Srpski Arhiv Celokupno Lekarstvo 2014; 142: 286-290 (IGR: 16-2)

57185 Longitudinal alterations in the dynamic autoregulation of optic nerve head blood flow revealed in experimental glaucoma
Wang L; Cull G; Burgoyne CF; Thompson S; Fortune B
Investigative Ophthalmology and Visual Science 2014; 55: 3509-3516 (IGR: 16-2)

57455 Optic nerve head morphology in glaucoma patients of African descent is strongly correlated to retinal blood flow
Kanakamedala P; Harris A; Siesky B; Tyring A; Muchnik M; Eckert G; Abrams Tobe L
British Journal of Ophthalmology 2014; 98: 1551-1554 (IGR: 16-2)

57369 Optic Nerve Head Blood Flow Response to Reduced Ocular Perfusion Pressure by Alteration of Either the Blood Pressure or Intraocular Pressure
Wang L; Cull GA; Fortune B
Current Eye Research 2014; 0: 1-9 (IGR: 16-2)

57193 Central retinal venous pulsation pressure in different stages of primary open-angle glaucoma
Pillunat KR; Ventzke S; Spoerl E; Furashova O; Stodtmeister R; Pillunat LE
British Journal of Ophthalmology 2014; 98: 1374-1378 (IGR: 16-2)

57501 Systemic endothelial function in primary open-angle glaucoma
Atas M; Arifoglu HB; Hashas AS; Sarli B; Demircan S; Ozkose A; Goktas A
Journal of Ophthalmology 2014; 2014: 529082 (IGR: 16-2)

57337 Gender Differences in Ocular Blood Flow
Schmidl D; Schmetterer L; Garhöfer G; Popa-Cherecheanu A
Current Eye Research 2014; 0: 1-12 (IGR: 16-2)

57520 Laser cyclophotocoagulation enhances the regulative capacity of retinal vessels in glaucoma
Kremmer S; Anastassiou G; Schallenberg M; Steuhl KP; W V; J MS
Open Ophthalmology Journal 2014; 8: 27-31 (IGR: 16-2)

56252 Effect of intraocular pressure on glaucomatous damage to the optic nerve
Jonas JB; Yang D; Wang N
Ophthalmologe 2014; 111: 181-188; quiz 189-90 (IGR: 16-1)

56030 The effect of vasopressin on ciliary blood flow and aqueous flow
Bogner B; Runge C; Strohmaier C; Trost A; Tockner B; Kiel JW; Schroedl F; Reitsamer HA
Investigative Ophthalmology and Visual Science 2014; 55: 396-403 (IGR: 16-1)

56296 Relationship between ocular surface temperature and peripheral vasoconstriction in healthy subjects: a thermographic study
Vannetti F; Matteoli S; Finocchio L; Lacarbonara F; Sodi A; Menchini U; Corvi A
Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine 2014; 228: 297-302 (IGR: 16-1)

56103 Retinal oxygen metabolism in healthy subjects and glaucoma patients
Olafsdottir OB; Vandewalle E; Abegão Pinto L; Geirsdottir A; De Clerck E; Stalmans P; Gottfredsdottir MS; Kristjansdottir JV; Van Calster J; Zeyen T; Stefánsson E; Stalmans I
British Journal of Ophthalmology 2014; 98: 329-333 (IGR: 16-1)

56151 Tracing retinal vessel trees by transductive inference
De J; Li H; Cheng L
BMC bioinformatics 2014; 15: 20 (IGR: 16-1)

56400 Vascular tone pathway polymorphisms in relation to primary open-angle glaucoma
Kang JH; Loomis SJ; Yaspan BL; Bailey JC; Weinreb RN; Lee RK; Lichter PR; Budenz DL; Liu Y; Realini T; Gaasterland D; Gaasterland T; Friedman DS; McCarty CA; Moroi SE; Olson L; Schuman JS; Singh K; Vollrath D; Wollstein G; Zack DJ; Brilliant M; Sit AJ; Ch
Eye 2014; 28: 662-671 (IGR: 16-1)

56301 Unstable oxygen supply and glaucoma
Konieczka K; Fränkl S; Todorova MG; Henrich PB
Klinische Monatsblätter für Augenheilkunde 2014; 231: 121-126 (IGR: 16-1)

56148 Static blood flow autoregulation in the optic nerve head in normal and experimental glaucoma
Wang L; Burgoyne CF; Cull G; Thompson S; Fortune B
Investigative Ophthalmology and Visual Science 2014; 55: 873-880 (IGR: 16-1)

56173 Ocular pulse amplitude and Doppler waveform analysis in glaucoma patients
Abegão Pinto L; Vandewalle E; Willekens K; Marques-Neves C; Stalmans I
Acta Ophthalmologica 2014; 92: e280-e285 (IGR: 16-1)

56640 Relationship of spontaneous retinal vein pulsation with ocular circulatory cycle
Kim M; Lee EJ; Seo JH; Kim TW
PLoS ONE 2014; 9: e97943 (IGR: 16-1)

56439 Optical Coherence Tomography Angiography of Optic Disc Perfusion in Glaucoma
Jia Y; Wei E; Wang X; Zhang X; Morrison JC; Parikh M; Lombardi LH; Gattey DM; Armour RL; Edmunds B; Kraus MF; Fujimoto JG; Huang D
Ophthalmology 2014; 121: 1322-1332 (IGR: 16-1)

56590 Frequency of symptoms and signs of primary vascular dysregulation in Swiss and Korean populations
Konieczka K; Choi HJ; Koch S; Schoetzau A; Küenzi D; Kim DM
Klinische Monatsblätter für Augenheilkunde 2014; 231: 344-347 (IGR: 16-1)

56184 Vascular considerations in glaucoma patients of African and European descent
Huck A; Harris A; Siesky B; Kim N; Muchnik M; Kanakamedala P; Amireskandari A; Abrams-Tobe L
Acta Ophthalmologica 2014; 92: e336-e340 (IGR: 16-1)

56594 Ocular pulse amplitude measurement using pascal dynamic contour tonometer in glaucoma patients
Katsimpris JM; Theoulakis PE; Papadopoulos GE; Katsimpris A; Lepidas J; Petropoulos IK
Klinische Monatsblätter für Augenheilkunde 2014; 231: 363-367 (IGR: 16-1)

56460 Correlation between ocular perfusion pressure fluctuation and glaucoma severity
de Oliveira AP; Kasahara N
International Ophthalmology 2015; 35: 187-192 (IGR: 16-1)

56304 Relevance of arterial hypertension in primary open-angle glaucoma
Erb C; Predel HG
Klinische Monatsblätter für Augenheilkunde 2014; 231: 136-143 (IGR: 16-1)

56340 Comparative quantitative study of astrocytes and capillary distribution in optic nerve laminar regions
Balaratnasingam C; Kang MH; Yu P; Chan G; Morgan WH; Cringle SJ; Yu DY
Experimental Eye Research 2014; 121: 11-22 (IGR: 16-1)

56655 An emerging treatment option for glaucoma: Rho kinase inhibitors
Wang SK; Chang RT
Clinical Ophthalmology 2014; 8: 883-890 (IGR: 16-1)

56438 The short-term effect of flavonoid-rich dark chocolate on retinal vessel diameter in glaucoma patients and age-matched controls
Terai N; Gedenk A; Spoerl E; Pillunat LE; Stodtmeister R
Acta Ophthalmologica 2014; 92: e341-e345 (IGR: 16-1)

55360 Pathogenetic role of magnesium deficiency in ophthalmic diseases
Agarwal R; Iezhitsa L; Agarwal P
Biometals : an international journal on the role of metal ions in biology, biochemistry, and medicine 2013; 0: (IGR: 15-4)

55341 Peripapillary arterial circle of Zinn-Haller: location and spatial relationships with myopia
Jonas JB; Holbach L; Panda-Jonas S
PLoS ONE 2013; 8: e78867 (IGR: 15-4)

55364 Role of mitochondria in the pathogenesis and treatment of glaucoma
Yang XJ; Ge J; Zhuo YH
Chinese Medical Journal 2013; 126: 4358-4365 (IGR: 15-4)

55127 The dynamic response of intraocular pressure and ocular pulse amplitude to acute hemodynamic changes in normal and glaucomatous eyes
Li JC; Gupta VK; You Y; Ng KW; Graham SL
Investigative Ophthalmology and Visual Science 2013; 54: 6960-6967 (IGR: 15-4)

55354 Effect of hemodialysis on intraocular pressure and ocular perfusion pressure
Hu J; Bui KM; Patel KH; Kim H; Arruda JA; Wilensky JT; Vajaranant TS
JAMA ophthalmology 2013; 131: 1525-1531 (IGR: 15-4)

55214 Relationship between retinal vascular geometry with retinal nerve fiber layer and ganglion cell-inner plexiform layer in nonglaucomatous eyes
Tham YC; Cheng CY; Zheng Y; Aung T; Wong TY; Cheung CY
Investigative Ophthalmology and Visual Science 2013; 54: 7309-7316 (IGR: 15-4)

55363 Ocular perfusion pressure in glaucoma
Costa VP; Harris A; Anderson D; Stodtmeister R; Cremasco F; Kergoat H; Lovasik J; Stalmans I; Zeitz O; Lanzl I; Gugleta K; Schmetterer L
Acta Ophthalmologica 2014; 92: e252-e266 (IGR: 15-4)

55485 Loss of caveolin-1 causes blood-retinal barrier breakdown, venous enlargement, and mural cell alteration
Gu X; Fliesler SJ; Zhao YY; Stallcup WB; Cohen AW; Elliott MH
American Journal of Pathology 2014; 184: 541-555 (IGR: 15-4)

55548 The influence of retinal blood flow on open-angle glaucoma in patients with and without diabetes
Lee E; Harris A; Siesky B; Schaab T; McIntyre N; Tobe LA; Ling J
European Journal of Ophthalmology 2013; 0: 0 (IGR: 15-4)

55414 Hemodynamic component in glaucoma and its association with risk factors and cardiovascular disease
Muñoz de Escalona-Rojas JE; Cantero-Hinojosa J; Garrido-Pareja F; García-Serrano JL; Padilla-Torres JF
Medicina Clinica 2014; 143: 157-160 (IGR: 15-4)

55438 Retinal blood flow in glaucomatous eyes with single-hemifield damage
Sehi M; Goharian I; Konduru R; Tan O; Srinivas S; Sadda SR; Francis BA; Huang D; Greenfield DS
Ophthalmology 2014; 121: 750-758 (IGR: 15-4)

55640 Changes in the retrobulbar arterial circulation after decrease of the elevated intraocular pressure in men and women with primary open angle glaucoma
Marjanović I; Martinez A; Marjanović M; Kontić D; Hentova-Senćanić P; Marković V; Bozić M
Srpski Arhiv Celokupno Lekarstvo 2013; 141: 728-731 (IGR: 15-4)

55424 Higher optic nerve sheath diameters are associated with lower ocular blood flow velocities in glaucoma patients
Willekens K; Abegão Pinto L; Vandewalle E; Marques-Neves C; Stalmans I
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 477-483 (IGR: 15-4)

55517 Retinal blood vessel positional shifts and glaucoma progression
Radcliffe NM; Smith SD; Syed ZA; Park SC; Ehrlich JR; De Moraes CG; Liebmann JM; Ritch R
Ophthalmology 2014; 121: 842-848 (IGR: 15-4)

55441 Calcium channels and their blockers in intraocular pressure and glaucoma
Mayama C
European Journal of Pharmacology 2014; 739: 96-105 (IGR: 15-4)

54770 Neurovascular interactions in the retina: physiological and pathological roles
Nakahara T; Mori A; Kurauchi Y; Sakamoto K; Ishii K
Journal of Pharmacological Sciences 2013; 123: 79-84 (IGR: 15-3)

54604 Functional hyperemia and mechanisms of neurovascular coupling in the retinal vasculature
Newman EA
Journal of Cerebral Blood Flow and Metabolism 2013; 33: 1685-1695 (IGR: 15-3)

54284 Enhanced pressure in the central retinal vein decreases the perfusion pressure in the prelaminar region of the optic nerve head
Stodtmeister R; Ventzke S; Spoerl E; Boehm AG; Terai N; Haustein M; Pillunat LE
Investigative Ophthalmology and Visual Science 2013; 54: 4698-4704 (IGR: 15-3)

54611 Correlation between ocular perfusion pressure and ocular pulse amplitude in glaucoma, ocular hypertension, and normal eyes
Figueiredo BP; Cronemberger S; Kanadani FN
Clinical Ophthalmology 2013; 7: 1615-1621 (IGR: 15-3)

54437 Theoretical analysis of vascular regulatory mechanisms contributing to retinal blood flow autoregulation
Arciero J; Harris A; Siesky B; Amireskandari A; Gershuny V; Pickrell A; Guidoboni G
Investigative Ophthalmology and Visual Science 2013; 54: 5584-5593 (IGR: 15-3)

54765 Association of blood and ocular perfusion pressure with structural glaucomatous progression by flicker chronoscopy
McGlynn MM; Ehrlich JR; Marlow ED; Chee RI; Silva FQ; Van Tassel SH; Radcliffe NM
British Journal of Ophthalmology 2013; 97: 1569-1573 (IGR: 15-3)

54842 Role of color Doppler imaging in early diagnosis and prediction of progression in glaucoma
Jimenez-Aragon F; Garcia-Martin E; Larrosa-Lopez R; Artigas-Martí,n JM; Seral-Moral P; Pablo LE
BioMed research international 2013; 2013: 871689 (IGR: 15-3)

54318 Ocular rigidity, outflow facility, ocular pulse amplitude, and pulsatile ocular blood flow in open-angle glaucoma: a manometric study
Dastiridou AI; Tsironi EE; Tsilimbaris MK; Ginis H; Karyotakis N; Cholevas P; Androudi S; Pallikaris IG
Investigative Ophthalmology and Visual Science 2013; 54: 4571-4577 (IGR: 15-3)

54674 Sensory stimulation for lowering intraocular pressure, improving blood flow to the optic nerve and neuroprotection in primary open-angle glaucoma
Rom E
Acupuncture in medicine : journal of the British Medical Acupuncture Society 2013; 31: 416-421 (IGR: 15-3)

53878 Changes in choroidal thickness, axial length, and ocular perfusion pressure accompanying successful glaucoma filtration surgery
Kara N; Baz O; Altan C; Satana B; Kurt T; Demirok A
Eye 2013; 27: 940-945 (IGR: 15-2)

53575 Acetylcholinesterase inhibition promotes retinal vasoprotection and increases ocular blood flow in experimental glaucoma
Almasieh M; MacIntyre JN; Pouliot M; Casanova C; Vaucher E; Kelly ME; Di Polo A
Investigative Ophthalmology and Visual Science 2013; 54: 3171-3183 (IGR: 15-2)

53775 Hypoxia-Inducible Factor-1 (HIF-1): A Potential Target for Intervention in Ocular Neovascular Diseases
Vadlapatla RK; Vadlapudi AD; Mitra AK
Current Drug Targets 2013; 14: 919-935 (IGR: 15-2)

53681 Retinal oxygen saturation and metabolism: how does it pertain to glaucoma? An update on the application of retinal oximetry in glaucoma
Tobe LA; Harris A; Schroeder A; Gerber A; Holland S; Amireskandari A; Kim NJ; Siesky B
European Journal of Ophthalmology 2013; 0: 0 (IGR: 15-2)

53848 Cerebral blood flow in glaucoma patients
Harris A; Wirostko B
Journal of Glaucoma 2013; 22: S46-8 (IGR: 15-2)

53811 Reduced ocular blood flow in asymmetric glaucoma: cause or effect?
Singh K; Kaur S
International Ophthalmology 2014; 34: 909-912 (IGR: 15-2)

53583 Correlation between optic disc microcirculation in glaucoma measured with laser speckle flowgraphy and fluorescein angiography, and the correlation with mean deviation
Aizawa N; Kunikata H; Yokoyama Y; Nakazawa T
Clinical and Experimental Ophthalmology 2014; 42: 293-294 (IGR: 15-2)

53981 Differences in Ocular Blood Flow in Glaucoma Between Patients of African and European Descent
Siesky B; Harris A; Racette L; Abassi R; Chandrasekhar K; Tobe LA; Behzadi J; Eckert G; Amireskandari A; Muchnik M
Journal of Glaucoma 2015; 24: 117-121 (IGR: 15-2)

53836 Central venous pulsations: new findings, clinical importance and relation to cerebrospinal fluid pressure
Morgan WH
Journal of Glaucoma 2013; 22: S15-6 (IGR: 15-2)

53543 Three-dimensional reconstruction of blood vessels in the rabbit eye by X-ray phase contrast imaging
Zhang L; Qian X; Zhang K; Cui Q; Zhao Q; Liu Z
Biomedical engineering online 2013; 12: 30 (IGR: 15-2)

53703 Racial differences in retinal vessel geometric characteristics: a multiethnic study in healthy asians
Li X; Wong WL; Cheung CY; Cheng CY; Ikram MK; Li J; Chia KS; Wong TY
Investigative Ophthalmology and Visual Science 2013; 54: 3650-3656 (IGR: 15-2)

53872 The primary vascular dysregulation syndrome: implications for eye diseases
Flammer J; Konieczka K; Flammer AJ
The EPMA Journal 2013; 4: 14 (IGR: 15-2)

53854 Longitudinal hemodynamic changes within the optic nerve head in experimental glaucoma
Cull G; Burgoyne CF; Fortune B; Wang L
Investigative Ophthalmology and Visual Science 2013; 54: 4271-4277 (IGR: 15-2)

53626 Effect of ageing on the retinal vascular responsiveness to flicker light in glaucoma patients and in ocular hypertension
Gugleta K; Türksever C; Polunina A; Orgül S
British Journal of Ophthalmology 2013; 97: 848-851 (IGR: 15-2)

53508 Effect of topical tafluprost on optic nerve head blood flow in patients with myopic disc type
Tsuda S; Yokoyama Y; Chiba N; Aizawa N; Shiga Y; Yasuda M; Yokokura S; Otomo T; Fuse N; Nakazawa T
Journal of Glaucoma 2013; 22: 398-403 (IGR: 15-2)

54017 Reduced Cerebrovascular Reactivity in Posterior Cerebral Arteries in Patients with Primary Open-Angle Glaucoma
Zhang S; Xie Y; Yang J; Tang Y; Li R; Wang N; Zhang C
Ophthalmology 2013; 120: 2501-2507 (IGR: 15-2)

52666 Dynamic contour tonometry in primary open angle glaucoma and pseudoexfoliation glaucoma: factors associated with intraocular pressure and ocular pulse amplitude
Moghimi S; Torabi H; Fakhraie G; Nassiri N; Mohammadi M
Middle East African Journal of Ophthalmology 2013; 20: 158-162 (IGR: 15-1)

52665 Retinal neurovascular coupling in patients with glaucoma and ocular hypertension and its association with the level of glaucomatous damage
Gugleta K; Waldmann N; Polunina A; Kochkorov A; Katamay R; Flammer J; Orgul S
Graefe's Archive for Clinical and Experimental Ophthalmology 2013; 251: 1577-1585 (IGR: 15-1)

52690 Estimation of ocular rigidity in glaucoma using ocular pulse amplitude and pulsatile choroidal blood flow
Wang J; Freeman EE; Descovich D; Harasymowycz PJ; Kamdeu Fansi A; Li G; Lesk MR
Investigative Ophthalmology and Visual Science 2013; 54: 1706-1711 (IGR: 15-1)

52379 Effects of Dorzolamide-Timolol and Brimonidine-Timolol on Retinal Vascular Autoregulation and Ocular Perfusion Pressure in Primary Open Angle Glaucoma
Feke GT; Rhee DJ; Turalba AV; Pasquale LR
Journal of Ocular Pharmacology and Therapeutics 2013; 29: 639-645 (IGR: 15-1)

52588 The eye and the heart
Flammer J; Konieczka K; Bruno RM; Virdis A; Flammer AJ; Taddei S
European Heart Journal 2013; 34: 1270-1278 (IGR: 15-1)

53170 Association of open-angle glaucoma with perfusion pressure status in the Thessaloniki Eye Study
Topouzis F; Wilson MR; Harris A; Founti P; Yu F; Anastasopoulos E; Pappas T; Koskosas A; Salonikiou A; Coleman AL
American Journal of Ophthalmology 2013; 155: 843-851 (IGR: 15-1)

52409 Oximetry in glaucoma: correlation of metabolic change with structural and functional damage
Vandewalle E; Abegão Pinto L; Olafsdottir OB; De Clerck E; Stalmans P; Van Calster J; Zeyen T; Stefánsson E; Stalmans I
Acta Ophthalmologica 2014; 92: 105-110 (IGR: 15-1)

52695 Ocular blood flow velocity in primary open angle glaucoma - a tropical african population study
Adeyinka OO; Olugbenga A; Helen OO; Adebayo AV; Rasheed A
Middle East African Journal of Ophthalmology 2013; 20: 174-178 (IGR: 15-1)

52925 Analysis of retinal vein motion in glaucoma patients
Ghanem M; Gugleta K; Oettli A; Kochkorov A; Polunina A; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2013; 230: 358-362 (IGR: 15-1)

53141 Relationship between diastolic perfusion pressure and progressive optic neuropathy as determined by Heidelberg retinal tomography topographic change analysis
Quaid P; Simpson T; Freddo T
Investigative Ophthalmology and Visual Science 2013; 54: 789-798 (IGR: 15-1)

52394 Low nocturnal ocular perfusion pressure as a risk factor for normal tension glaucoma
Ramli N; Nurull BS; Hairi NN; Mimiwati Z
Preventive medicine 2013; 0: (IGR: 15-1)

52481 Blood pressure, ocular perfusion pressure, and body mass index in glaucoma patients
Ngo S; Harris A; Siesky BA; Schroeder A; Eckert G; Holland S
European Journal of Ophthalmology 2013; 0: 0 (IGR: 15-1)

52513 Effect of ultrasound radiation force on the choroid
Silverman RH; Urs R; Lloyd HO
Investigative Ophthalmology and Visual Science 2013; 54: 103-109 (IGR: 15-1)

52994 Measuring hemoglobin levels in the optic nerve head: comparisons with other structural and functional parameters of glaucoma
Gonzalez de la Rosa M; Gonzalez-Hernandez M; Sigut J; Alayon S; Radcliffe N; Mendez-Hernandez C; García-Feijoo J; Fuertes-Lazaro I; Perez-Olivan S; Ferreras A
Investigative Ophthalmology and Visual Science 2013; 54: 482-489 (IGR: 15-1)

52495 Retinal oximetry
Hardarson SH
Acta Ophthalmologica 2013; 91: 1-47 (IGR: 15-1)

52980 Vitrectomy effect on ocular hydrodynamics in proliferative diabetic retinopathy and nonvascular pathology

Vestnik Oftalmologii 2013; 129: 46-48 (IGR: 15-1)

52618 Ocular hemodynamics and glaucoma: the role of mathematical modeling
Harris A; Guidoboni G; Arciero JC; Amireskandari A; Tobe LA; Siesky BA
European Journal of Ophthalmology 2013; 23: 139-146 (IGR: 15-1)

53243 Color Doppler imaging analysis of retrobulbar blood flow velocities in primary open-angle glaucomatous eyes: a meta-analysis
Meng N; Zhang P; Huang H; Ma J; Zhang Y; Li H; Qu Y
PLoS ONE 2013; 8: e62723 (IGR: 15-1)

52605 Effects of antiglaucoma drugs on blood flow of optic nerve heads and related structures
Mayama C; Araie M
Japanese Journal of Ophthalmology 2013; 57: 133-149 (IGR: 15-1)

52860 Atypical ocular ischaemia in angle-closure glaucoma and anaemia
Rao A; Gupta V; Garudadri CS
International Ophthalmology 2013; 33: 295-297 (IGR: 15-1)

52071 The heritability of glaucoma-related traits corneal hysteresis, central corneal thickness, intraocular pressure, and choroidal blood flow pulsatility
Freeman EE; Roy-Gagnon MH; Descovich D; Massé H; Lesk MR
PLoS ONE 2013; 8: e55573 (IGR: 14-4)

51848 Anterior and posterior optic nerve head blood flow in nonhuman primate experimental glaucoma model measured by laser speckle imaging technique and microsphere method
Wang L; Cull GA; Piper C; Burgoyne CF; Fortune B
Investigative Ophthalmology and Visual Science 2012; 53: 8303-8309 (IGR: 14-4)

51907 24-hour intraocular pressure and ocular perfusion pressure in glaucoma
Quaranta L; Katsanos A; Russo A; Riva I
Survey of Ophthalmology 2013; 58: 26-41 (IGR: 14-4)

51748 Pulsatile movement of the optic nerve head and the peripapillary retina in normal subjects and in glaucoma
Singh K; Dion C; Godin AG; Lorghaba F; Descovich D; Wajszilber M; Ozaki T; Costantino S; Lesk MR
Investigative Ophthalmology and Visual Science 2012; 53: 7819-7824 (IGR: 14-4)

51967 Quantitative OCT angiography of optic nerve head blood flow
Jia Y; Morrison JC; Tokayer J; Tan O; Lombardi L; Baumann B; Lu CD; Choi W; Fujimoto JG; Huang D
Biomedical optics express 2012; 3: 3127-3137 (IGR: 14-4)

52070 Analysis of pulsatile retinal movements by spectral-domain low-coherence interferometry: influence of age and glaucoma on the pulse wave
Dion C; Singh K; Ozaki T; Lesk MR; Costantino S
PLoS ONE 2013; 8: e54207 (IGR: 14-4)

51761 Relationship of systemic blood pressure with ocular perfusion pressure and intraocular pressure of glaucoma patients in telemedical home monitoring
Jürgens C; Grossjohann R; Tost FH
Medical Science Monitor 2012; 18: MT85-9 (IGR: 14-4)

51701 Retinal vessel caliber is associated with the 10-year incidence of glaucoma: the Blue Mountains Eye Study
Kawasaki R; Wang JJ; Rochtchina E; Lee AJ; Wong TY; Mitchell P
Ophthalmology 2013; 120: 84-90 (IGR: 14-4)

51855 Neurogenic contractions in intraocular porcine ciliary arteries are mediated by α₂-adrenoceptors and NPY₁ receptors and are inhibited by prostaglandin E₂ acting on prejunctional EP₄ receptors
Kringelholt S; Simonsen U; Bek T
Experimental Eye Research 2013; 107: 32-36 (IGR: 14-4)

51991 What happens to glaucoma patients during sleep?
Aref AA
Current Opinions in Ophthalmology 2013; 24: 162-166 (IGR: 14-4)

51317 Ocular perfusion pressure and ocular blood flow in glaucoma
Cherecheanu AP; Garhofer G; Schmidl D; Werkmeister R; Schmetterer L
Current opinion in pharmacology 2013; 13: 36-42 (IGR: 14-3)

51312 Hemodynamic interactions in the eye: a review
Golzan SM; Avolio A; Graham SL
Ophthalmologica 2012; 228: 214-221 (IGR: 14-3)

51298 The influence of water soluble antioxidant agent (mexidol) on optic nerve and blood flow velocity in ocular and orbital arteries in patients with primary open-angle glaucoma
Volchegorskiĭ IA; Tur EV; Soliannikova OV; Rykun VS; Berdnikova EV; Sumina MS; Dmitrienko VN
Vestnik Oftalmologii 2012; 128: 35-38, 41 (IGR: 14-3)

51327 Doppler optical coherence tomography of retinal circulation
Tan O; Wang Y; Konduru RK; Zhang X; Sadda SR; Huang D
Journal of Vision Exp 2012; 0: e3524 (IGR: 14-3)

50999 Dorzolamide-induced Relaxation of Intraocular Porcine Ciliary Arteries In Vitro Depends on Nitric Oxide and the Vascular Endothelium
Kringelholt S; Simonsen U; Bek T
Current Eye Research 2012; 37: 1107-1113 (IGR: 14-3)

51276 Relationship of intraocular pressure and frequency of spontaneous retinal venous pulsation in primary open-angle glaucoma
Seo JH; Kim TW; Weinreb RN; Kim YA; Kim M
Ophthalmology 2012; 119: 2254-2260 (IGR: 14-3)

51303 Phenylephrine 5% added to Tropicamide 0.5% eye drops does not influence retinal oxygen saturation values or retinal vessel diameter in glaucoma patients
Vandewalle E; Abegão Pinto L; Olafsdottir OB; Stalmans I
Acta Ophthalmologica 2013; 91: 733-737 (IGR: 14-3)

50661 Factors affecting ocular pulse amplitude in eyes with open angle glaucoma and glaucoma-suspect eyes
Choi J; Lee J; Park SB; Lee KS; Sung KR; Kook MS
Acta Ophthalmologica 2012; 90: 552-558 (IGR: 14-3)

51113 Distribution of mean, systolic and diastolic ocular perfusion pressure in telemedical homemonitoring of glaucoma patients
Jürgens C; Grossjohann R; Tost F
Ophthalmic Research 2012; 48: 208-211 (IGR: 14-3)

51338 Observations on degenerative changes within the optic nerve in patients with primary open glaucoma and arterial hypertension: 6-month follow-up
Krasińska B; Banach M; Karolczak-Kulesza M; Krasiński Z; Głuszek J; Tykarski A
Journal of Clinical Hypertension 2012; 14: 701-710 (IGR: 14-3)

51051 Ocular ischemic syndrome - a systematic review
Terelak-Borys B; Skonieczna K; Grabska-Liberek I
Medical Science Monitor 2012; 18: RA138-144 (IGR: 14-3)

51069 Dual effect of prostaglandins on isolated intraocular porcine ciliary arteries
Kringelholt S; Simonsen U; Bek T
Acta Ophthalmologica 2013; 91: 498-504 (IGR: 14-3)

51356 Effect of trabeculectomy on retrobulbar circulation and visual field progression in patients with primary open-angle glaucoma
Yamazaki Y; Hayamizu F
Clinical Ophthalmology 2012; 6: 1539-1545 (IGR: 14-3)

50391 Preclinical models to investigate retinal ischemia: advances and drawbacks
Minhas G; Morishita R; Anand A
Frontiers in neurology 2012; 3: 75 (IGR: 14-2)

50567 Changes in optic nerve head circulation in response to vasoactive agents: inter-eye comparison in monkeys with experimental unilateral glaucoma
Mayama C; Ishii K; Ota T; Tomidokoro A; Araie M
Investigative Ophthalmology and Visual Science 2012; 53: 5771-5778 (IGR: 14-2)

50505 Effects of caffeinated coffee consumption on intraocular pressure, ocular perfusion pressure, and ocular pulse amplitude: a randomized controlled trial
Jiwani AZ; Rhee DJ; Brauner SC; Gardiner MF; Chen TC; Shen LQ; Chen SH; Grosskreutz CL; Chang KK; Kloek CE; Greenstein SH; Borboli-Gerogiannis S; Pasquale DL; Chaudhry S; Loomis S; Wiggs JL; Pasquale LR; Turalba AV
Eye 2012; 26: 1122-1130 (IGR: 14-2)

50373 Optic disc fluorescein leakage and intraocular pressure in primary open-angle glaucoma
Plange N; Bienert M; Remky A; Arend KO
Current Eye Research 2012; 37: 508-512 (IGR: 14-2)

50631 Evaluation of the Effects of Acupuncture on Blood Flow in Humans with Ultrasound Color Doppler Imaging
Takayama S; Watanabe M; Kusuyama H; Nagase S; Seki T; Nakazawa T; Yaegashi N
Evidence-based Complementary and Alternative Medicine 2012; 2012: 513638 (IGR: 14-2)

50387 Predictive value of retrobulbar blood flow velocities in glaucoma suspects
Calvo P; Ferreras A; Polo V; Gü,erri N; Seral P; Fuertes-Lazaro I; Pablo LE
Investigative Ophthalmology and Visual Science 2012; 53: 3875-3884 (IGR: 14-2)

50375 Cellular and physiological mechanisms underlying blood flow regulation in the retina and choroid in health and disease
Kur J; Newman EA; Chan-Ling T
Progress in Retinal and Eye Research 2012; 31: 377-406 (IGR: 14-2)

50282 Does phacoemulsification under topical anesthesia affect retrobulbar blood flow?
Saygili O; Mete A; Gungor K; Bekir N; Bayram M
Journal of Clinical Ultrasound 2012; 40: 572-575 (IGR: 14-2)

50584 Spectral Analysis of Intraocular Pressure Pulse Wave in Open Angle Glaucomas and Healthy Eyes
Bož,ić M; Dukić ML; Stojković
Current Eye Research 2012; 37: 1019-1024 (IGR: 14-2)

50531 Effects of topical carteolol on retinal arterial blood flow in primary open-angle glaucoma patients
Kawai M; Nagaoka T; Takahashi A; Sato E; Yoshida A
Japanese Journal of Ophthalmology 2012; 56: 458-463 (IGR: 14-2)

50317 Investigation of ocular hemodynamics in Sturge-Weber syndrome
Conway M; Hosking SL
Optometry and Vision Science 2012; 89: 922-928 (IGR: 14-2)

49182 Endothelin-1 plasma levels and vascular endothelial dysfunction in primary open angle glaucoma
Cellini M; Strobbe E; Gizzi C; Balducci N; Toschi PG; Campos EC
Life Sciences 2012; 91: 699-702 (IGR: 14-1)

48850 Magnetic resonance imaging indicates decreased choroidal and retinal blood flow in the DBA/2J mouse model of glaucoma
Lavery WJ; Muir ER; Kiel JW; Duong TQ
Investigative Ophthalmology and Visual Science 2012; 53: 560-564 (IGR: 14-1)

48875 Ischaemia in the Zinn-Haller circle and glaucomatous optic neuropathy in macaque monkeys
Hiraoka M; Inoue K; Ninomiya T; Takada M
British Journal of Ophthalmology 2012; 96: 597-603 (IGR: 14-1)

48661 Morphology of retinal vessels in the optic disk in a Göttingen minipig experimental glaucoma model
Galdos M; Bayó,n A; Rodriguez FD; Micó C; Sharma SC; Vecino E
Veterinary Ophthalmology 2012; 15: 36-46 (IGR: 14-1)

49153 Impaired ocular blood flow regulation in patients with open angle glaucoma and diabetes
Shoshani Y; Harris A; Shoja MM; Arieli Y; Ehrlich R; Primus S; Ciulla T; Cantor A; Wirostko B; Siesky BA
Clinical and Experimental Ophthalmology 2012; 40: 697-705 (IGR: 14-1)

48945 Disturbed correlation between arterial resistance and pulsatility in glaucoma patients
Abegã,o Pinto L; Vandewalle E; Stalmans I
Acta Ophthalmologica 2012; 90: e214-220 (IGR: 14-1)

48848 Discrimination of Healthy and Glaucomatous Eyes Based on the Ocular Pulse Amplitude: A Diagnostic Case-Control Study
Robert YC; Wild A; Kessels AG; Backes WH; Zollinger A; Bachmann LM
Ophthalmic Research 2011; 48: 1-5 (IGR: 14-1)

49095 Blood pressure modifies retinal susceptibility to intraocular pressure elevation
He Z; Nguyen CT; Armitage JA; Vingrys AJ; Bui BV
PLoS ONE 2012; 7: e31104 (IGR: 14-1)

48891 Retrobulbar hemodynamic parameters in open-angle and angle-closure glaucoma patients
Marjanovic I; Milic N; Martinez A; Benitez-del-Castillo J
Eye 2012; 26: 523-528 (IGR: 14-1)

48852 Significant correlations between optic nerve head microcirculation and visual field defects and nerve fiber layer loss in glaucoma patients with myopic glaucomatous disk
Yokoyama Y; Aizawa N; Chiba N; Omodaka K; Nakamura M; Otomo T; Yokokura S; Fuse N; Nakazawa T
Clinical Ophthalmology 2011; 5: 1721-1727 (IGR: 14-1)

49229 Ophthalmic artery Doppler waveform changes associated with increased damage in glaucoma patients
Abegã,o Pinto L; Vandewalle E; De Clerck E; Marques-Neves C; Stalmans I
Investigative Ophthalmology and Visual Science 2012; 53: 2448-2453 (IGR: 14-1)

49261 Relationship among visual field, blood flow, and neural structure measurements in glaucoma
Hwang JC; Konduru R; Zhang X; Tan O; Francis BA; Varma R; Sehi M; Greenfield DS; Sadda SR; Huang D
Investigative Ophthalmology and Visual Science 2012; 53: 3020-3026 (IGR: 14-1)

48915 Reproducibility of retinal blood flow measurements derived from semi-automated Doppler OCT analysis
Konduru RK; Tan O; Nittala MG; Huang D; Sadda SR
Ophthalmic Surgery Lasers and Imaging 0; 43: 25-31 (IGR: 14-1)

48901 Short-term effects of brimonidine/timolol and dorzolamide/timolol on ocular perfusion pressure and blood flow in glaucoma
Siesky B; Harris A; Ehrlich R; Cantor L; Shoja MM; Rusia D; Hollander DA; Abrams L; Williams JM; Shoshani Y
Advances in Therapy 2012; 29: 53-63 (IGR: 14-1)

48946 Subfoveal choroidal blood flow and central retinal function in early glaucoma
Marangoni D; Falsini B; Colotto A; Salgarello T; Anselmi G; Fadda A; Di Renzo A; Campos EC; Riva CE
Acta Ophthalmologica 2012; 90: e288-e294 (IGR: 14-1)

49270 Choroidal hemodynamic in myopic patients with and without primary open-angle glaucoma
Samra WA; Pournaras C; Riva C; Emarah M
Acta Ophthalmologica 2013; 91: 371-375 (IGR: 14-1)

48821 Peripheral retinal vascular abnormalities in primary infantile glaucoma
Shane TS; Berrocal AM; Hodapp EA; Grajewski AL; Hess DJ
Ophthalmic Surgery Lasers and Imaging 2011; 42: e144-146 (IGR: 14-1)

48958 Association Between Risk Factors and Glaucomatous Damage in Untreated Primary Open-angle Glaucoma
Gugleta K; Polunina A; Kochkorov A; Waldmann N; Portmann N; Katamay R; Flammer J; Orgul S
Journal of Glaucoma 2013; 22: 501-505 (IGR: 14-1)

49131 Low Diastolic Blood Pressure Is Associated with the Progression of Normal-Tension Glaucoma
Okumura Y; Yuki K; Tsubota K
Ophthalmologica 2012; 228: 36-41 (IGR: 14-1)

49256 Color Doppler sonography of retrobulbar vessels and hypercapnia in normal tension glaucoma
Plange N; Bienert M; Harris A; Remky A; Arend KO
Ophthalmologe 2012; 109: 250-256 (IGR: 14-1)

49036 Aggregation and deformability of erythrocytes in primary open-angle glaucoma (POAG); the assessment of arterial hypertension
Michalska-Małecka K; Słowińska-Łożyńska L,
Clinical Hemorheology and Microcirculation 2012; 51: 277-285 (IGR: 14-1)

49218 Effects of the time of antihypertensive drugs administration on the stage of primary open-angle glaucoma in patients with arterial hypertension
Krasińska B; Karolczak-Kulesza M; Krasiński Z; Pawlaczyk-Gabriel K; Lopatka P; Głuszek J; Tykarski A,
Blood Pressure 2012; 21: 240-248 (IGR: 14-1)

47980 Ocular perfusion pressure and the incidence of glaucoma: real effect or artifact? The Rotterdam Study
Ramdas WD; Wolfs RC; Hofman A; De Jong PT; Vingerling JR; Jansonius NM
Investigative ophthalmology & visual science 2011; 52: 6875-6881 (IGR: 13-4)

47639 Glaucoma is associated with arterial dysfunction and increased inflammatory process
Siasou G; Siasos G; Tousoulis D; Moschos MM; Oikonomou E; Zaromitidou M; Paraskevopoulos T; Marinos G; Papavassiliou AG; Stefanadis C
European Heart Journal 2011; 32: 201 (IGR: 13-4)

48114 Use of colour Doppler imaging in ocular blood flow research
Stalmans I; Vandewalle E; Anderson DR; Costa VP; Frenkel RE; Garhofer G; Grunwald J; Gugleta K; Harris A; Hudson C
Acta Ophthalmologica 2011; 89: 609-630 (IGR: 13-4)

47695 Dynamics of retinal vessel response to flicker light in glaucoma patients and ocular hypertensives
Gugleta K; Kochkorov A; Waldmann N; Polunina A; Katamay R; Flammer J; Orgul S
Graefe's Archive for Clinical and Experimental Ophthalmology 2011; (IGR: 13-4)

47874 Association between optic nerve blood flow and objective examinations in glaucoma patients with generalized enlargement disc type
Chiba N; Omodaka K; Yokoyama Y; Aizawa N; Tsuda S; Yasuda M; Otomo T; Yokokura S; Fuse N; Nakazawa T
Clinical Ophthalmology 2011; 5: 1549-1556 (IGR: 13-4)

47975 Retinal oximetry in primary open-angle glaucoma
Olafsdottir OB; Hardarson SH; Gottfredsdottir MS; Harris A; Stefansson E
Investigative ophthalmology & visual science 2011; 52: 6409-6413 (IGR: 13-4)

47967 Effect of latanoprost on choroidal blood flow regulation in healthy subjects
Boltz A; Schmidl D; Weigert G; Lasta M; Pemp B; Resch H; Garhofer G; Fuchsjager-Mayrl G; Schmetterer L
Investigative ophthalmology & visual science 2011; 52: 4410-4415 (IGR: 13-4)

48097 Physical activity and ocular perfusion pressure: the EPIC-Norfolk eye study
Yip JL; Broadway DC; Luben R; Garway-Heath DF; Hayat S; Dalzell N; Lee PS; Bhaniani A; Wareham NJ; Khaw KT
Investigative Ophthalmology and Visual Science 2011; 52: 8186-8192 (IGR: 13-4)

47859 Decreased ocular pulse amplitude associated with functional and structural damage in open-angle glaucoma
Kynigopoulos M; Tzamalis A; Ntampos K; Schlote T
European Journal of Ophthalmology 2011; 22: 111-116 (IGR: 13-4)

47851 The impact of intraocular pressure reduction on retrobulbar hemodynamic parameters in patients with open-angle glaucoma
Marjanovic I; Milic N; Martinez A
European Journal of Ophthalmology 2011; 22: 77-82 (IGR: 13-4)

48412 Changes in optic nerve head blood flow, visual function, and retinal histology in hypercholesterolemic rabbits
Shibata M; Sugiyama T; Hoshiga M; Hotchi J; Okuno T; Oku H; Hanafusa T; Ikeda T
Experimental Eye Research 2011; 93: 818-824 (IGR: 13-4)

47867 Reproducibility of retinal circulation measurements obtained using laser speckle flowgraphy-NAVI in patients with glaucoma
Aizawa N; Yokoyama Y; Chiba N; Omodaka K; Yasuda M; Otomo T; Nakamura M; Fuse N; Nakazawa T
Clinical Ophthalmology 2011; 5: 1171-1176 (IGR: 13-4)

48134 Measurement of ocular fundus pulsation in healthy subjects using a novel fourier-domain optical coherence tomography
Singh K; Dion C; Wajszilber M; Ozaki T; Lesk MR; Costantino S
Investigative Ophthalmology and Visual Science 2011; 52: 8927-8932 (IGR: 13-4)

47954 Systemic vascular dysregulation and retrobulbar hemodynamics in normal-tension glaucoma
Galassi F; Giambene B; Varriale R
Investigative ophthalmology & visual science 2011; 52: 4467-4471 (IGR: 13-4)

48127 Suboptimal image focus broadens retinal vessel caliber measurement
Chandler CS; Gangaputra S; Hubbard LD; Ferrier NJ; Pauli TW; Peng Q; Thayer DW; Danis RP Jr
Investigative Ophthalmology and Visual Science 2011; 52: 8558-8561 (IGR: 13-4)

48115 Agreement among three examiners of colour Doppler imaging retrobulbar blood flow velocity measurements
Founti P; Harris A; Papadopoulou D; Emmanouilidis P; Siesky B; Kilintzis V; Anastasopoulos E; Salonikiou A; Pappas T; Topouzis F
Acta Ophthalmologica 2011; 89: 631-634 (IGR: 13-4)

47671 Effect on ocular blood flow of Combigan(registered trademark) versus placebo in patients with ocular hypertension
Puerto-Hernandez B; Rebolleda G; Garcia-Perez JL; Munoz-Negrete FJ; Gonzalez-Gordaliza C
Archivos de la Sociedad Española de Oftalmologia 2011; 86: 42-46 (IGR: 13-4)

48329 Effects of Y-39983, a selective Rho-associated protein kinase inhibitor, on blood flow in optic nerve head in rabbits and axonal regeneration of retinal ganglion cells in rats
Tokushige H; Waki M; Takayama Y; Tanihara H
Current Eye Research 2011; 36: 964-970 (IGR: 13-4)

46970 Vascular Damage's markers in glaucoma patients
Lopez N; Villalba C; Tormo C; Belmonte A; Fernandez C; Hernandez F
Clinical Chemistry and Laboratory Medicine 2011; 49 (IGR: 13-3)

46477 Racial differences in ocular oxidative metabolism: Implications for ocular disease
Siegfried CJ; Shui Y-B; Holekamp NM; Bai F; Beebe DC
Archives of Ophthalmology 2011; 129: 849-854 (IGR: 13-3)

46942 Effects of anti-glaucoma drugs on resistive index of the medial long posterior ciliary artery using color Doppler imaging in Beagle dogs
Choi H; Lee Y; Yeon S; Lee H
Journal of Veterinary Science 2011; 12: 99-101 (IGR: 13-3)

46365 Effects of corneal thickness and axial length on intraocular pressure and ocular pulse amplitude before and after cataract surgery
Tabuchi H; Kiuchi Y; Ohsugi H; Nakakura S; Han Z
Canadian Journal of Ophthalmology 2011; 46: 242-246 (IGR: 13-3)

46933 Increased ocular perfusion--visual field preservation
Stefan C; Cojocaru I; Pop A
Oftalmologia 2011; 55: 34-37 (IGR: 13-3)

47092 The association of ocular blood flow with haemorheological parameters in primary open-angle and exfoliative glaucoma
Sekeroglu MA; Irkec M; Mocan MC; Ileri E; Dikmenoglu N; Seringec N; Karaosmanoglu D; Orhan M
Acta Ophthalmologica 2011; 89: 429-434 (IGR: 13-3)

46369 Reliability of vessel diameter measurements with a retinal oximeter
Blondal R; Sturludottir MK; Hardarson SH; Halldorsson GH; Stefánsson E
Graefe's Archive for Clinical and Experimental Ophthalmology 2011; 249: 1311-1317 (IGR: 13-3)

46684 Ocular pulse amplitude in patients with asymmetric primary open-angle glaucoma
Kac MJ; Solari HP; Velarde GC; Brazuna R; Cardoso GP; Ventura MP
Current Eye Research 2011; 36: 727-732 (IGR: 13-3)

46423 Altered blood vessel responses in the eye and finger in coronary artery disease
Heitmar R; Cubbidge RP; Lip GY; Gherghel D; Blann AD
Investigative Ophthalmology and Visual Science 2011; 52: 6199-6205 (IGR: 13-3)

46427 Choroidal blood flow response to isometric exercise in glaucoma patients and patients with ocular hypertension
Portmann N; Gugleta K; Kochkorov A; Polunina A; Flammer J; Orgul S
Investigative Ophthalmology and Visual Science 2011; (IGR: 13-3)

46838 Central blood pressure, arterial waveform analysis, and vascular risk factors in glaucoma
Graham SL; Butlin M; Lee M; Avolio AP
Journal of Glaucoma 2011; (IGR: 13-3)

46690 The hemorheological mechanisms in normal tension glaucoma
Cheng H-C; Chan C-M; Yeh S-I; Yu J-H; Liu D-Z
Current Eye Research 2011; 36: 647-653 (IGR: 13-3)

46846 Effect of brimonidine on retinal blood flow autoregulation in primary open-angle glaucoma
Feke GT; Hazin R; Grosskreutz CL; Pasquale LR
Journal of Ocular Pharmacology and Therapeutics 2011; 27: 347-352 (IGR: 13-3)

46431 The Effect of Vasopressin on Choroidal Blood Flow, Intraocular Pressure and Orbital Venous Pressure in Rabbits
Bogner B; Tockner B; Runge C; Strohmaier C; Trost A; Branka M; Radner W; Kiel JW; Schroedel F; Reitsamer HA
Investigative Ophthalmology and Visual Science 2011; (IGR: 13-3)

47099 Contrast sensitivity, ocular blood flow and their potential role in assessing ischaemic retinal disease
Shoshani YZ; Harris A; Rusia D; Spaeth GL; Siesky B; Pollack A; Wirostko B
Acta Ophthalmologica 2011; 89: 382-395 (IGR: 13-3)

46418 The effect of hypercarbia and hyperoxia on the total blood flow to the retina as assessed by magnetic resonance imaging
Maleki N; Alsop DC; Dai W; Hudson C; Han JS; Fisher J; Mikulis D
Investigative Ophthalmology and Visual Science 2011; 52: 6867-6874 (IGR: 13-3)

46386 Visualization of fundus vessel pulsation using principal component analysis
Moret F; Poloschek CM; Lagrèze WA; Bach M
Investigative Ophthalmology and Visual Science 2011; 52: 5457-5464 (IGR: 13-3)

46421 Ocular perfusion pressure and the incidence of glaucoma: real effect or artifact?: The Rotterdam study
Ramdas WD; Wolfs RC; Hofman A; De Jong PT; Vingerling JR; Jansonius NM
Investigative Ophthalmology and Visual Science 2011; 52: 6875-6881 (IGR: 13-3)

46751 The role of blood pressure in glaucoma
He Z; Vingrys AJ; Armitage JA; Bui BV
Clinical and Experimental Optometry 2011; 94: 133-149 (IGR: 13-3)

46393 The complex interaction between ocular perfusion pressure and ocular blood flow -Relevance for glaucoma
Schmidl D; Garhofer G; Schmetterer L
Experimental Eye Research 2011; 93: 141-155 (IGR: 13-3)

46331 Ocular blood flow in glaucoma
Bresson-Dumont H; Aptel F
Journal Français d'Ophtalmologie 2011; 34: 413-415 (IGR: 13-3)

46390 Role of Adenosine in the Control of Choroidal Blood Flow during Changes in Ocular Perfusion Pressure
Schmidl D; Weigert G; Dorner GT; Resch H; Kolodjaschna J; Wolzt M; Garhofer G; Schmetterer L
Investigative Ophthalmology and Visual Science 2011; 52: 6035-6039 (IGR: 13-3)

47070 Perfusion pressure in glaucoma
Founti P; Topouzis F
Expert Review of Ophthalmology 2011; 6: 339-346 (IGR: 13-3)

46514 Pressure-cornea-vascular index (PCVI) for predicting disease progression in normal tension glaucoma
Leung DYL; Iliev ME; Chan P; Baig N; Chi SCC; Tham CCY; Lam DSC
British Journal of Ophthalmology 2011; 95: 1106-1110 (IGR: 13-3)

46712 Importance of circulating platelet aggregates and haemodynamic changes in ophthalmic artery and progression of visual field loss at pseudoexfoliation glaucoma
Rogosic V; Bojic L; Rogosic LV; Titlic M; Lesin M; Kovacic Z; Poljak K; Duplancic D
Collegium Antropologicum 2011; 35: 477-482 (IGR: 13-3)

46383 Assessment of myocardial ischaemia using tissue Doppler imaging in pseudoexfoliation syndrome
Demir N; Ulus T; Yucel OE; Kumral ET; Singar E; Tanboga HI
Eye 2011; 25: 1177-1180 (IGR: 13-3)

46546 Effects of Rho-associated protein kinase inhibitors Y-27632 and Y-39983 on isolated rabbit ciliary arteries
Watabe H; Abe S; Yoshitomi T
Japanese Journal of Ophthalmology 2011; (IGR: 13-3)

46296 Predictive molecular profiling in blood of healthy vasospastic individuals: Clue to targeted prevention as personalised medicine to effective costs
Yeghiazaryan K; Flammer J; Golubnitschaja O
The EPMA Journal 2010; 1: 263-272 (IGR: 13-2)

45535 The short-term influence of exercise on axial length and intraocular pressure
Read SA; Collins MJ
Eye 2011; 25: 767-774 (IGR: 13-2)

46178 Ocular pulse amplitude and associated glaucomatous risk factors in a healthy Hispanic population
Erickson DH; Goodwin D; Anderson C; Hayes JR
Optometry 2010; 81: 408-413 (IGR: 13-2)

45536 Ocular pulse amplitude and retrobulbar blood flow change in dipper and non-dipper individuals
Karadag R; Keskin UC; Koktener A; Selcoki Y; Hepsen IF; Kanbay M
Eye 2011; 25: 762-766 (IGR: 13-2)

45530 Complete blood cell count and retinal vessel diameters
Klein BE; Klein R; Myers CE; Lee KE
Archives of Ophthalmology 2011; 129: 490-497 (IGR: 13-2)

46254 Pulsatile ocular blood flow in subjects with sleep apnoea syndrome
Nowak MS; Jurowski P; Gos R; Prost ME; Smigielski J
Archives of Medical Science 2011; 7: 332-336 (IGR: 13-2)

45483 Relationship between peripheral blood flow in extremities and choroidal circulation
Polunina A; Gugleta K; Kochkorov A; Katamay R; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2011; 228: 302-305 (IGR: 13-2)

46285 Correlation of optic disc morphology and ocular perfusion parameters in patients with primary open angle glaucoma
Resch H; Schmidl D; Hommer A; Rensch F; Jonas JB; Fuchsjager-Mayrl G; Garhofer G; Vass C; Schmetterer L
Acta Ophthalmologica 2011; (IGR: 13-2)

46258 Short-term effects of acupuncture on open-angle glaucoma in retrobulbar circulation: Additional therapy to standard medication
Seki T; Takayama S; Nakazawa T; Aizawa N; Takahashi S; Watanabe M; Izumi M; Kaneko S; Kamiya T; Matsuda A
Evidence-based Complementary and Alternative Medicine 2011; 2011: 157090 (IGR: 13-2)

45549 Disruption of gap junctions may be involved in impairment of autoregulation in optic nerve head blood flow of diabetic rabbits
Shibata M; Oku H; Sugiyama T; Kobayashi T; Tsujimoto M; Okuno T; Ikeda T
Investigative Ophthalmology and Visual Science 2011; 52: 2153-2159 (IGR: 13-2)

45637 A novel, microscope based, non-invasive laser Doppler flowmeter for choroidal blood flow assessment
Strohmaier C; Werkmeister RM; Bogner B; Runge C; Schroedl F; Brandtner H; Radner W; Schmetterer L; Kiel JW; Grabner G
Experimental Eye Research 2011; 92: 545-551 (IGR: 13-2)

46243 Assessment of blood flow in posterior ciliary arteries and its correlation with intraocular and arterial blood pressures in patients with open angle glaucoma
Waliszek-Iwanicka A; Waliszek M; Banach M; Rysz J; Gos R
Medical science monitor : international medical journal of experimental and clinical research 2010; 16: CR501-509 (IGR: 13-2)

45987 24-hour intraocular pressure fluctuation monitoring using an ocular telemetry sensor: Tolerability and functionality in healthy subjects
de Smedt S; Mermoud A; Schnyder C
Journal of Glaucoma 2011; (IGR: 13-2)

46141 Vascular risk factors in glaucoma: A review
Yanagi M; Kawasaki R; Wang JJ; Wong TY; Crowston J; Kiuchi Y
Clinical and Experimental Ophthalmology 2011; 39: 252-258 (IGR: 13-2)

45882 A marked fall in nocturnal blood pressure is associated with the stage of primary open-angle glaucoma in patients with arterial hypertension
Krasinska B; Karolczak-Kulesza M; Krasinski Z; Pawlaczyk-Gabriel K; Niklas A; Gluszek J; Tykarski A
Blood Pressure 2011; 20: 171-181 (IGR: 13-2)

45820 Comorbidities in cluster headache and migraine
Zidverc-Trajkovic JJ; Pekmezovic TD; Sundic AL; Radojicic AP; Sternic NM
Acta Neurologica Belgica 2011; 111: 50-55 (IGR: 13-2)

45862 Evaluation of the effect of bimatoprost/timolol fixed combination on ocular blood flow in patients with ocular hypertension using colour Doppler imaging. Preliminary study
Garcia-Perez JL; Puerto-Hernandez B; Rebolleda Fernandez G; Munoz-Negrete FJ; Gonzalez-Gordaliza C
Archivos de la Sociedad Española de Oftalmologia 2010; 85: 131-137 (IGR: 13-2)

45690 Magnetotherapy designed to affect cervical sympathetic ganglia for the treatment of patients with primary open-angle glaucoma
Veselova EV; Kamenskikh TG; Raigorodkii IM; Kolbenev IO; Myshkina ES
Voprosy kurortologii, fizioterapii, i lechebnoĭ fizicheskoĭ kultury 2010; 21-24 (IGR: 13-2)

27895 Genistein blunts the negative effect of ischaemia to the retina caused by an elevation of intraocular pressure
Kamalden TA; Ji D; Fawcett RJ; Osborne NN
Ophthalmic Research 2011; 45: 65-72 (IGR: 13-1)

27742 Comparing retinal reflectance changes elicited by transcorneal electrical retinal stimulation with those of optic chiasma stimulation in cats
Mihashi T; Okawa Y; Miyoshi T; Kitaguchi Y; Hirohara Y; Fujikado T
Japanese Journal of Ophthalmology 2011; 55: 49-56 (IGR: 13-1)

27693 Ciliary blood flow and aqueous humor production
Kiel JW; Hollingsworth M; Rao R; Chen M; Reitsamer HA
Progress in Retinal and Eye Research 2011; 30: 1-17 (IGR: 13-1)

28233 Basic technique and anatomically imposed limitations of confocal scanning laser Doppler flowmetry at the optic nerve head level
Sehi M
Acta Ophthalmologica 2011; 89: 1-11 (IGR: 13-1)

27960 Effect of avosentan (SPP-301) in porcine ciliary arteries
Konieczka K; Meyer P; Schoetzau A; Neutzner A; Mozaffarieh M; Flammer J
Current Eye Research 2011; 36: 118-124 (IGR: 13-1)

28226 Advances in the understanding of ocular blood flow in glaucoma
Shoshani YZ; Harris A; Siesky BA
Expert Review of Ophthalmology 2010; 5: 189-200 (IGR: 13-1)

27728 In Vivo Measurement of Blood Velocity in Human Major Retinal Vessels Using the Laser Speckle Method
Nagahara M; Tamaki Y; Tomidokoro A; Araie M
Investigative Ophthalmology and Visual Science 2011; 52: 87-92 (IGR: 13-1)

27697 Dynamic association between intraocular pressure and spontaneous pulsations of retinal veins
Golzan SM; Graham SL; Leaney J; Avolio A
Current Eye Research 2011; 36: 53-59 (IGR: 13-1)

27746 Morphometric Characteristics of Central Retinal Artery and Vein Endothelium in the Normal Human Optic Nerve Head
KangMH; Balaratnasingam C; Yu PK; Morgan WH; McAllister IL; Cringle SJ; Yu DY
Investigative Ophthalmology and Visual Science 2011; 52: 1359-1367 (IGR: 13-1)

27750 The Relationship between Retinal Arteriolar and Venular Calibers Is Genetically Mediated, and Each Is Associated with Risk of Cardiovascular Disease
Fahy SJ; Sun C; Zhu G; Healey PR; Spector TD; Martin NG; Mitchell P; Wong TY; Mackey DA; Hammond CJ
Investigative Ophthalmology and Visual Science 2011; 52: 975-981 (IGR: 13-1)

27754 Pilot Study of Optical Coherence Tomography Measurement of Retinal Blood Flow in Retinal and Optic Nerve Diseases
Wang Y; Fawzi AA; Varma R; Sadun AA; Zhang X; Tan O; Izatt JA; Huang D
Investigative Ophthalmology and Visual Science 2011; 52: 840-845 (IGR: 13-1)

27914 Intraocular pressure and ocular perfusion pressure in myopes during 21 min head-down rest
Xu X; Li L; Cao R; Tao YE; Guo Q; Geng J; Li Y; Zhang Z
Aviation Space and Environmental Medicine 2010; 81: 418-422 (IGR: 13-1)

27776 Characteristics of visual field progression in medically treated normal-tension glaucoma patients with unstable ocular perfusion pressure
Sung KR; Cho JW; Lee S; Yun SC; Choi J; Na JH; Lee Y; Kook MS
Investigative Ophthalmology and Visual Science 2011; 52: 737-743 (IGR: 13-1)

28234 Intraocular pressure and ocular hemodynamics in patients with primary open-angle glaucoma treated with the combination of morning dosing of bimatoprost and dorzolamide hydrochloride
Stankiewicz A; Misiuk-Hoja o M; Grabska-Liberek I; Romanowska-Dixon B; Wierzbowska J; Wasyluk J; Mulak M; Szuacik I; Sierdziaski J; Ehrlich R
Acta Ophthalmologica 2011; 89: 57-63 (IGR: 13-1)

27737 Effects of Fasudil, a Rho-Associated Protein Kinase Inhibitor, on Optic Nerve Head Blood Flow in Rabbits
Sugiyama T; Shibata M; Kajiura S; Okuno T; Tonari M; Oku H; IkedaT
Investigative Ophthalmology and Visual Science 2011; 52: 64-69 (IGR: 13-1)

26944 Optic disc area and correlation with central corneal thickness, corneal hysteresis and ocular pulse amplitude in glaucoma patients and controls.
E Insull; S Nicholas; GS Ang; A Poostchi; K Chan; A Wells
Clinical and Experimental Ophthalmology 2010; 38: 839-844 (IGR: 12-4)

27431 Influence of ocular pulse amplitude on ocular response analyzer measurements
Xu G; Chiu Lam DS; Leung C
Journal of Glaucoma 2010; (IGR: 12-4)

27434 Vascular reactivity of optic nerve head and retinal blood vessels in glaucoma-A review
Venkataraman ST; Flanagan JG; Hudson C
Microcirculation 2010; 17: 568-581 (IGR: 12-4)

27072 Ocular blood flow measurements in healthy human myopic eyes.
Benavente-Pérez A; Hosking SL; Logan NS; Broadway DC
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1587-1594 (IGR: 12-4)

27045 Use of laser speckle flowgraphy in ocular blood flow research.
Sugiyama T; Araie M; Riva CE; Schmetterer L; Orgul S
Acta Ophthalmologica 2010; 88: 723-729 (IGR: 12-4)

27027 Effects of prostaglandin F(2α) analogues on endothelin-1-induced impairment of rabbit ocular blood flow: comparison among tafluprost, travoprost, and latanoprost.
Kurashima H; Watabe H; Sato N; Abe S; Ishida N; Yoshitomi T
Experimental Eye Research 2010; 91: 853-859 (IGR: 12-4)

27079 Retrobulbar blood flow velocities in open angle glaucoma and their association with mean arterial blood pressure.
Garhöfer G; Fuchsjäger-Mayrl G; Vass C; Pemp B; Hommer A; Schmetterer L
Investigative Ophthalmology and Visual Science 2010; 51: 6652-6657 (IGR: 12-4)

27114 Feasibility of creating a normative database of colour Doppler imaging parameters in glaucomatous eyes and controls
Rusia D; Harris A; Pernic A; Williamson KM; Moss AM; Shoshani YZ; Siesky B
British Journal of Ophthalmology 2010; (IGR: 12-4)

27075 Contact lens dynamometry: the influence of age.
Stodtmeister R; Oppitz T; Spoerl E; Haustein M; Boehm AG
Investigative Ophthalmology and Visual Science 2010; 51: 6620-6624 (IGR: 12-4)

27520 Assessment of blood flow in posterior ciliary arteries and its correlation with intraocular and arterial blood pressures in patients with open angle glaucoma
Waliszek-Iwanicka A; Waliszek M; Banach M; Rysz J; Gos R
Medical Science Monitor 2010; 16: CR501-CR509 (IGR: 12-4)

27044 A study comparing ocular pressure pulse and ocular fundus pulse in dependence of axial eye length and ocular volume.
Berisha F; Findl O; Lasta M; Kiss B; Schmetterer L
Acta Ophthalmologica 2010; 88: 766-772 (IGR: 12-4)

26987 ATP-induced relaxation of porcine retinal arterioles in vitro depends on prostaglandin E synthesized in the perivascular retinal tissue.
Holmgaard K; Bek T
Investigative Ophthalmology and Visual Science 2010; 51: 5168-5175 (IGR: 12-4)

27430 Repeatability of retrobulbar blood flow velocity measured using color doppler imaging in the indianapolis glaucoma progression study
Ehrlich R; Harris A; Siesky BA; Moss AM; Ramanathan M; Pickett MA; WuDunn D; Hawkes M; Shoshani YZ
Journal of Glaucoma 2010; (IGR: 12-4)

26979 Continuous retinal vessel diameter measurements: the future in retinal vessel assessment?
Heitmar R; Blann AD; Cubbidge RP; Lip GY; Gherghel D
Investigative Ophthalmology and Visual Science 2010; 51: 5833-5839 (IGR: 12-4)

27046 Use of the retinal vessel analyzer in ocular blood flow research.
Garhofer G; Bek T; Boehm AG; Gherghel D; Grunwald J; Jeppesen P; Kergoat H; Kotliar K; Lanzl I; Lovasik JV
Acta Ophthalmologica 2010; 88: 717-722 (IGR: 12-4)

27550 Assessment of blood flow in posterior ciliary arteries and its correlation with intraocular and arterial blood pressures in patients with open angle glaucoma
Waliszek-Iwanicka A; Waliszek M; Banach M; Rysz J; Gos R
Case Reports and Clinical Practice Review 2010; 16: CR501-CR509 (IGR: 12-4)

27110 The additive effect of dorzolamide hydrochloride (Trusopt) and a morning dose of bimatoprost (Lumigan) on intraocular pressure and retrobulbar blood flow in patients with primary open-angle glaucoma
Stankiewicz A; Wierzbowska J; Siemiatkowska A; Fuksinska B; Robaszkiewicz J; Zegadlo A; Ehrlich R; Siesky B; Harris A
British Journal of Ophthalmology 2010; 94: 1307-1311 (IGR: 12-4)

27041 Influence of gender and menopausal status on peripheral and choroidal circulation.
Kavroulaki D; Gugleta K; Kochkorov A; Katamay R; Flammer J; Orgul S
Acta Ophthalmologica 2010; 88: 850-853 (IGR: 12-4)

27049 Histomorphometry of the circular peripapillary arterial ring of Zinn-Haller in normal eyes and eyes with secondary angle-closure glaucoma.
Jonas JB; Jonas SB
Acta Ophthalmologica 2010; 88: 317-322 (IGR: 12-4)

27548 Transient cardiac ischaemia and abnormal variations in systemic blood pressure in unselected primary open angle glaucoma patients
Gherghel D; Hosking SL; Cunliffe IA; Heitmar R
Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians 2010; 30: 175-181 (IGR: 12-4)

27159 Peculiarities of systemic on regional circulatory dynamics at a pseudoexfoliative syndrome and pseudoexfoliative glaucoma (review of literature)
Brezhnev AI; Kuroedov AV; Aleksandrov AS
Voenno-meditsinskiĭ zhurnal 2010; 331: 29-33 (IGR: 12-4)

27260 Pseudoexfoliation syndrome and glaucoma
Blagoeva H; Balabanov Ch; Petrov D
Acta Medica Bulgarica 2010; 37: 12-21 (IGR: 12-4)

27468 Postoperative cilioretinal artery occlusion in Sturge Weber-associated glaucoma
Chang L; Mruthyunjaya P; Rodriguez-Rosa RE; Freedman SF
Journal of AAPOS 2010; 14: 358-360 (IGR: 12-4)

27492 Mirtogenol((registered trademark)) potentiates latanoprost in lowering intraocular pressure and improves ocular blood flow in asymptomatic subjects
Steigerwalt Jr RD; Belcaro G; Morazzoni P; Bombardelli E; Burki C; Schonlau F
Clinical Ophthalmology 2010; 4: 471-476 (IGR: 12-4)

26390 Retinal tissue oxygen tension imaging in the rat
Shahidi M; Wanek J; Blair NP; Little DM; Wu T
Investigative Ophthalmology and Visual Science 2010; 51: 4766-4770 (IGR: 12-3)

26797 Effects of topical phenylephrine and tafluprost on optic nerve head circulation in monkeys with unilateral experimental glaucoma
Mayama C; Ishii K; Saeki T; Ota T; Tomidokoro A; Araie M
Investigative Ophthalmology and Visual Science 2010; 51: 4117-4124 (IGR: 12-3)

26339 Ocular blood flow assessment using continuous laser Doppler flowmetry
Riva CE; Geiser M; Petrig BL; for the Ocular Blood Flow Research Association
Acta Ophthalmologica 2010; 88: 622-629 (IGR: 12-3)

26365 Development of a novel instrument to measure the pulsatile movement of ocular tissues
Singh K; Dion C; Costantino S; Wajszilber M; Lesk MR; Ozaki T
Experimental Eye Research 2010; 91: 63-68 (IGR: 12-3)

26366 Voltage-gated calcium channels are involved in the regulation of calcium oscillations in vascular smooth muscle cells from isolated porcine retinal arterioles
Misfeldt MW; Aalkjaer C; Simonsen U; Bek T
Experimental Eye Research 2010; 91: 69-75 (IGR: 12-3)

26312 Autonomic dysfunction in normal tension glaucoma: the short-term heart rate variability analysis
Na KS; Lee NY; Park SH; Park CK
Journal of Glaucoma 2010; 19: 377-381 (IGR: 12-3)

26794 Distribution of ocular perfusion pressure and its relationship with open-angle glaucoma: the singapore malay eye study
Zheng Y; Wong TY; Mitchell P; Friedman DS; He M; Aung T
Investigative Ophthalmology and Visual Science 2010; 51: 3399-3404 (IGR: 12-3)

26576 Altered temporal peripapillary retinal flow in patients with disc hemorrhages
Kurvinen L; Harju M; Saari J; Vesti E
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1771-1775 (IGR: 12-3)

26806 Relationship of retinal vascular tortuosity with the neuroretinal rim: the singapore malay eye study
Koh V; Cheung CY; Zheng Y; Wong TY; Wong W; Aung T
Investigative Ophthalmology and Visual Science 2010; 51: 3736-3741 (IGR: 12-3)

26426 Role of haematological testing: ratio values of circulating platelet aggregates in visual field loss associated with pseudoexfoliation glaucoma
Rogosic V; Bojic L; Karaman K; Vanjaka RL; Titlic M; Plestina-Borijan I; Miljak S; Poljak K; Duplancic D
Bratisl Lek Listy 2010; 111: 325-328 (IGR: 12-3)

26518 Clinical features of hypoperfusion retinopathy complicating neovascular glaucoma
Zhou B; Wei S
Neuro-Ophthalmology 2010; 34: 279 (IGR: 12-3)

25792 Effects of static pressure on the expression of ET-1 and NO in cultured retinal microvascular endothelial cells
Guo B; Wang Y; Niu C; Hui Y; Fan Q
Chinese Ophthalmic Research 2010; 28: 140-144 (IGR: 12-2)

25758 Hypoxia Inducible Factor-1(alpha) (HIF-1(alpha)) and Some HIF-1 Target Genes are Elevated in Experimental Glaucoma
Ergorul C; Ray A; Huang W; Wang DY; Ben Y; Cantuti-Castelvetri I; Grosskreutz CL
Journal of Molecular Neuroscience 2010; 1-9 (IGR: 12-2)

26096 Time-dependent effects of focal retinal ischemia on axonal cytoskeleton proteins
Balaratnasingam C; Morgan WH; Bass L; Kang M; Cringle SJ; Yu DY
Investigative Ophthalmology and Visual Science 2010; 51: 3019-3028 (IGR: 12-2)

26220 Test-retest variability of intraocular pressure and ocular pulse amplitude for dynamic contour tonometry: a multicentre study
Fogagnolo P; Figus M; Frezzotti P; Iester M; Oddone F; Zeppieri M; Ferreras A; Brusini P; Rossetti L; Orzalesi N
British Journal of Ophthalmology 2010; 94: 419-423 (IGR: 12-2)

26205 Blood pressure, perfusion pressure, and glaucoma
Caprioli J; Coleman AL; Blood Flow in Glaucoma Discussion
American Journal of Ophthalmology 2010; 149: 704-712 (IGR: 12-2)

26141 Association of visual field severity and parapapillary retinal blood flow in open-angle glaucoma
Deokule S; Vizzeri G; Boehm A; Bowd C; Weinreb RN
Journal of Glaucoma 2010; 19: 293-298 (IGR: 12-2)

26097 Postmenopausal hormone therapy increases retinal blood flow and protects the retinal nerve fiber layer
Deschênes MC; Descovich D; Moreau M; Granger L; Kuchel GA; Mikkola TS; Fick GH; Chemtob S; Vaucher E; Lesk MR
Investigative Ophthalmology and Visual Science 2010; 51: 2587-2600 (IGR: 12-2)

25678 Diagnosis of circulatory disorders in the optic nerve in primary open-angle glaucoma. Communication 1. The circulatory system in the orbital portion of the optic nerve and its anatomic and topographic features
Kharlap SI; Kozlova IV
Vestnik Oftalmologii 2009; 125: 55-59 (IGR: 12-2)

25677 Diagnosis of circulatory disorders in the optic nerve in primary open-angle glaucoma. Communication 2. New technologies for the imaging and evaluation of the circulatory system in the optic nerve head
Kharlap SI; Kozlova IV; Vashkulatova EA
Vestnik Oftalmologii 2009; 125: 59-64 (IGR: 12-2)

26249 Short-term variability of systemic blood pressure and submacular choroidal blood flow in eyes of patients with primary open-angle glaucoma
Kochkorov A; Gugleta K; Katamay R; Flammer J; Orgul S
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 833-837 (IGR: 12-2)

26116 Blood pressure, perfusion pressure, and open-angle glaucoma: the Los Angeles Latino Eye Study
Memarzadeh F; Ying-Lai M; Chung J; Azen SP; Varma R; Los Angeles Latino Eye Study Group
Investigative Ophthalmology and Visual Science 2010; 51: 2872-2877 (IGR: 12-2)

25882 Update and critical appraisal of combined timolol and carbonic anhydrase inhibitors and the effect on ocular blood flow in glaucoma patients
Moss AM; Harris A; Siesky B; Rusia D; Williamson KM; Shoshani Y
Clinical Ophthalmology 2010; 4: 233-241 (IGR: 12-2)

25749 Relationships between glaucoma, arterial stiffness and inflammatory process
Siasou G; Tousoulis D; Moschos M; Siasos G; Gialafos E; Oikonomou E; Plastiras A; Zaromitidou M; Zisimos K; Verveniotis A
Journal of the American College of Cardiology 2010; 55: A159.E1494. (IGR: 12-2)

26188 Differential changes of local blood supply in rat retinae are involved in the selective loss of retinal ganglion cells following the acute high intraocular pressure
Tong JB; Chen D; Zeng LP; Mo XY; Wang H; Huang J; Luo XG
Current Eye Research 2010; 35: 425-434 (IGR: 12-2)

26164 Retinal arteriolar vascular reactivity in untreated and progressive primary open-angle glaucoma
Venkataraman ST; Hudson C; Rachmiel R; Buys YM; Markowitz SN; Fisher JA; Trope GE; Flanagan JG
Investigative Ophthalmology and Visual Science 2010; 51: 2043-2050 (IGR: 12-2)

25958 Correlation of cardiovascular diseases and risk factors with severity of glaucoma at presentation
Tham CCY; Baig N; Lam DSC
European Heart Journal, Supplement 2010; 12: S34 (IGR: 12-2)

25165 Experimental model of ocular hypertension in the rat: study of the optic nerve capillaries and action of hypotensive drugs
Díaz F; Villena A; Vidal L; Moreno M; García-Campos J; Pérez de Vargas I
Investigative Ophthalmology and Visual Science 2010; 51: 946-951 (IGR: 12-1)

25213 Spatiotemporal characterization of optic nerve degeneration after chronic hypoperfusion in the rat
Chidlow G; Holman MC; Wood JP; Casson RJ
Investigative Ophthalmology and Visual Science 2010; 51: 1483-1497 (IGR: 12-1)

25054 Quantification of dynamic blood flow autoregulation in optic nerve head of rhesus monkeys
Liang Y; Fortune B; Cull G; Cioffi GA; Wang L
Experimental Eye Research 2010; 90: 203-209 (IGR: 12-1)

25632 Changes in intraocular pressure and ocular pulse amplitude with accommodation
Read SA; Collins MJ; Becker H; Cutting J; Ross D; Savill AK; Trevor B
British Journal of Ophthalmology 2010; 94: 332-335 (IGR: 12-1)

25269 Loss of retinal capillary vasoconstrictor response to Endothelin-1 following pressure increments in living isolated rat retinas
Rigosi E; Ensini M; Bottari D; Leone P; Galli-Resta L
Experimental Eye Research 2010; 90: 33-40 (IGR: 12-1)

25185 The effect of trabeculectomy on ocular pulse amplitude
Breusegem C; Fieuws S; Zeyen T; Stalmans I
Investigative Ophthalmology and Visual Science 2010; 51: 231-235 (IGR: 12-1)

25615 Ocular blood flow and oxygen delivery to the retina in primary open-angle glaucoma patients: The addition of dorzolamide to timolol monotherapy
Siesky B; Harris A; Kagemann L; Stefansson E; McCranor L; Miller B; Bwatwa J; Regev G; Ehrlich R
Acta Ophthalmologica 2010; 88: 142-149 (IGR: 12-1)

25432 Vasospastic individuals demonstrate significant similarity to glaucoma patients as revealed by gene expression profiling in circulating leukocytes.
Yeghiazaryan K; Flammer J; Orgul S; Wunderlich K; Golubnitschaja O
Molecular Vision 2009; 15: 2339-2348 (IGR: 12-1)

25218 Noninvasive visualization and analysis of parafoveal capillaries in humans
Tam J; Martin JA; Roorda A
Investigative Ophthalmology and Visual Science 2010; 51: 1691-1698 (IGR: 12-1)

25596 Reduced endothelial progenitor cells and brachial artery flow-mediated dilation as evidence of endothelial dysfunction in ocular hypertension and primary open-angle glaucoma
Fadini G P; Pagano C; Baesso I; Kotsafti O; Doro D; De Kreutzenberg S V; Avogaro A; Agostini C; Dorigo M T
Acta Ophthalmologica 2010; 88: 135-141 (IGR: 12-1)

25065 New Patterns of Retinal Collateral Circulation are Exposed by the Retinal Functional Imager (RFI)
Landa G; Rosen RB
British Journal of Ophthalmology 2010; 94: 54-58 (IGR: 12-1)

25289 Ocular Ischemic Syndrome
Mendrinos E; Machinis T G; Pournaras C J
Survey of Ophthalmology 2010; 55: 2-34 (IGR: 12-1)

25408 Correlation between ocular pulse amplitude and color Doppler flow imaging of the retro bulbar vessels in glaucoma
Mirkovic M; Marjanovic I; Mijajlovic M
Cerebrovascular Diseases 2009; 27: 13 (IGR: 12-1)

25294 Comparative hemodynamic characteristics of patients with the organ of vision subjected to low-intensity laser radiation of the green and red wavelengths
Kamenskikh T G; Raigorodskii I M; Kolbenev O I; Galanzha A; Orlova A S; Kamenskikh I D
Voprosy kurortologii, fizioterapii, i lechebnoĭ fizicheskoĭ kultury 2009; 6: 27-29 (IGR: 12-1)

25215 Effect of acute increase in blood pressure on intraocular pressure in pigs and humans
Castejon H; Chiquet C; Savy O; Baguet JP; Khayi H; Tamisier R; Bourdon L; Romanet JP
Investigative Ophthalmology and Visual Science 2010; 51: 1599-1605 (IGR: 12-1)

25045 Blood velocity measurement in the posterior segment of the rabbit eye using combined spectral Doppler and power Doppler ultrasound
Abdallah W; Fawzi A; Patel H; Dagliyan G; Matsuoka N; Grant E; Humayun M
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 93-101 (IGR: 12-1)

25538 Does stellate ganglion block effects intraocular and ocular perfusion pressures?
Ergin A; Dere K; Orhan M E; Uysal Y
Journal of Chinese Clinical Medicine 2009; 4: 626-629 (IGR: 12-1)

25202 The effect of oral magnesium therapy on visual field and ocular blood flow in normotensive glaucoma
Aydin B; Onol M; Hondur A; Kaya MG; Ozdemir H; Cengel A; Hasanreisoglu B
European Journal of Ophthalmology 2010; 20: 131-135 (IGR: 12-1)

25203 Relationship between optic nerve head and finger blood flow
Mozaffarieh M; Osusky R; Schotzau A; Flammer J
European Journal of Ophthalmology 2010; 20: 136-141 (IGR: 12-1)

25563 Vasospasm factor in glaucoma progress
Xu D -F; Deng R -Z; Feng W -Y; Yang X -C; Zhu Y
International Journal of Ophthalmology 2009; 9: 2360-2362 (IGR: 12-1)

25325 Association of glaucoma with central blood pressure waveform parameters
Butlin M; Qasem A; Graham S L; Avolio A P
Hypertension 2009; 53: 1100 (IGR: 12-1)

25374 Evaluation of related factors associated with a severe reduction in intraocular pressure during cardiovascular surgery with cardiopulmonary bypass
Hasuwa K; Hayashi H; Kawaguchi M; Yoshitani K; Furuya H
Journal of Neurosurgical-Anesthesiology 2009; 21: 417-418 (IGR: 12-1)

24936 Relationship between retinal structures and retinal vessel caliber in normal adolescents
Samarawickrama C; Huynh SC; Wang JJ; Pai A; Joachim N; Burlutsky G; Wong TY; Mitchell P
Investigative Ophthalmology and Visual Science 2009; 50: 5619-5624 (IGR: 11-4)

24823 Cholinergic responses of ophthalmic arteries in M3 and M5 muscarinic acetylcholine receptor knockout mice
Gericke A; Mayer VG; Steege A; Patzak A; Neumann U; Grus FH; Joachim SC; Choritz L; Wess J; Pfeiffer N
Investigative Ophthalmology and Visual Science 2009; 50: 4822-4827 (IGR: 11-4)

24843 Effects of inhibition of neuronal nitric oxide synthase on basal retinal blood flow regulation
Tummala SR; Benac S; Tran H; Vankawala A; Zayas-Santiago A; Appel A; Derwent JJ
Experimental Eye Research 2009; 89: 801-809 (IGR: 11-4)

24979 Red blood cell plasmalogens and docosahexaenoic acid are independently reduced in primary open-angle glaucoma
Acar N; Berdeaux O; Juaneda P; Grégoire S; Cabaret S; Joffre C; Creuzot-Garcher CP; Bretillon L; Bron AM
Experimental Eye Research 2009; 89: 840-853 (IGR: 11-4)

24917 Quantitative and regional measurement of retinal blood flow in rats using N-isopropyl-p-[14C]-iodoamphetamine ([14C]-IMP)
Pouliot M; Deschênes MC; Hétu S; Chemtob S; Lesk MR; Couture R; Vaucher E
Experimental Eye Research 2009; 89: 960-966 (IGR: 11-4)

24990 Scanning laser polarimetry with variable corneal compensation in migraine patients
Martinez A; Proupim N; Sanchez M
Acta Ophthalmologica 2009; 87: 746-753 (IGR: 11-4)

24801 Blood pressure and glaucoma
Costa VP; Arcieri ES; Harris A
British Journal of Ophthalmology 2009; 93: 1276-1282 (IGR: 11-4)

24824 The relationship between retinal vascular reactivity and arteriolar diameter in response to metabolic provocation
Tayyari F; Venkataraman ST; Gilmore ED; Wong T; Fisher J; Hudson C
Investigative Ophthalmology and Visual Science 2009; 50: 4814-4821 (IGR: 11-4)

24992 Changes in optic nerve head blood flow induced by the combined therapy of latanoprost and beta blockers
Sugiyama T; Kojima S; Ishida O; Ikeda T
Acta Ophthalmologica 2009; 87: 797-800 (IGR: 11-4)

24878 Reproducibility of color Doppler imaging
Stalmans I; Siesky B; Zeyen T; Fieuws S; Harris A
Graefe's Archive for Clinical and Experimental Ophthalmology 2009; 247: 1531-1538 (IGR: 11-4)

24860 Potential diagnostic value of fluorescein angiography and color Doppler imaging in primary open angle glaucoma
Mokbel TH; Shahin MM; El-Said EM; Abd El-Ghaffar WM
European Journal of Ophthalmology 2009; 19: 957-962 (IGR: 11-4)

24978 Effect of aging on retinal circulation in normotensive healthy subjects
Nagaoka T; Sato E; Takahashi A; Sogawa K; Yokota H; Yoshida A
Experimental Eye Research 2009; 89: 887-891 (IGR: 11-4)

24849 Intraocular pressure and superior ophthalmic vein blood flow velocity in Graves' orbitopathy: relation with the clinical features
Konuk O; Onaran Z; Ozhan Oktar S; Yucel C; Unal M
Graefe's Archive for Clinical and Experimental Ophthalmology 2009; 247: 1555-1559 (IGR: 11-4)

24963 Twelve-hour reproducibility of retinal and optic nerve blood flow parameters in healthy individuals
Luksch A; Lasta M; Polak K; Fuchsjäger-Mayr G; Polska E; Garhöfer G; Schmetterer L
Acta Ophthalmologica 2009; 87: 875-880 (IGR: 11-4)

24731 A clinical experimental study on the relationship between primary glaucoma and retinal blood perfusion due to blood viscosity
Li Y-L; Li J-M
International Journal of Ophthalmology 2009; 9: 1435-1438 (IGR: 11-4)

24913 Computational analysis of oxygen transport in the retinal arterial network
Liu D; Wood NB; Witt N; Hughes AD; Thom SA; Xu XY
Current Eye Research 2009; 34: 945-956 (IGR: 11-4)

24633 Acetazolamide influences ocular pulse amplitude
Zinkernagel MS; Ebneter A
Journal of Ocular Pharmacology and Therapeutics 2009; 25: 141-144 (IGR: 11-4)

24923 Neuronal activity influences hemodynamics in the paraoptic short posterior ciliary arteries: a comparison between healthy and glaucomatous subjects
Zeitz O; Mayer J; Hufnagel D; Praga R; Wagenfeld L; Galambos P; Wiermann A; Rebel C; Richard G; Klemm M
Investigative Ophthalmology and Visual Science 2009; 50: 5846-5850 (IGR: 11-4)

24950 Effect of systemic moxaverine on ocular blood flow in humans
Resch H; Weigert G; Karl K; Pemp B; Garhofer G; Schmetterer L
Acta Ophthalmologica 2009; 87: 731-735 (IGR: 11-4)

24918 Functional imaging using the retinal function imager: direct imaging of blood velocity, achieving fluorescein angiography-like images without any contrast agent, qualitative oximetry, and functional metabolic signals
Izhaky D; Nelson DA; Burgansky-Eliash Z; Grinvald A
Japanese Journal of Ophthalmology 2009; 53: 345-351 (IGR: 11-4)

24549 Color doppler imaging of the ophthalmic artery in patients with chronic heart failure
Freitas D; Meira-Freitas D; Iared W; Melo-Jr J; Paranhos-Jr A; Almeida D; Asjzen S
Neuroradiology 2009; 51: S135-S136 (IGR: 11-4)

24788 Visual function, optic nerve structure, and ocular blood flow parameters after 1 year of glaucoma treatment with fixed combinations
Januleviciene I; Ehrlich R; Siesky B; Nedzelskiené I; Harris A
European Journal of Ophthalmology 2009; 9: 790-797 (IGR: 11-4)

24756 Effect of dual endothelin receptor blockade on ocular blood flow in patients with glaucoma and healthy subjects
Garhofer G; Resch H; Wolzt M; Schmetterer L
Basic and Clinical Pharmacology and Toxicology 2009; 105 42 (IGR: 11-4)

24783 Glaucoma filtration surgery and retinal oxygen saturation
Hardarson SH; Gottfredsdottir MS; Halldorsson GH; Karlsson RA; Benediktsson JA; Eysteinsson T; Beach JM; Harris A; Stefansson E
Investigative Ophthalmology and Visual Science 2009; 50: 5247-5250 (IGR: 11-4)

24159 Relationship of retinal vascular caliber with retinal nerve fiber layer thickness: the singapore malay eye study
Zheng Y; Cheung N; Aung T; Mitchell P; He M; Wong TY
Investigative Ophthalmology and Visual Science 2009; 50: 4091-4096 (IGR: 11-3)

24391 Comparison of dynamic contour tonometry and Goldmann applanation tonometry and their relationship to corneal properties, refractive error, and ocular pulse amplitude
Erickson DH; Goodwin D; Rollins M; Belaustegui A; Anderson C
Optometry 2009; 80: 169-174 (IGR: 11-3)

24344 A comparison of the long-term effects of dorzolamide 2% and brinzolamide 1%, each added to timolol 0.5%, on retrobulbar Hemodynamics and Intraocular Pressure in Open-Angle Glaucoma Patients
Martinez A; Sanchez-Salorio M
Journal of Ocular Pharmacology and Therapeutics 2009; 25: 239-248 (IGR: 11-3)

24173 Effects of exercise on intraocular pressure and ocular blood flow: a review
Risner D; Ehrlich R; Kheradiya NS; Siesky B; McCranor L; Harris A
Journal of Glaucoma 2009; 18: 429-436 (IGR: 11-3)

24048 Color Doppler imaging and ocular pulse amplitude in glaucomatous and healthy eyes
Stalmans I; Harris A; Fieuws S; Zeyen T; Vanbellinghen V; McCranor L; Siesky B
European Journal of Ophthalmology 2009; 19: 580-587 (IGR: 11-3)

24219 Minimal compression-load ophthalmoplethysmography in health and in primary open-angle glaucoma
Strakhov VV; Alekseev VV; Korchagin NV
Vestnik Oftalmologii 2009; 125: 34-38 (IGR: 11-3)

24380 How low is recommended to decrease the blood pressure in patients with hypertension, diabetes mellitus and glaucoma?
Olszewski W; Gluszek J
Nadcisnienie Tetnicze 2009; 13: 133-138 (IGR: 11-3)

24051 Dorzolamide-timolol combination and retinal vessel oxygen saturation in patients with glaucoma or ocular hypertension
Traustason S; Hardarson SH; Gottfredsdottir MS; Eysteinsson T; Karlsson RA; Stefánsson E; Harris A
British Journal of Ophthalmology 2009; 93: 1064-1067 (IGR: 11-3)

23936 Impact of systemic blood pressure on the relationship between intraocular pressure and blood flow in the optic nerve head of nonhuman primates
Liang Y; Downs JC; Fortune B; Cull G; Cioffi GA; Wang L
Investigative Ophthalmology and Visual Science 2009; 50: 2154-2160 (IGR: 11-2)

23912 Acute retinal ischemia caused by controlled low ocular perfusion pressure in a porcine model. Electrophysiological and histological characterisation
Kyhn MV; Warfvinge K; Scherfig E; Kiilgaard JF; Prause JU; Klassen H; Young M; la Cour M
Experimental Eye Research 2009; 88: 1100-1106 (IGR: 11-2)

23930 Measuring retinal vessel tortuosity in 10-year-old children: validation of the Computer-Assisted Image Analysis of the Retina (CAIAR) program
Owen CG; Rudnicka AR; Mullen R; Barman SA; Monekosso D; Whincup PH; Ng J; Paterson C
Investigative Ophthalmology and Visual Science 2009; 50: 2004-2010 (IGR: 11-2)

23802 Diurnal fluctuation of ocular blood flow parameters in patients with primary open-angle glaucoma and healthy subjects
Pemp B; Georgopoulos M; Vass C; Fuchsjäger-Mayrl G; Luksch A; Rainer G; Schmetterer L
British Journal of Ophthalmology 2009; 93: 486-491 (IGR: 11-2)

23876 Response of retinal vessel diameter to flicker-light in vasospastics compared to healthy controls
Rickenbacher I; Gugleta K; Zawinka C; Schötzau A; Katamay R; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2009; 226: 305-309 (IGR: 11-2)

23809 The association between retinal vein ophthalmodynamometric force change and optic disc excavation
Morgan WH; Hazelton ML; Balaratnasingamm C; Chan H; House PH; Barry CJ; Cringle SJ; Yu DY
British Journal of Ophthalmology 2009; 93: 594-596 (IGR: 11-2)

23841 Intraocular pressure and calculated diastolic ocular perfusion pressure during three simulated steps of phacoemulsification in vivo
Zhao Y; Li X; Tao A; Wang J; Lu F
Investigative Ophthalmology and Visual Science 2009; 50: 2927-2931 (IGR: 11-2)

23874 Volumetric blood flow measurement in the ophthalmic artery using colour Doppler
Katamay R; Fleischlin C; Gugleta K; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2009; 226: 249-253 (IGR: 11-2)

23459 Hemorheological aspects in the microvasculature of several pathologies
Cicco G; Cicco S
Adv Exp Med Biol 2008; 599:- 7-15 (IGR: 11-2)

23761 Relationship between ocular pulse amplitude and systemic blood pressure measurements
Grieshaber MC; Katamay R; Gugleta K; Kochkorov A; Flammer J; Orgül S
Acta Ophthalmologica 2009; 87: 329-334 (IGR: 11-2)

23927 Topical phenylephrine decreases blood velocity in the optic nerve head and increases resistive index in the retinal arteries
Takayama J; Mayama C; Mishima A; Nagahara M; Tomidokoro A; Araie M
Eye 2009; 23: 827-834 (IGR: 11-2)

23877 Relation of body mass index and blood pressure to subjective and objective acral temperature
Kavroulaki D; Gugleta K; Kochkorov A; Katamay R; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2009; 226: 328-331 (IGR: 11-2)

23821 Interobserver repeatability of heidelberg retinal flowmetry using pixel-by-pixel analysis
Zion IB; Harris A; Moore D; Werne A; Ralstin M; Siesky B; McCranor L; Rospigliosi C; Steinmann W; Katz LJ
Journal of Glaucoma 2009; 18: 280-283 (IGR: 11-2)

23521 Retinal blood flow measurement by circumpapillary Fourier domain Doppler optical coherence tomography
Wang Y; Bower BA; Izatt JA; Tan O; Huang D
Journal of biomedical Optics 2008; 13: 064003 (IGR: 11-2)

23811 Measurement of total blood flow in the normal human retina using Doppler Fourier-domain optical coherence tomography
Wang Y; Lu A; Gil-Flamer J; Tan O; Izatt JA; Huang D
British Journal of Ophthalmology 2009; 93: 634-637 (IGR: 11-2)

23774 Correlation among choroidal, parapapillary, and retrobulbar vascular parameters in glaucoma
Deokule S; Vizzeri G; Boehm AG; Bowd C; Medeiros FA; Weinreb RN
American Journal of Ophthalmology 2009; 147: 736-743 (IGR: 11-2)

23674 Pulsatility of parafoveal capillary leukocytes
Martin JA; Roorda A
Experimental Eye Research 2009; 88: 356-360 (IGR: 11-2)

23497 Vascular risk factors in glaucoma - diagnostics
Gugleta K
Schweizerische Rundschau fur Medizin - Praxis 2009; 98: 201-207 (IGR: 11-2)

23635 Clinical significance of ocular ischemia disease on predicted the happening of carotid stenosis
Zhao J; Hu L-N; Wei S-H
International Journal of Ophthalmology 2009; 9: 361-362 (IGR: 11-2)

23812 Retrobulbar haemodynamics and carotid wall thickness in patients with non-arteritic anterior ischaemic optic neuropathy
Sanjari MS; Falavarjani KG; Mehrabani M; Ghiasian L; Zamani B
British Journal of Ophthalmology 2009; 93: 638-640 (IGR: 11-2)

23750 Effect of unoprostone on topographic and blood flow changes in the ischemic optic nerve head of rabbits
Sugiyama T; Mashima Y; Yoshioka Y; Oku H; Ikeda T
Archives of Ophthalmology 2009; 127: 454-459 (IGR: 11-2)

23935 Effects of dorzolamide on choroidal blood flow, ciliary blood flow, and aqueous production in rabbits
Reitsamer HA; Bogner B; Tockner B; Kiel JW
Investigative Ophthalmology and Visual Science 2009; 50: 2301-2307 (IGR: 11-2)

22510 Endothelial dysfunction in glaucoma
Resch H; Garhofer G; Fuchsjäger-Mayrl G; Hommer A; Schmetterer L
Acta Ophthalmologica 2009; 87: 4-12 (IGR: 11-1)

22778 Study on the influence of the treatment with some newly synthesized antiglaucoma prostamides on the hematological parameters on rats
Udeanu DI; Mihele D; Cocu F; Caraene G; Vulturescu V; Iova D
Farmacia 2008; 56: 669-674 (IGR: 11-1)

22691 The vasodilating effect of acetazolamide and dorzolamide involves mechanisms other than carbonic anhydrase inhibition
Torring MS; Holmgaard K; Hessellund A; Aalkjaer C; Bek T
Investigative Ophthalmology and Visual Science 2009; 50: 345-351 (IGR: 11-1)

22583 Relationship of intraocular pulse pressure and spontaneous venous pulsations
Donnelly SJ; Subramanian PS
American Journal of Ophthalmology 2009; 147: 51-55 (IGR: 11-1)

22779 An updated review of methods for human retinal oximetry measurements and current applications
Ben-Zion I; Harris A; Weizman Y; Ehrlich R; Rechtman E
Harefuah 2008; 147: 812-817 (IGR: 11-1)

22693 Effect of dual endothelin receptor blockade on ocular blood flow in patients with glaucoma and healthy subjects
Resch H; Karl K; Weigert G; Wolzt M; Hommer A; Schmetterer L; Garhöfer G
Investigative Ophthalmology and Visual Science 2009; 50: 358-363 (IGR: 11-1)

22695 Role of NO in the control of choroidal blood flow during a decrease in ocular perfusion pressure
Simader C; Lung S; Weigert G; Kolodjaschna J; Fuchsjäger-Mayrl G; Schmetterer L; Polska E
Investigative Ophthalmology and Visual Science 2009; 50: 372-377 (IGR: 11-1)

22703 Ca²⁺-activated Cl^- current in retinal arteriolar smooth muscle
McGahon MK; Needham MA; Scholfield CN; McGeown JG; Curtis TM
Investigative Ophthalmology and Visual Science 2009; 50: 364-371 (IGR: 11-1)

22511 Ocular perfusion pressure and glaucoma: clinical trial and epidemiologic findings
Leske MC
Current Opinions in Ophthalmology 2009; 20: 73-78 (IGR: 11-1)

22816 Effect of vasoactive drugs on visual functions and ocular hemodynamics in patients with primary open-angle glaucoma
Makashova NV; Kiseleva TN; Ronzina IA; Vasil'eva AE
Vestnik Oftalmologii 2008; 124: 55-59 (IGR: 11-1)

22539 Validation of spectral domain optical coherence tomographic Doppler shifts using an in vitro flow model
Kagemann L; Wollstein G; Ishikawa H; Townsend KA; Schuman JS
Investigative Ophthalmology and Visual Science 2009; 50: 702-706 (IGR: 11-1)

22810 Role of active and passive modulations of ocular microcirculation in altering the morphometric parameters of the optic disk in primary glaucoma
Bakshinskii PP; Kuroedov AV; Shamshinova AM
Vestnik Oftalmologii 2008; 124: 35-39 (IGR: 11-1)

22708 Three-dimensional mapping of chorioretinal vascular oxygen tension in the rat
Shahidi M; Wanek J; Blair NP; Mori M
Investigative Ophthalmology and Visual Science 2009; 50: 820-825 (IGR: 11-1)

22553 Strategies for reducing variance in laser Doppler flowmetry measurements
Pemp B; Maar N; Weigert G; Luksch A; Resch H; Garhofer G; Orgul S; Schmetterer L
Graefe's Archive for Clinical and Experimental Ophthalmology 2009; 247: 67-71 (IGR: 11-1)

22503 Performance of colour Doppler imaging discriminating normal tension glaucoma from healthy eyes
Plange N; Kaup M; Weber A; Harris A; Arend KO; Remky A
Eye 2009; 23: 164-170 (IGR: 11-1)

22688 Effect of systemic nitric oxide synthase inhibition on optic disc oxygen partial pressure in normoxia and in hypercapnia
Petropoulos IK; Pournaras JA; Stangos AN; Pournaras CJ
Investigative Ophthalmology and Visual Science 2009; 50: 378-384 (IGR: 11-1)

23380 Ocular perfusion pressure and glaucoma: the Beijing Eye Study
Xu L; Wang YX; Jonas JB
Eye 2009; 23: 734-736 (IGR: 11-1)

23394 Frequency of spontaneous pulsations of the central retinal vein in glaucoma
Legler U; Jonas JB
Journal of Glaucoma 2009; 18: 210-212 (IGR: 11-1)

22527 Choroidal expansion during the water drinking test
Vasconcelos De Moraes CG; Castro Reis AS; de Sá Cavalcante AF; Sano ME; Susanna R Jr
Graefe's Archive for Clinical and Experimental Ophthalmology 2009; 247: 385-389 (IGR: 11-1)

22617 Blood flow in the peripapillary retina in exfoliation glaucoma
Harju M; Kurvinen L; Saari J; Vesti E
Clinical and Experimental Ophthalmology 2008; 36: 738-743 (IGR: 11-1)

22540 Orbital blood flow parameters in unilateral pseudoexfoliation syndrome
Dayanir V; Topaloğlu A; Ozsunar Y; Keceli M; Okyay P; Harris A
International Ophthalmology 2009; 29: 27-32 (IGR: 11-1)

22649 Prevalence of nocturnal oxygen desaturation and self-reported sleep-disordered breathing in glaucoma
Roberts TV; Hodge C; Graham SL; Burlutsky G; Mitchell P
Journal of Glaucoma 2009; 18: 114-118 (IGR: 11-1)

22530 The effect of latanoprost on ocular blood flow
Harris A; Garzozi HJ; McCranor L; Rechtman E; Yung CW; Siesky B
International Ophthalmology 2009; 29: 19-26 (IGR: 11-1)

22668 Literature review and meta-analysis of topical carbonic anhydrase inhibitors and ocular blood flow
Siesky B; Harris A; Brizendine E; Marques C; Loh J; Mackey J; Overton J; Netland P
Survey of Ophthalmology 2009; 54: 33-46 (IGR: 11-1)

21790 Estimation of ocular rigidity based on measurement of pulse amplitude using pneumotonometry and fundus pulse using laser interferometry in glaucoma
Hommer A; Fuchsjäger-Mayrl G; Resch H; Vass C; Garhofer G; Schmetterer L
Investigative Ophthalmology and Visual Science 2008; 49: 4046-4050 (IGR: 10-3)

21530 Mechanical environment of the optic nerve head in glaucoma
Downs JC; Roberts MD; Burgoyne CF
Optometry and Vision Science 2008; 85: 425-435 (IGR: 10-3)

21428 Change of the hydro- and hemodynamic parameters following a surgical treatment of glaucoma and cataract
Karimov KT; Hajiyeva SA; Mammadzadeh AN; Agayev MM
Azerbaijan Medical Journal 2008; 57-59 (IGR: 10-3)

21681 Retinal blood flow and nerve fiber layer measurements in early-stage open-angle glaucoma
Berisha F; Feke GT; Hirose T; Mcmeel JW; Pasquale LR
American Journal of Ophthalmology 2008; 146: 466-472 (IGR: 10-3)

21864 The heritability of corneal hysteresis and ocular pulse amplitude a twin study
Carbonaro F; Andrew T; Mackey DA; Spector TD; Hammond CJ
Ophthalmology 2008; 115: 1545-1549 (IGR: 10-3)

21829 Relaxing effect and mechanism of tafluprost on isolated rabbit ciliary arteries
Dong Y; Watabe H; Su G; Ishikawa H; Sato N; Yoshitomi T
Experimental Eye Research 2008; 87: 251-256 (IGR: 10-3)

21777 Diagnostic compatibility of structural and haemodynamic parameters in open-angle glaucoma patients
Janulevičienė I; Sliesoraitytė I; Siesky B; Harris A
Acta Ophthalmologica 2008; 86: 552-557 (IGR: 10-3)

21872 Effect of aging on nocturnal blood flow in the optic nerve head and macula in healthy human eyes
Kida T; Liu JH; Weinreb RN
Journal of Glaucoma 2008; 17: 366-371 (IGR: 10-3)

21869 Reactivity of retinal blood flow to 100% oxygen breathing after lipopolysaccharide administration in healthy subjects
Kolodjaschna J; Berisha F; Lasta M; Polska E; Fuchsjäger-Mayrl G; Schmetterer L
Experimental Eye Research 2008; 87: 131-136 (IGR: 10-3)

21652 Clinic diagnosis and treatment for pathological changes of ischemic ophthalmopathy
Li Z; Liu L
International Journal of Ophthalmology 2008; 8: 1226-1229 (IGR: 10-3)

21771 Retrobulbar hemodynamic parameters in pseudoexfoliation syndrome and pseudoexfoliative glaucoma
Martinez A; Sanchez M
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 1341-1349 (IGR: 10-3)

21878 Ocular pulse amplitude in normal-tension and primary open-angle glaucoma
Stalmans I; Harris A; Vanbellinghen V; Zeyen T; Siesky B
Journal of Glaucoma 2008; 17: 403-407 (IGR: 10-3)

21547 Effects of Mirtogenol® on ocular blood flow and intraocular hypertension in asymptomatic subjects
Steigerwalt Jr RD; Gianni B; Paolo M; Bombardelli E; Burki C; Schonlau F
Molecular Vision 2008; 14: 1288-1292 (IGR: 10-3)

21672 The pulsation and the pressure of the central retinal vein and their relation to glaucoma damage and therapy
Stodtmeister R
Klinische Monatsblätter für Augenheilkunde 2008; 225: 632-636 (IGR: 10-3)

21566 Protective effects of nebivolol on oxygen free radical-induced vasoconstrictions in vitro
Wagenfeld L; Himpel O; Galambos P; Matthiesen N; Wiermann A; Richard G; Klemm M; Zeitz O
Medical Science Monitor 2008; 14: BR109-BR112 (IGR: 10-3)

21567 Effects of the systemic β-adrenoceptor antagonist nebivolol on ocular hemodynamics in glaucoma patients
Zeitz O; Galambos P; Matthiesen N; Wagenfeld L; Schillinger W; Wiermann A; Richard G; Klemm M
Medical Science Monitor 2008; 14: CR268-CR275 (IGR: 10-3)

21712 Glaucoma is associated with peripheral vascular endothelial dysfunction
Su WW; Cheng ST; Ho WJ; Tsay PK; Wu SC; Chang SH
Ophthalmology 2008; 115: 1173-1178 (IGR: 10-3)

21372 Relationships of retinal vessel diameters with optic disc, macular and retinal nerve fiber layer parameters in 6-year-old children
Cheung N; Huynh S; Wang JJ; Taylor B; Islam FM; Saw SM; Wong TY; Mitchell P
Investigative Ophthalmology and Visual Science 2008; 49: 2403-2408 (IGR: 10-2)

21344 Vascular anatomy of the optic nerve head
Mackenzie PJ; Cioffi GA
Canadian Journal of Ophthalmology 2008; 43: 308-312 (IGR: 10-2)

21336 Paying attention to the cerebrovascular system in glaucoma
Yücel YH; Gupta N
Canadian Journal of Ophthalmology 2008; 43: 342-346 (IGR: 10-2)

21031 Ethnic variability in retinal vessel caliber: A potential source of measurement error from ocular pigmentation? - The Sydney Childhood Eye Study
Rochtchina E; Wang JJ; Taylor B; Wong TY; Mitchell P
Investigative Ophthalmology and Visual Science 2008; 49: 1362-1366 (IGR: 10-2)

20962 Resting energy expenditure in vasospastic subjects and its potential relevance in glaucoma
Leuenberger S; Gugleta K; Kochkorov A; Reinhard G; Kräuchi K; Keller U; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2008; 225: 361-365 (IGR: 10-2)

21353 Retinal and choroidal vasoreactivity to altered PaCO² in rat measured with a modified microsphere technique
Wang L; Grant C; Fortune B; Cioffi GA
Experimental Eye Research 2008; 86: 908-913 (IGR: 10-2)

21346 Measuring and interpreting ocular blood flow and metabolism in glaucoma
Harris A; Kagemann L; Ehrlich R; Rospigliosi C; Moore D; Siesky B
Canadian Journal of Ophthalmology 2008; 43: 328-363 (IGR: 10-2)

20966 Central corneal thickness and retrobulbar blood flow in glaucoma patients
Katamay R; Grieshaber MC; Weich C; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2008; 225: 346-348 (IGR: 10-2)

20994 Effect of aging on retinal artery blood column diameter measured along the vessel axis
Kotliar KE; Mücke B; Vilser W; Schilling R; Lanzl IM
Investigative Ophthalmology and Visual Science 2008; 49: 2094-2102 (IGR: 10-2)

20995 C-Reactive protein inhibits endothelium-dependent nitric oxide-mediated dilation of retinal arterioles via enhanced superoxide production
Nagaoka T; Kuo L; Ren Y; Yoshida A; Hein TW
Investigative Ophthalmology and Visual Science 2008; 49: 2053-2060 (IGR: 10-2)

20890 Correlation between ocular pulse amplitude measured by dynamic contour tonometer and visual field defects
Vulsteke C; Stalmans I; Fieuws S; Zeyen T
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 559-565 (IGR: 10-2)

21338 Autoregulation, a balancing act between supply and demand
Flammer J; Mozaffarieh M
Canadian Journal of Ophthalmology 2008; 43: 317-321 (IGR: 10-2)

21347 Influencing ocular blood flow in glaucoma patients: the cardiovascular system and healthy lifestyle choices
Tsai JC
Canadian Journal of Ophthalmology 2008; 43: 347-350 (IGR: 10-2)

21420 Functional in vivo assessment of retinal artery microirregularities in glaucoma
Kotliar KE; Nagel E; Vilser W; Lanzl IM
Acta Ophthalmologica 2008; 86: 424-433 (IGR: 10-2)

20943 The effect of sildenafil on ocular blood flow
Harris A; Kagemann L; Ehrlich R; Ehrlich Y; López CR; Purvin VA
British Journal of Ophthalmology 2008; 92: 469-473 (IGR: 10-2)

21286 Effects of enantiomers (R, R) - XY and (S, S) - XY on ocular blood flow in rabbits
Peng J; Zou Y-H; Jiang W; Ji X-B; Chen X-Y; Zhang Y-H; Peng S-X; Chiou GCY
International Journal of Ophthalmology 2008; 8: 437-441 (IGR: 10-2)

20904 Ocular haemodynamics in pseudoexfoliative and primary open-angle glaucoma
Martinez A; Sanchez M
Eye 2008; 22: 515-520 (IGR: 10-2)

21102 Reduced choroidal blood flow can induce visual field defect in open angle glaucoma patients without intraocular pressure elevation following encircling scleral buckling
Sato EA; Shinoda K; Inoue M; Ohtake Y; Kimura I
Retina (Philadelphia, Pa.) 2008; 28: 493-497 (IGR: 10-2)

21237 Preliminary study on the association of vessel diameter variation and glaucoma
Vlachokosta AA; Asvestas PA; Matsopoulos GK; Uzunoglu N; Zeyen TG
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2007; 2007: 888-891 (IGR: 10-2)

21337 Clinical clues of vascular dysregulation and its association with glaucoma
Nicolela MT
Canadian Journal of Ophthalmology 2008; 43: 337-341 (IGR: 10-2)

20934 Retrobulbar blood flow and ophthalmic perfusion in maximum dynamic exercise
Kozobolis VP; Detorakis ET; Konstas AG; Achtaropoulos AK; Diamandides ED
Clinical and Experimental Ophthalmology 2008; 36: 123-129 (IGR: 10-2)

21334 Endothelin and its potential role in glaucoma
Chauhan BC
Canadian Journal of Ophthalmology 2008; 43: 356-360 (IGR: 10-2)

21335 The effects of systemic medications on ocular blood flow
Lesk MR; Wajszilber M; Deschenes MC
Canadian Journal of Ophthalmology 2008; 43: 351-355 (IGR: 10-2)

21004 Retinal vascular caliber, blood pressure, and cardiovascular risk factors in an Asian population: The Singapore Malay Eye Study
Sun C; Liew G; Wang JJ; Mitchell P; Saw SM; Aung T; Tai ES; Wong TY
Investigative Ophthalmology and Visual Science 2008; 49: 1784-1790 (IGR: 10-2)

21339 Relationships among systemic blood pressure, intraocular pressure, and open-angle glaucoma
Deokule S; Weinreb RN
Canadian Journal of Ophthalmology 2008; 43: 302-307 (IGR: 10-2)

20942 A comparative study of the effects of brinzolamide and dorzolamide on retinal oxygen saturation and ocular microcirculation in patients with primary open-angle glaucoma
Siesky B; Harris A; Cantor LB; Kagemann L; Weitzman Y; McCranor L; Marques C; Werne A; Stefansson E
British Journal of Ophthalmology 2008; 92: 500-504 (IGR: 10-2)

20670 Microvessel loss, vascular damage and glutamate redistribution in the retinas of dogs with primary glaucoma
Alyahya K; Chen C-T; Mangan BG; Gionfriddo JR; Legare ME; Dubielzig RR; Madl JE
Veterinary Ophthalmology 2007; 10: 70-77 (IGR: 10-1)

20412 Expression of the PDE5 enzyme on human retinal tissue: new aspects of PDE5 inhibitors ocular side effects
Foresta C; Caretta N; Zuccarello D; Poletti A; Biagioli A; Caretti L; Galan A
Eye 2008; 22: 144-149 (IGR: 10-1)

20548 The effect of swimming goggles on intraocular pressure and blood flow within the optic nerve head
Ma KT; Chung WS; Seo KY; Seong GJ; Kim CY
Yonsei Medical Journal 2007; 48: 807-809 (IGR: 10-1)

20433 Sildenafil (Viagra) Evokes Retinal Arteriolar Dilation: Dual Pathways via NOS Activation and Phosphodiesterase Inhibition
Yuan Z; Hein TW; Rosa RH Jr; Kuo L
Investigative Ophthalmology and Visual Science 2008; 49: 720-725 (IGR: 10-1)

20408 Ocular perfusion pressure and retrobulbar haemodynamics in pseudoexfoliative glaucoma
Galassi F; Giambene B; Menchini U
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 411-416 (IGR: 10-1)

20428 Ocular blood flow in patients with obstructive sleep apnea syndrome (OSAS)
Karakucuk S; Goktas S; Aksu M; Erdogan N; Demirci S; Oner A; Arda H; Gumus K
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 129-134 (IGR: 10-1)

20394 Retinal blood flow response to posture change in glaucoma patients compared with healthy subjects
Feke GT; Pasquale LR
Ophthalmology 2008; 115: 246-252 (IGR: 10-1)

20786 The effect of photodynamic therapy on retrobulbar blood flow parameters
Türkçüoğlu P; Deniz N; Koç M; Kurt J; Celiker U
Clinical and Experimental Ophthalmology 2008; 36: 39-42 (IGR: 10-1)

20843 First-line therapy with latanoprost 0.005% results in improved ocular circulation in newly diagnosed primary open-angle glaucoma patients: a prospective, 6-month, open-label study
Gherghel D; Hosking SL; Cunliffe IA; Armstrong RA
Eye 2008; 22: 363-369 (IGR: 10-1)

20345 Reproducibility of pixel-by-pixel analysis of Heidelberg retinal flowmetry images: the Thessaloniki Eye Study
Mavroudis L; Harris A; Topouzis F; Wilson MR; Yu F; Anastasopoulos E; Koskosas A; Siesky B; Pappas T; Founti P
Acta Ophthalmologica Scandinavica 2008; 86: 81-86 (IGR: 10-1)

20637 Oxygen and blood flow: Players in the pathogenesis of glaucoma
Mozaffarieh M; Grieshaber MC; Flammer J
Molecular Vision 2008; 14: 224-233 (IGR: 10-1)

20449 Systemic Arterial Stiffness in Glaucoma Patients
Chiba T; Chiba N; Kashiwagi K
Journal of Glaucoma 2008; 17: 15-18 (IGR: 10-1)

20818 Color Doppler imaging of retrobulbar hemodynamics in Sturge-Weber syndrome-associated glaucoma
Neely D; Harris A; Siesky B; McCranor L; McNulty L; Hynes E; Benzion I
European Journal of Ophthalmology 2008; 18: 172-177 (IGR: 10-1)

20799 Effect of unspecific inhibition of cyclooxygenase by indomethacin on retinal and choroidal blood flow
Weigert G; Berisha F; Resch H; Karl K; Schmetterer L; Garhofer G
Investigative Ophthalmology and Visual Science 2008; 49: 1065-1070 (IGR: 10-1)

20495 Hemorheological aspects in the microvasculature of several pathologies.
Cicco G; Cicco S
Adv Exp Med Biol 2007; 599: 7-15 (IGR: 10-1)

20825 Comparison of visual function and ocular hemodynamics between pre- and post-menopausal women
Siesky BA; Harris A; Patel C; Klaas CL; Harris M; McCranor LJ; Lauer J; Kaplan B
European Journal of Ophthalmology 2008; 18: 320-323 (IGR: 10-1)

20727 Retrobulbar hemodynamic changes in acute angle-closure glaucoma patients detected by color Doppler flow imaging
Zhao F; Wang F
Journal of Clinical Rehabilitative Tissue Engineering Research 2007; 11: 9714-9717 (IGR: 10-1)

20847 Decreased Cardiovagal Regulation in Exfoliation Syndrome
Visontai Z; Horváth T; Kollai M; Holló G,
Journal of Glaucoma 2008; 17: 133-138 (IGR: 10-1)

20658 Impaired systemic endothelial function in patients with pseudoexfoliation syndrome.
Atalar PT; Atalar E; Kilic H; Abbasoglu OE; Ozer N; Aksoyek S; Ovunc K; Ozmen F; Gursel E
International Heart Journal 2006; 47: 77-84 (IGR: 10-1)

20805 A comparative study of bimatoprost and travoprost: effect on intraocular pressure and ocular circulation in newly diagnosed glaucoma patients
Alagoz G; Gürel K; Bayer A; Serin D; Celebi S; Kukner S
Ophthalmologica 2008; 222: 88-95 (IGR: 10-1)

20800 Dorzolamide increases retinal oxygen tension after branch retinal vein occlusion
Noergaard MH; Bach-Holm D; Scherfig E; Bang K; Jensen PK; Kiilgaard JF; Stefánsson E; la Cour M
Investigative Ophthalmology and Visual Science 2008; 49: 1136-1141 (IGR: 10-1)

20032 What is the link between vascular dysregulation and glaucoma?
Grieshaber MC; Mozaffarieh M; Flammer J
Survey of Ophthalmology 2007; 52: S144-154 (IGR: 9-4)

20089 Variable involvement of the perivascular retinal tissue in carbonic anhydrase inhibitor induced relaxation of porcine retinal arterioles in vitro
Kehler AK; Holmgaard K; Hessellund A; Aalkjaer C; Bek T
Investigative Ophthalmology and Visual Science 2007; 48: 4688-4693 (IGR: 9-4)

19966 Comparison of the effects of travoprost, latanoprost and bimatoprost on ocular circulation: a 6-month clinical trial
Koz OG; Ozsoy A; Yarangumeli A; Kose SK; Kural G
Acta Ophthalmologica Scandinavica 2007; 85: 838-843 (IGR: 9-4)

19964 Effects of topical travoprost and unoprostone on optic nerve head circulation in normal rabbits
Ohashi M; Mayama C; Ishii K; Araie M
Current Eye Research 2007; 32: 743-749 (IGR: 9-4)

19833 Effects of ZX-5 and its optical isomers on ocular blood flow in rabbits and retinal function recovery in rats
Peng J; Zou Y-H; Jiang W; Zhang Y-H; Ji X-B; Shen Z-L; Peng S-X; Chiou GCY
International Journal of Ophthalmology 2007; 7: 1197-1201 (IGR: 9-4)

20030 How can blood flow be measured?
Schmetterer L; Garhofer G
Survey of Ophthalmology 2007; 52: S134-138 (IGR: 9-4)

19952 Ocular surface temperature in central retinal vein occlusion: preliminary data
Sodi A; Giambene B; Falaschi G; Caputo R; Innocenti B; Corvi A; Menchini U
European Journal of Ophthalmology 2007; 17: 755-759 (IGR: 9-4)

20076 Increased retinal blood flow in patients with active Graves' ophthalmopathy
Perri P; Campa C; Costagliola C; Incorvaia C; D'Angelo S; Sebastiani A
Current Eye Research 2007; 32: 985-990 (IGR: 9-4)

19925 Intravenous administration of clonidine reduces intraocular pressure and alters ocular blood flow
Weigert G; Resch H; Luksch A; Reitsamer HA; Fuchsjager-Mayrl G; Schmetterer L; Garhofer G
British Journal of Ophthalmology 2007; 91: 1354-1358 (IGR: 9-4)

19488 Evaluation of ocular surface temperature and retrobulbar haemodynamics by infrared thermography and colour Doppler imaging in patients with glaucoma
Galassi F; Giambene B; Corvi A; Falaschi G
British Journal of Ophthalmology 2007; 91: 878-881 (IGR: 9-3)

19635 Role of Nitric Oxide in Choroidal Blood Flow Regulation during Light/Dark Transitions
Huemer KH; Garhofer G; Aggermann T; Kolodjaschna J; Schmetterer L; Fuchsjäger-Mayrl G
Investigative Ophthalmology and Visual Science 2007; 48: 4215-4219 (IGR: 9-3)

19523 Effects of dopamine on retinal and choroidal blood flow parameters in humans
Huemer KH; Zawinka C; Garhöfer G; Golestani E; Litschauer B; Dorner GT; Schmetterer L
British Journal of Ophthalmology 2007; 91: 1194-1198 (IGR: 9-3)

19639 Regulation of choroidal blood flow during combined changes in intraocular pressure and arterial blood pressure
Polska E; Simader C; Weigert G; Doelemeyer A; Kolodjaschna J; Scharmann O; Schmetterer L
Investigative Ophthalmology and Visual Science 2007; 48: 3768-3774 (IGR: 9-3)

19335 Comparative study of ocular blood flow parameters by color doppler imaging in healthy and glaucomatous eye
Sharma N; Bangiya D
Indian Journal of Radiology and Imaging 2006; 16: 679-682 (IGR: 9-3)

19422 Meta-analysis of glaucomatous hemodynamic changes in ophthalmic artery and central retinal artery in China
Zhou G
International Journal of Ophthalmology 2007; 7: 720-726 (IGR: 9-3)

19448 Pulsatile ocular blood flow: relationship with flow velocities in vessels supplying the retina and choroid
Zion IB; Harris A; Siesky B; Shulman S; McCranor L; Garzozi HJ
British Journal of Ophthalmology 2007; 91: 882-884 (IGR: 9-3)

19469 Optical coherence tomography, frequency-doubling technology, and colour Doppler imaging in ocular hypertension
Cellini M; Bernabini B; Carbonelli M; Zamparini E; Campos EC
Eye 2007; 21: 1071-1077 (IGR: 9-3)

17495 Ocular pulse amplitude: A new biometrical parameter for the diagnose of glaucoma?
Romppainen T; Kniestedt C; Bachmann LM; Sturmer J
Ophthalmologe 2007; 104: 230-235 (IGR: 9-2)

18098 Retinal blood flow autoregulation after dynamic exercise in healthy young subjects
Iester M; Torre PG; Bricola G; Bagnis A; Calabria G
Ophthalmologica 2007; 21: 180-185 (IGR: 9-2)

17454 Resistance to blood flow in the rabbit ophthalmic artery after topical treatment with timolol
Liu JHK; Li R; Nelson TR; Weinreb RN
Journal of Ocular Pharmacology and Therapeutics 2007; 23: 103-109 (IGR: 9-2)

17531 Retrobulbar haemodynamic effects of the latanoprost/timolol and the dorzolamide/timolol fixed combinations in newly diagnosed glaucoma patients
Martinez A; Sanchez M
International Journal of Clinical Pract 2007; 61: 815-825 (IGR: 9-2)

18080 Altered nitric oxide system in patients with open-angle glaucoma
Polak K; Luksch A; Berisha F; Fuchsjaeger-Mayrl G; Dallinger S; Schmetterer L
Archives of Ophthalmology 2007; 125: 494-498 (IGR: 9-2)

17665 Sub-foveal choroidal blood flow by LDF: measurement and application to the physiology and pathology of the choroidal circulation
Riva CE
Bulletin de la Société Belge d'Ophtalmologie 2006; 302: 185-194 (IGR: 9-2)

18142 Nitric oxide: Ocular blood flow, glaucoma, and diabetic retinopathy
Toda N; Nakanishi-Toda M
Progress in Retinal and Eye Research 2007; 26: 205-238 (IGR: 9-2)

18124 Retrobulbar haemodynamics in normal and high tension glaucoma patients: the diagnostic importance of tinnitus, migraine and Raynaud-like symptoms
Wiermann A; Galambos P; Vafiadis J; Wagenfeld L; Richard G; Klemm M; Zeitz O
Klinische Monatsblätter für Augenheilkunde 2007; 224: 396-400 (IGR: 9-2)

17587 Technical note: How many readings are required for an acceptable accuracy in pulsatile ocular blood flow assessment?
Yu BSY; Lam AKC
Ophthalmic and Physiological Optics 2007; 27: 213-219 (IGR: 9-2)

18196 Vascular risk factors in glaucoma: the results of a national survey
Orzalesi N; Rossetti L; Omboni S; OPTIME Study Group
Graefe's Archive for Clinical and Experimental Ophthalmology 2007; 245: 795-802 (IGR: 9-2)

18136 Vascular risk factors in glaucoma
Renard J-P
Journal Français d'Ophtalmologie 2007; 30: 3S18-3S22 (IGR: 9-2)

18201 Hemodynamic evaluation of the posterior ciliary circulation in exfoliation syndrome and exfoliation glaucoma
Detorakis ET; Achtaropoulos AK; Drakonaki EE; Kozobolis VP
Graefe's Archive for Clinical and Experimental Ophthalmology 2007; 245: 516-521 (IGR: 9-2)

18100 Retrobulbar blood flow in idiopathic dilated episcleral veins and glaucoma
Grieshaber MC; Dubler B; Knodel C; Killer HE; Flammer J; Orgül S
Klinische Monatsblätter für Augenheilkunde 2007; 224: 320-323 (IGR: 9-2)

17969 Vasodilatory mechanism of levobunolol on vascular smooth muscle cells
Dong Y; Ishikawa H; Wu Y; Yoshitomi T
Experimental Eye Research 2007; 84: 1039-1046 (IGR: 9-2)

18068 Value of retinal vein pulsation characteristics in predicting increased optic disc excavation
Balaratnasingam C; Morgan WH; Hazelton ML; House PH; Barry CJ; Chan H; Cringle SJ; Yu DY
British Journal of Ophthalmology 2007; 91: 441-444 (IGR: 9-2)

16941 Statistical methods for comparison of two measuring procedures and for calibration: analysis of concordance, correlation and regression in the case of measuring intraocular pressure
Koch R; Sporl E
Klinische Monatsblätter für Augenheilkunde 2007; 224: 52-57 (IGR: 9-1)

16844 Oxygen saturation in optic nerve head structures by hyperspectral image analysis
Beach J; Ning J; Khoobehi B
Current Eye Research 2007; 32: 161-170 (IGR: 9-1)

16921 Relationship of cerebral blood flow and central visual function in primary open-angle glaucoma
Harris A; Siesky B; Zarfati D; Haine CL; Catoira Y; Sines DT; McCranor L; Garzozi HJ
Journal of Glaucoma 2007; 16: 159-163 (IGR: 9-1)

16944 The response of retrobulbar vasculature to hypercapnia in primary open-angle glaucoma and ocular hypertension
Sines D; Harris A; Siesky B; Januleviciene I; Haine CL; Yung CW; Catoira Y; Garzozi HJ
Ophthalmic Research 2007; 39: 76-80 (IGR: 9-1)

17028 Effect of 2% dorzolamide on retinal blood flow: A study on juvenile primary open-angle glaucoma patients already receiving 0.5% timolol
Costagliola C; Campa C; Parmeggiani F; Incorvaia C; Perri P; D'Angelo S; Lamberti G; Sebastiani A
British Journal of Clinical Pharmacology 2007; 63: 376-379 (IGR: 9-1)

16907 Effect and mechanism of βxolol and timolol on vascular relaxation in isolated rabbit ciliary artery
Dong Y; Ishikawa H; Wu Y; Shimizu K; Goseki T; Yoshitomi T
Japanese Journal of Ophthalmology 2006; 50: 504-508 (IGR: 9-1)

16859 Dronabinol and retinal hemodynamics in humans
Plange N; Arend KO; Kaup M; Doehmen B; Adams H; Hendricks S; Cordes A; Huth J; Sponsel WE; Remky A
American Journal of Ophthalmology 2007; 143: 173-174 (IGR: 9-1)

17087 Effect of infrared irradiation to the stellate gangion on glaucoma
Sugiyama T; Kojima S; Ueki M; Hirotsuji N; Ikeda T; Kawachi A; Sakai M; Minami T
Japanese Journal of Clinical Ophthalmology 2006; 60: 2041-2045 (IGR: 9-1)

15206 Relationship between central corneal thickness and changes of optic nerve head topography and blood flow after intraocular pressure reduction in open-angle glaucoma and ocular hypertension
Lesk MR; Hafez AS; Descovich D
Archives of Ophthalmology 2006; 124: 1568-1572 (IGR: 8-4)

15286 Vascular changes in the posterior eye segment of secondary angle-closure glaucoma: cause or consequence?
May CA; Mittag T
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 1505-1511 (IGR: 8-4)

14526 Red blood cell (RBC) surface acetylcholinesterase showing a hemorheological pattern during glaucoma treatment
Cicco G; Vetrugno M; Rotelli MT; Sborgia G; Pennetta M; Vico PP; Memeo V; Nitti L; Sborgia C
Clinical Hemorheology and Microcirculation 2006; 35: 149-154 (IGR: 8-4)

15275 Observer interpretation variability of peripapillary flow using the Heidelberg Retina Flowmeter
Iester M; Ciancaglini M; Rolle T; Vattovani O
Eye 2006; 20: 1246-1253 (IGR: 8-4)

15261 Retrobulbar haemodynamics and morphometric optic disc analysis in primary open-angle glaucoma
Plange N; Kaup M; Weber A; Arend KO; Remky A
British Journal of Ophthalmology 2006; 90: 1501-1504 (IGR: 8-4)

15133 Chorioretinal vascular oxygen tension changes in response to light flicker
Shakoor A; Blair NP; Mori M; Shahidi M
Investigative Ophthalmology and Visual Science 2006; 47: 4962-4965 (IGR: 8-4)

15221 Glaucoma progression is associated with decreased blood flow velocities in the short posterior ciliary artery
Zeitz O; Galambos P; Wagenfeld L; Wiermann A; Wlodarsch P; Praga R; Matthiessen ET; Richard G; Klemm M
British Journal of Ophthalmology 2006; 90: 1245-1248 (IGR: 8-4)

14486 The color doppler ultrasonography in glaucoma diagnosis
Cmelo J; Chynoransky M; Micevova K; Valaskova T
Česka a Slovenska Oftalmologie 2006; 62: 339-347 (IGR: 8-4)

15222 Retrobulbar haemodynamics in non-arteritic anterior ischaemic optic neuropathy
Kaup M; Plange N; Arend KO; Remky A
British Journal of Ophthalmology 2006; 90: 1350-1353 (IGR: 8-4)

14868 Effect of NOS inhibition on retinal arterial and capillary circulation in early arterial hypertension
Michelson G; Warntges S; Harazny J; Oehmer S; Delles C; Schmieder RE
Retina (Philadelphia, Pa.) 2006; 26: 437-444 (IGR: 8-4)

15205 A topical nitric oxide-releasing dexamethasone derivative: effects on intraocular pressure and ocular haemodynamics in a rabbit glaucoma model
Galassi F; Masini E; Giambene B; Fabrizi F; Uliva C; Bolla M; Ongini E
British Journal of Ophthalmology 2006; 90: 1414-1419 (IGR: 8-4)

13951 Topography of the posterior arteries supplying the eye and relations to the optic nerve
Erdogmus S; Govsa F
Acta Ophthalmologica Scandinavica 2006; 84: 642-649 (IGR: 8-3)

14192 Vasospasm in glaucoma: clinical and laboratory aspects
Delaney Y; Walshe TE; O’Brien C
Optometry and Vision Science 2006; 83: 406-414 (IGR: 8-3)

14035 On pulse-wave propagation in the ocular circulation
Gugleta K; Kochkorov A; Katamay R; Zawinka C; Flammer J; Orgul S
Investigative Ophthalmology and Visual Science 2006; 47: 4019-4025 (IGR: 8-3)

14033 Analysis of retinal vasodilation after flicker light stimulation in relation to vasospastic propensity
Gugleta K; Zawinka C; Rickenbacher I; Kochkorov A; Katamay R; Flammer J; Orgul S
Investigative Ophthalmology and Visual Science 2006; 47: 4034-4041 (IGR: 8-3)

13955 Retrobulbar haemodynamics and contrast sensitivity improvements after CO₂ breathing
Huber KK; Adams H; Remky A; Arend KO
Acta Ophthalmologica Scandinavica 2006; 84: 481-487 (IGR: 8-3)

13980 Ocular pulse amplitude in healthy subjects as measured by dynamic contour tonometry
Kaufmann C; Bachmann LM; Robert YC; Thiel MA
Archives of Ophthalmology 2006; 124: 1104-1108 (IGR: 8-3)

14034 Short-term retinal vessel diameter variability in relation to the history of cold extremities
Kochkorov A; Gugleta K; Zawinka C; Katamay R; Flammer J; Orgul S
Investigative Ophthalmology and Visual Science 2006; 47: 4026-4033 (IGR: 8-3)

14049 Nimodipine plasma concentration and retinal blood flow in healthy subjects
Michelson G; Warntges S; Leidig S; Lotsch J; Geisslinger G
Investigative Ophthalmology and Visual Science 2006; 47: 3479-3486 (IGR: 8-3)

14016 Ocular blood flow changes after dynamic exercise in humans
Okuno T; Sugiyama T; Kohyama M; Kojima S; Oku H; Ikeda T
Eye 2006; 20: 796-800 (IGR: 8-3)

14023 Asymmetric visual field loss and retrobulbar haemodynamics in primary open-angle glaucoma
Plange N; Kaup M; Arend O; Remky A
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 978-983 (IGR: 8-3)

14060 Effects of topical hypotensive drugs on circadian IOP, blood pressure, and calculated diastolic ocular perfusion pressure in patients with glaucoma
Quaranta L; Gandolfo F; Turano R; Rovida F; Pizzolante T; Musig A; Gandolfo E
Investigative Ophthalmology and Visual Science 2006; 47: 2917-2923 (IGR: 8-3)

14048 Heritability of retinal vessel diameters and blood pressure: a twin study
Taarnhoj NC; Larsen M; Sander B; Kyvik KO; Kessel L; Hougaard JL ; Sorensen TI
Investigative Ophthalmology and Visual Science 2006; 47: 3539-3544 (IGR: 8-3)

14131 Assessment of the lower threshold in autoregulation of the blood supply of the optic nerve disk
Shengeliia DG; Nikuradze NA; Mitagvariia NP; Bekaia GL
Georgian Medical News 2006; 132: 113-115 (IGR: 8-3)

14193 Visual-evoked response, pattern electroretinogram, and psychophysical magnocellular thresholds in glaucoma, optic atrophy, and dyslexia
Vaegan; Hollows FC
Optometry and Vision Science 2006; 83: 486-498 (IGR: 8-3)

13847 Relationship between ciliary blood flow and aqueous production: does it play a role in glaucoma therapy?
Kiel JW; Reitsamer HA
Journal of Glaucoma 2006; 15: 172-181 (IGR: 8-2)

13846 Measurement of regional choroidal blood flow in rabbits and monkeys using fluorescent microspheres
Nork TM; Kim CB; Shanmuganayagam D; Van Lysel MS; Ver Hoeve JN; Folts JD
Archives of Ophthalmology 2006; 124: 860-868 (IGR: 8-2)

13731 Endothelin B receptor in human glaucoma and experimentally induced optic nerve damage
Wang L; Fortune B; Cull G; Dong J; Cioffi GA
Archives of Ophthalmology 2006; 124: 717-724 (IGR: 8-2)

13848 Volumetric colour Doppler imaging: a useful tool for the determination of ocular blood flow in glaucoma patients?
Zeitz O; Vilchez SE; Matthiessen ET; Richard G; Klemm M
Eye 2006; 20: 668-673 (IGR: 8-2)

13393 Confocal laser Doppler flowmeter measurements in a controlled flow environment in an isolated perfused eye
Townsend R; Cringle SJ; Morgan WH; Chauhan BC; Yu DY
Experimental Eye Research 2006; 82: 65-73 (IGR: 8-1)

13544 Colour Doppler imaging in normal pressure glaucoma patients
Huber KK; Plange N; Arend O; Remky A
Klinische Monatsblätter für Augenheilkunde 2006; 223: 156-160 (IGR: 8-1)

13419 Comparative study of cerebral blood flow in patients with normal-tension glaucoma and control subjects
Sugiyama T; Utsunomiya K; Ota H; Ogura Y; Narabayashi I; Ikeda T
American Journal of Ophthalmology 2006; 141: 394-396 (IGR: 8-1)

13389 Ocular pulse amplitude after trabeculectomy
von Schulthess SR; Kaufmann C; Bachmann LM; Yanar A; Thiel MA
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 46-51 (IGR: 8-1)

13181 Effect of carbogen breathing and acetazolamide on optic disc PO₂.
Petropoulos IK; Pournaras JA; Munoz JL; Pournaras CJ
Investigative Ophthalmology and Visual Science 2005; 46: 4139-4146 (IGR: 7-3)

13023 Cerebral haemodynamics in patients with pseudoexfoliation glaucoma
Akarsu C; Unal B
Eye 2005; 19: 1297-1300 (IGR: 7-3)

13163 Circulatory response to blood gas perturbations in vasospasm
Gugleta K; Orgul S; Hasler P; Flammer J
Investigative Ophthalmology and Visual Science 2005; 46: 3288-3294 (IGR: 7-3)

13195 Correlation between finger blood flow and changes in optic nerve head blood flow following therapeutic intraocular pressure reduction
Hafez AS; Bizzarro R; Descovich D; Lesk MR
Journal of Glaucoma 2005; 14: 448-454 (IGR: 7-3)

12712 The role of optic nerve blood flow in the pathogenesis of glaucoma
Harris A; Rechtman E; Siesky B; Jonescu Cuypers C; McCranor L; Garzozi HJ
Ophthalmology Clinics of North America 2005; 18: 345-353 (IGR: 7-3)

13086 Influence of change in body position on choroidal blood flow in normal subjects
Kaeser P; Orgul S; Zawinka C; Reinhard G; Flammer J
British Journal of Ophthalmology 2005; 89: 1302-1305 (IGR: 7-3)

12994 Predictive value of colour Doppler imaging in a prospective study of visual field progression in primary open-angle glaucoma
Martinez A; Sanchez M
Acta Ophthalmologica Scandinavica 2005; 83: 716-722 (IGR: 7-3)

13015 Inhaled carbon monoxide increases retinal and choroidal blood flow in healthy humans
Resch H; Zawinka C; Weigert G; Schmetterer L; Garhofer G
Investigative Ophthalmology and Visual Science 2005; 46: 4275-4280 (IGR: 7-3)

13020 Anterior optic nerve capillary blood flow response to diurnal variation of mean ocular perfusion pressure in early untreated primary open-angle glaucoma
Sehi M; Flanagan JG; Zeng L; Cook RJ; Trope GE
Investigative Ophthalmology and Visual Science 2005; 46: 4581-4587 (IGR: 7-3)

12713 Pressure stress in glaucoma--assessment through classical techniques and computational modelling
Mercut G; Rinderu ET; Andritoiu AC; Gruionu L
Oftalmologia 2005; 49: 66-74 (IGR: 7-3)

12710 Association between low plasma levels of ophthalmic timolol and haemodynamics in glaucoma patients
Nieminen T; Uusitalo H; Turjanmaa V; Bjarnhall G; Hedenstrom H; Maenpaa J; Ropo A; Heikkila P; Kahonen M
European Journal of Clinical Pharmacology 2005; 61: 369-374 (IGR: 7-3)

12709 Effect of histamine and cimetidine on retinal and choroidal blood flow in humans
Resch H; Zawinka C; Lung S; Weigert G; Schmetterer L; Garhofer G
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology 2005; 289: R1387-R1391 (IGR: 7-3)

12307 Choroidal perfusion measurements made with optical coherence tomography
Wu FI; Glucksberg MR
Applied Optics 2005; 44: 1426-1433 (IGR: 7-2)

12406 Effect of a nifedipine induced reduction in blood pressure on the association between ocular pulse amplitude and ocular fundus pulsation amplitude in systemic hypertension
Bayerle-Eder M; Kolodjaschna J; Wolzt M; Polska E; Gasic S; Schmetterer L
British Journal of Ophthalmology 2005; 89: 704-708 (IGR: 7-2)

12158 Optic nerve head neuroretinal rim blood flow differences in monkeys with laser-induced glaucoma
Brooks DE; Kallberg ME; Komaromy AM; Ollivier FJ; Lambrou GN
Veterinary Ophthalmology 2005; 8: 113-119 (IGR: 7-2)

12329 A study of hemodynamic changes in the arteries of rabbit's eye caused by acute high intraocular pressure
Li HY; Leng Y; Zhang TS; Hu Y; Li W
Chinese Journal of Ophthalmology 2005; 41: 449-453 (IGR: 7-2)

12223 Vascularization of the optic pathway and its clinical significance
Liu X; Zhang Z; Liu Y; Zhou H; Zhang Y
Chinese Ophthalmic Research 2005; 23: 304-307 (IGR: 7-2)

12272 Changes in the retinal hemodynamics induced by instillation of nipradilol in glaucoma patients
Saito S; Murayama K; Ito M; Takeuchi S; Deguchi T; Yoneya S
Japanese Journal of Clinical Ophthalmology 2005; 59: 453-457 (IGR: 7-2)

12296 The impact of hypercapnia on retinal capillary blood flow assessed by scanning laser Doppler flowmetry
Venkataraman ST; Hudson C; Fisher JA; Flanagan JG
Microvascular Research 2005; 69: 149-155 (IGR: 7-2)

12471 Effects of moderate changes in intraocular pressure on ocular hemodynamics in patients with primary open-angle glaucoma and healthy controls
Weigert G; Findl O; Luksch A; Rainer G; Kiss B; Vass C; Schmetterer L
Ophthalmology 2005; 112: 1337-1342 (IGR: 7-2)

11995 Optic nerve oxygenation
Stefansson E; Pedersen DB; Jensen PK; la Cour M; Kiilgaard JF; Bang K; Eysteinsson T
Progress in Retinal and Eye Research 2005; 24: 307-332 (IGR: 7-1)

11945 Effects of orbital venous pressure on intraocular pressure and ocular blood flow
Reitsamer HA; Kiel JW
Spektrum der Augenheilkunde 2004; 18: 230-233 (IGR: 7-1)

11892 The force required to induce hemivein pulsation is associated with the site of maximum field loss in glaucoma
Morgan WH; Balaratnasingam C; Hazelton ML; House PH; Cringle SJ; Yu DY
Investigative Ophthalmology and Visual Science 2005; 46: 1307-1312 (IGR: 7-1)

12076 Transient reduction of the ocular perfusion pressure and the oscillatory potentials of the ERG
Vadala M; Anastasi M; Lodato G
Vision Research 2005; 45: 1341-1348 (IGR: 7-1)

11694 Effect of trabeculectomy on ocular blood flow
Berisha F; Schmetterer K; Vass C; Dallinger S; Rainer G; Findl O; Kiss B; Schmetterer L
British Journal of Ophthalmology 2005; 89: 185-188 (IGR: 7-1)

11701 The effect of age on optic nerve head blood flow
Boehm AG; Koeller AU; Pillunat LE
Investigative Ophthalmology and Visual Science 2005; 46: 1291-1295 (IGR: 7-1)

11776 Blood flow in glaucoma
Grieshaber MC; Flammer J
Current Opinions in Ophthalmology 2005; 16: 79-83 (IGR: 7-1)

11904 Relationship between the parameters of retinal circulation measured by laser Doppler velocimetry and a marker of early systemic atherosclerosis
Nagaoka T; Ishii Y; Takeuchi T; Takahashi A; Sato E; Yoshida A
Investigative Ophthalmology and Visual Science 2005; 46: 720-725 (IGR: 7-1)

11933 Effect of Indomethacin on the Hypercapnia-Associated Vasodilation of the Optic Nerve Head Vessels: An Experimental Study in Miniature Pigs
Petropoulos IK; Pournaras CJ
Ophthalmic Research 2005; 37: 59-66 (IGR: 7-1)

11972 Relative change in diurnal mean ocular perfusion pressure: a risk factor for the diagnosis of primary open-angle glaucoma
Sehi M; Flanagan JG; Zeng L; Cook RJ; Trope GE
Investigative Ophthalmology and Visual Science 2005; 46: 561-567 (IGR: 7-1)

12115 Time course of changes in optic nerve head circulation after acute reduction in intraocular pressure
Takayama J; Tomidokoro A
Investigative Ophthalmology and Visual Science 2005; 46: 1409-1419 (IGR: 7-1)

12010 Limitations of color Doppler sonography in the imaging of ocular vessels
Ustymowicz A; Obuchowska I; Krejza J; Mariak Z
European Journal of Ophthalmology 2004; 14: 584-587 (IGR: 7-1)

12042 Improved interpretation of flow maps obtained by scanning laser Doppler flowmetry using a rat model of retinal artery occlusion
Yu DY; Townsend R; Cringle SJ; Chauhan BC; Morgan WH
Investigative Ophthalmology and Visual Science 2005; 46: 166-174 (IGR: 7-1)

11273 Hypoxia-inducible factor 1alpha in the glaucomatous retina and optic nerve head
Tezel G; Wax MB
Archives of Ophthalmology 2004; 122: 1348-1356 (IGR: 6-3)

11486 Hormone therapy and ophthalmic artery blood flow changes in women with primary open-angle glaucoma
Battaglia C; Mancini F; Regnani G; Persico N; Volpe A; De Aloysio D
Menopause 2004; 11: 69-77 (IGR: 6-3)

11297 Assessment of retinal hemodynamics with the Canon laser blood flowmeter after a single dose of 2% dorzolamide hydrochloride eyedrops
Faingold D; Hudson C; Flanagan J; Guan K; Rawji M; Buys YM; Trope GE
Canadian Journal of Ophthalmology 2004; 39: 506-510 (IGR: 6-3)

11497 Abnormal systemic and ocular vascular response to temperature provocation in primary open-angle glaucoma patients: a case for autonomic failure?
Gherghel D; Hosking SL; Cunliffe IA
Investigative Ophthalmology and Visual Science 2004; 45: 3546-3554 (IGR: 6-3)

11537 Blood flow studies and serological testing in the diagnostic evaluation of glaucoma: A pilot study
Greenfield DS; Bagga H
Ophthalmic Surgery Lasers and Imaging 2004; 35: 406-414 (IGR: 6-3)

11294 Effects of adenosine on optic nerve head circulation in rabbits
Hirao M; Oku H; Goto W; Sugiyama T; Kobayashi T; Ikeda T
Experimental Eye Research 2004; 79: 729-735 (IGR: 6-3)

11304 A comparison of the effects of dorzolamide/timolol fixed combination versus latanoprost on intraocular pressure and pulsatile ocular blood flow in primary open-angle glaucoma patients
Januleviciene I; Harris A; Kagemann L; Siesky B; McCranor L
Acta Ophthalmologica Scandinavica 2004; 82: 730-737 (IGR: 6-3)

11498 Reproducibility of the Heidelberg retinal flowmeter in determining low perfusion areas in peripapillary retina
Jonescu-Cuypers CP; Harris A; Wilson R; Kagemann L; Mavroudis LV; Topouzis F; Coleman AL
British Journal of Ophthalmology 2004; 88: 1266-1269 (IGR: 6-3)

11576 Effect of breath-holding on pulsatile ocular blood flow measurement in normal subjects
Lam AK; Lam CH
Optometry and Vision Science 2004; 81: 597-600 (IGR: 6-3)

11536 Confocal laser scanning Doppler flowmetry in primary open-angle glaucoma with normal IOP
Li J; Chu R; Shen Y; Sun X
Chinese Ophthalmic Research 2004; 22: 399-402 (IGR: 6-3)

11538 Consequences of an increase in the ocular perfusion pressure on the pulsatile ocular blood flow
Lovasik JV; Kergoat H
Optometry and Vision Science 2004; 81: 692-698 (IGR: 6-3)

11569 Fractal analysis of the vascular tree in the human retina
Masters BR
Annual review of biomedical engineering 2004; 6: 427-452 (IGR: 6-3)

11487 Flicker-evoked response measured at the optic disc rim is reduced in ocular hypertension and early glaucoma
Riva CE; Salgarello T; Logean E; Colotto A; Galan EM; Falsini B
Investigative Ophthalmology and Visual Science 2004; 45: 3662-3668 (IGR: 6-3)

11240 Effects of topically instilled bunazosin hydrochloride and other ocular hypotensive drugs on endothelin-1-induced constriction in rabbit retinal arteries
Okada Y; Ichikawa M; Ishii K; Hara H
Japanese Journal of Ophthalmology 2004; 48: 465-469 (IGR: 6-3)

10612 Effect of intraocular pressure and arterial blood pressure variations on glaucoma progression
Denis P
Journal Français d'Ophtalmologie 2004; 27, Hors série 2: 2S27-2S32 (IGR: 6-2)

10597 Functional imaging of the human papilla and peripapillary region based on flicker-induced reflectance changes
Crittin M; Riva CE
Neuroscience Letters 2004; 360: 141-4 (IGR: 6-2)

10622 Ocular blood flow alteration in glaucoma is related to systemic vascular dysregulation
Emre M; Orgul S; Gugleta K; Flammer J
British Journal of Ophthalmology 2004; 88: 662-6 (IGR: 6-2)

10634 Effect of visual stimulation on blood oxygenation in the optic nerve head of miniature pigs: a pilot study
Ferrez PW; Chamot SR; Petrig BL; Pournaras CJ; Riva CR
Klinische Monatsblätter für Augenheilkunde 2004; 221: 364-6 (IGR: 6-2)

10642 Nitric oxide proxies and ocular perfusion pressure in primary open angle glaucoma
Galassi F; Renieri G; Sodi A; Ucci F; Vannozzi L; Masini E
British Journal of Ophthalmology 2004; 88:757-60 (IGR: 6-2)

10645 Response of retinal vessel diameters to flicker stimulation in patients with early open angle glaucoma
Garhöfer G; Zawinka C; Resch H; Huemer KH; Schmetterer L; Dorner GT
Journal of Glaucoma 2004; 13: 340-4 (IGR: 6-2)

10679 Comparison of colour Doppler imaging and retinal scanning laser fluorescein angiography in healthy volunteers and normal pressure glaucoma patients
Huber K; Plange N; Remky A; Arend O
Acta Ophthalmologica Scandinavica 2004; 82: 426 (IGR: 6-2)

10702 Hyperspectral imaging for measurement of oxygen saturation in the optic nerve head
Khoobehi B; Beach JM; Kawano H
Investigative Ophthalmology and Visual Science 2004; 45: 1464-72 (IGR: 6-2)

10724 Results of the examination of hemodynamics of the eye and brain in patients with primary open-angle glaucoma
Lazarenko VI; Komarovskikh EN
Vestnik Oftalmologii 2004; 120: 32-6 (IGR: 6-2)

10735 Retinal blood flow measurements and neuroretinal rim damage in glaucoma
Logan JF; Rankin SJ; Jackson AJ
British Journal of Ophthalmology 2004; 88: 1049-54 (IGR: 6-2)

10740 A comparative analysis of hemodynamic parameters within the evaluation of the glaucomatous process in patients with myopia
Makashova NV
Vestnik Oftalmologii 2004; 120: 25-9 (IGR: 6-2)

10814 Measurement procedures in confocal choroidal laser Doppler flowmetry
Preitner A; Orgul S; Prunte C; Flammer J
Current Eye Research 2004; 28: 233-40 (IGR: 6-2)

10909 Response of choroidal blood flow to carbogen breathing in smokers and non-smokers
Wimpissinger B; Resch H; Berisha F; Weigert G; Schmetterer L; Polak K
British Journal of Ophthalmology 2004; 88: 776-81 (IGR: 6-2)

10929 Intravenously administered histamine increases choroidal but not retinal blood flow
Zawinka C; Resch H; Schmetterer L; Dorner GT; Garhofer G
Investigative Ophthalmology and Visual Science 2004; 45: 2337-41 (IGR: 6-2)

10932 A comparison study of pulsitile ocular blood flow in normal eyes and primary open angle glaucoma
Zhang MZ; Fu ZF; Liu XR; Zheng C
Chinese Journal of Ophthalmology 2004; 40: 250-3 (IGR: 6-2)

10624 Effects of betaxolol and latanoprost on ocular blood flow and visual fields in patients with primary open-angle glaucoma
Erkin EF; Tarhan S; Kayikcioglu OR; Deveci H; Guler C; Goktan C
European Journal of Ophthalmology 2004; 14: 211-9 (IGR: 6-2)

10346 Color Doppler imaging in ocular hypertension and open-angle glaucoma
Akarsu C; Bilgili MY
Graefe's Archive for Clinical and Experimental Ophthalmology 2004; 242: 125-129 (IGR: 6-1)

10457 Pathogenetic aspects of the glaucomatous optic neuropathy: fluorescein angiographic findings in patients with primary open angle glaucoma
Arend O; Plange N; Sponsel WE; Remky A
Brain Research Bulletin 2004; 62: 517-524 (IGR: 6-1)

10359 Ocular blood flow and systemic blood pressure in patients with primary open-angle glaucoma and ocular hypertension
Fuchsjager-Mayrl G; Wally B; Georgopoulos M; Rainer G; Kircher K; Buehl W; Amoako-Mensah T; Eichler HG; Vass C; Schmetterer L
Investigative Ophthalmology and Visual Science 2004; 45: 834-839 (IGR: 6-1)

10352 Diffuse luminance flicker increases blood flow in major retinal arteries and veins
Garhöfer G; Zawinka C; Resch H; Huemer KH; Dorner GT; Schmetterer L
Vision Research 2004; 44: 833-838 (IGR: 6-1)

10358 Ocular haemodynamic responses to induced hypercapnia and hyperoxia in glaucoma
Hosking SL; Harris A; Chung HS; Jonescu-Cuypers CP; Kagemann L; Roff-Hilton EJ; Garzozi H
British Journal of Ophthalmology 2004; 88: 406-411 (IGR: 6-1)

10343 Ophthalmodynamometric determination of the central retinal vessel collapse pressure correlated with systemic blood pressure
Jonas JB
British Journal of Ophthalmology 2004; 88: 501-504 (IGR: 6-1)

10344 Reproducibility of circadian retinal and optic nerve head blood flow measurements by Heidelberg retina flowmetry
Jonescu-Cuypers CP; Harris A; Bartz-Schmidt KU; Kagemann L; Boros AS; Heimann UE; Lenz BH; Hilgers RD; Krieglstein GK
British Journal of Ophthalmology 2004; 88: 348-353 (IGR: 6-1)

10348 Effects of hypertension and antihypertensive treatment on retrobulbar circulation detected on Doppler sonography
Karadeniz-Bilgili MY; Ekmekci Y; Koksal A; Akarsu C; Ziraman I
Journal of Ultrasound in Medicine 2004; 23: 13-17 (IGR: 6-1)

10360 Posture changes and subfoveal choroidal blood flow
Longo A; Geiser MH; Riva CE
Investigative Ophthalmology and Visual Science 2004; 45: 546-551 (IGR: 6-1)

10347 Autoregulative behavior of retinal arteries and veins during changes of perfusion pressure: a clinical study
Nagel E; Vilser W
Graefe's Archive for Clinical and Experimental Ophthalmology 2004; 242: 13-17 (IGR: 6-1)

10361 Microvascular blood flow of the optic nerve head and peripapillary retina in unilateral exfoliation syndrome
Ocakoglu O; Koyluoglu N; Kayiran A; Tamcelik N; Ozkan S
Acta Ophthalmologica Scandinavica 2004; 82: 49-53 (IGR: 6-1)

10353 Fluorescein filling defects and quantitative morphologic analysis of the optic nerve head in glaucoma
Plange N; Kaup M; Weber A; Remky A; Arend O
Archives of Ophthalmology 2004; 122: 195-201 (IGR: 6-1)

10341 Twelve hour reproducibility of choroidal blood flow parameters in healthy subjects
Polska E; Polak K; Luksch A; Fuchsjager-Mayrl G; Petternel V; Findl O; Schmetterer L
British Journal of Ophthalmology 2004; 88: 533-537 (IGR: 6-1)

10351 Temporal dynamics and magnitude of the blood flow response at the optic disk in normal subjects during functional retinal flicker-stimulation
Riva CE; Logean E; Falsini B
Neuroscience Letters 2004; 356: 75-78 (IGR: 6-1)

10357 The effect of image alignment on capillary blood flow measurement of the neuroretinal rim using the Heidelberg retina flowmeter
Sehi M; Flanagan JG
British Journal of Ophthalmology 2004; 88: 204-206 (IGR: 6-1)

10342 Ophthalmic artery blood flow in patients with internal carotid artery occlusion
Yamamoto T; Mori K; Yasuhara T; Tei M; Yokoi N; Kinoshita S; Kamei M
British Journal of Ophthalmology 2004; 88: 505-508 (IGR: 6-1)

9682 Relationship between ciliary blood flow and aqueous production in rabbits
Reitsamer HA; Kiel JW
Investigative Ophthalmology and Visual Science 2003; 44: 3967-3971 (IGR: 5-3)

9730 Time course of the change in optic nerve head circulation after an acute increase in intraocular pressure
Takayama J; Tomidokoro A; Ishii K; Tamaki Y; Fukaya Y; Hosokawa T; Araie M
Investigative Ophthalmology and Visual Science 2003; 44: 3977-3985 (IGR: 5-3)

9797 Evaluating pulsatile ocular blood flow analysis in normal and treated glaucomatous eyes
Aydin A; Wollstein G; Price LL; Schuman JS
American Journal of Ophthalmology 2003; 136: 448-453 (IGR: 5-3)

9791 Pseudodoubling of the optic disc: a color Doppler imaging study
Cellini M; Alessandrini A; Bernabini B; Merlo D
Ophthalmologica 2003; 217: 370-372 (IGR: 5-3)

9802 Response of retinal blood flow to CO₂-breathing in humans
Dorner GT; Garhoefer G; Zawinka C; Kiss B; Schmetterer L
European Journal of Ophthalmology 2002; 12: 459-466 (IGR: 5-3)

9799 Effects of adrenomedullin on ocular hemodynamic parameters in the choroid and the ophthalmic artery
Dorner GT; Garhofer G; Huemer KH; Golestani E; Zawinka C; Schmetterer L; Wolzt M
Investigative Ophthalmology and Visual Science 2003; 44: 3947-3951 (IGR: 5-3)

9808 Changes in choroidal blood flow during light/dark transitions are not altered by atropine or propranolol in healthy subjects
Fuchsjager Mayrl G; Malec M; Amoako Mensah T; Kolodjaschna J; Schmetterer L
Vision Research 2003; 43: 2185-2190 (IGR: 5-3)

9805 Ocular hemodynamics and glaucoma prognosis: a color Doppler imaging study
Galassi F; Sodi A; Ucci F; Renieri G; Pieri B; Baccini M
Archives of Ophthalmology 2003; 121: 1711-1715 (IGR: 5-3)

9798 Effect of intravenous administration of sodium-lactate on retinal blood flow in healthy subjects
Garhofer G; Zawinka C; Resch H; Menke M; Schmetterer L; Dorner GT
Investigative Ophthalmology and Visual Science 2003; 44: 3972-3976 (IGR: 5-3)

9804 Evaluation of optic nerve head and peripapillary retinal blood flow in glaucoma patients, ocular hypertensives, and normal subjects
Hafez AS; Bizzarro RL; Lesk MR
American Journal of Ophthalmology 2003; 136: 1022-1031 (IGR: 5-3)

9807 Reproducibility of retinal and optic nerve head perfusion measurements using scanning laser Doppler flowmetry
Hafez AS; Bizzarro RLG; Rivard M; Trabut I; Lovasik JV; Kergoat H; Lesk MR
Ophthalmic Surgery Lasers and Imaging 2003; 34: 422-432 (IGR: 5-3)

9806 Comparison of ocular hemodynamics measured by a new retinal blood flowmeter and color doppler imaging
Kagemann L; Harris A; Jonescu-Cuypers C; Kumar R; Sheets C; Rechtman E; Migliardi R; Garzozi HJ
Ophthalmic Surgery Lasers and Imaging 2003; 34: 342-347 (IGR: 5-3)

9803 Pulsatile ocular blood flow in primary open-angle glaucoma and ocular hypertension
Kerr J; Nelson P; O'Brien C
American Journal of Ophthalmology 2003; 136: 1106-1113 (IGR: 5-3)

9793 Scanning laser Doppler flowmeter study of retinal blood flow in macular area of healthy volunteers
Kimura I; Shinoda K; Tanino T; Ohtake Y; Mashima Y; Oguchi Y
British Journal of Ophthalmology 2003; 87: 1469-1473 (IGR: 5-3)

9794 The effect of simulated obstructive apnoea on intraocular pressure and pulsatile ocular blood flow in healthy young adults
Lundmark PO; Trope GE; Flanagan JG
British Journal of Ophthalmology 2003; 87: 1363-1369 (IGR: 5-3)

9796 Effects of sildenafil on retinal blood flow and flicker-induced retinal vasodilatation in healthy subjects
Polak K; Wimpissinger B; Berisha F; Georgopoulos M; Schmetterer L
Investigative Ophthalmology and Visual Science 2003; 44: 4872-4876 (IGR: 5-3)

9795 Effects of isometric exercise on subfoveal choroidal blood flow in smokers and nonsmokers
Wimpissinger B; Resch H; Berisha F; Weigert G; Polak K; Schmetterer L
Investigative Ophthalmology and Visual Science 2003; 44: 4859-4863 (IGR: 5-3)

9792 Association between lower optic nerve laser Doppler blood volume measurements and glaucomatous visual field progression
Zink JM; Grunwald JE; Piltz-Seymour J; Staii A; Dupont J
British Journal of Ophthalmology 2003; 87: 1487-1491 (IGR: 5-3)

9149 Progressive changes in ophthalmic blood velocities in Beagles with primary open angle glaucoma
Gelatt KN; Miyabayashi T; Gelatt-Nicholson KJ; MacKay EO
Veterinary Ophthalmology 2003; 6: 77-84 (IGR: 5-2)

9175 Evaluation of pulsatile ocular blood flow in primary open angle glaucoma: trabeculectomy vs medical therapy
Agarwal HC; Gupta V; Sihota R
Annals of ophthalmology (Skokie, Ill.) 2003; 35: 53-56 (IGR: 5-2)

9180 Scanning laser Doppler flowmetry of nonperfused regions of the optic nerve head in patients with glaucoma
Ben-Simon GJ; Moroz I; Goldenfeld M; Melamed S
Ophthalmic Surgery Lasers and Imaging 2003; 34: 245-250 (IGR: 5-2)

9171 In vivo analysis of choroidal circulation by continuous laser-targeted angiography in the rat
Hirata Y; Nishiwaki H; Miura S; Ieki Y; Kiryu J; Honda Y
Investigative Ophthalmology and Visual Science 2003; 44: 3103-3109 (IGR: 5-2)

9172 Central retinal artery and vein collapse pressure in eyes with chronic open angle glaucoma
Jonas JB
British Journal of Ophthalmology 2003; 87: 949-951 (IGR: 5-2)

9173 Optic disc morphometry correlated with confocal laser scanning Doppler flowmetry measurements in normal-pressure glaucoma
Jonas JB; Harazny J; Budde WM; Mardin CY; Papastathopoulos KI; Michelson G
Journal of Glaucoma 2003; 12: 260-265 (IGR: 5-2)

9177 The effect of age on ocular blood supply determined by pulsatile ocular blood flow and color Doppler ultrasonography
Lam AKC; Chan ST; Chan H; Chan B
Optometry and Vision Science 2003; 80: 305-311 (IGR: 5-2)

9170 Choroidal blood flow during exercise-induced changes in the ocular perfusion pressure
Lovasik JV; Kergoat H; Riva CE; Petrig BL; Geiser M
Investigative Ophthalmology and Visual Science 2003; 44: 2126-2132 (IGR: 5-2)

9179 Effect of exercise on intraocular pressure and pulsatile ocular blood flow in a young normal population
Price EL; Gray LS; Humphries L; Zweig C; Button NF
Optometry and Vision Science 2003; 80: 460-466 (IGR: 5-2)

9168 Rate of progression of glaucoma correlates with retrobulbar circulation and intraocular pressure
Satilmis M; Orgul S; Doubler B; Flammer J
American Journal of Ophthalmology 2003; 135: 664-669 (IGR: 5-2)

8855 In Vivo imaging of human retinal flow dynamics by color Doppler optical coherence tomography
Yazdanfar S; Rollins AM; Izatt JA
Archives of Ophthalmology 2003; 121: 235-239 (IGR: 5-1)

8750 Detection of visual activation of lateral geniculate nucleus by positron emission tomography
Mizoguchi S; Suzuki Y; Kiyosawa M; Mochizuki M; Kawasaki T; Ishii K; Senda M
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 8-12 (IGR: 5-1)

8606 Blood pO2 and blood flow at the optic disc
Chamot SR; Cranstoun SD; Petrig BL; Pournaras CJ; Riva CE
Journal of biomedical Optics 2003; 8: 63-69 (IGR: 5-1)

8443 Role of endothelin-1 in choroidal blood flow regulation during isometric exercise in healthy humans
Fuchsjager-Mayrl G; Luksch A; Malec M; Polska E; Wolzt M; Schmetterer L
Investigative Ophthalmology and Visual Science 2003; 44: 728-733 (IGR: 5-1)

8650 Variability and repeatability of retinal blood flow measurements using the Canon Laser Blood Flowmeter
Guan K; Hudson C; Flanagan JG
Microvascular Research 2003; 65: 145-151 (IGR: 5-1)

8652 Choroidal vascular reaction to hand-grip stress in subjects with vasospasm and its relevance in glaucoma
Gugleta K; Orgul S; Hasler PW; Picornell T; Gherghel D; Flammer J
Investigative Ophthalmology and Visual Science 2003; 44: 1573-1580 (IGR: 5-1)

8444 Changes in optic nerve head blood flow after therapeutic intraocular pressure reduction in glaucoma patients and ocular hypertensives
Hafez AS; Bizzarro RL; Rivard M; Lesk MR
Ophthalmology 2003; 110: 201-210 (IGR: 5-1)

8441 Blood flow per unit retinal nerve fibre tissue volume is lower in the human inferior retina
Harris A; Ishii Y; Chung HS; Jonescu-Cuypers CP; McCranor LJ; Kagemann L; Garzozi HJ
British Journal of Ophthalmology 2003; 87: 184-188 (IGR: 5-1)

8659 Comparative analysis of the effects of dorzolamide and latanoprost on ocular hemodynamics in normal tension glaucoma patients
Harris A; Migliardi R; Rechtman E; Cole CN; Yee AB; Garzozi HJ
European Journal of Ophthalmology 2003; 13: 24-31 (IGR: 5-1)

8446 Reduced cerebrovascular blood flow velocities and vasoreactivity in open-angle glaucoma
Harris A; Zarfati D; Zalish M; Biller J; Sheets CW; Rechtman E; Migliardi R; Garzozi HJ
American Journal of Ophthalmology 2003; 135: 144-147 (IGR: 5-1)

8440 Observation of choroidal circulation using index of erythrocytic velocity
Isono H; Kishi S; Kimura Y; Hagiwara N; Konishi N; Fujii H
Archives of Ophthalmology 2003; 121: 225-231 (IGR: 5-1)

8449 Reliability of a new laser Doppler velocimetry for retinal blood flow
Kitanishi K; Harino S
Japanese Journal of Clinical Ophthalmology 2002; 56: 1707-1711 (IGR: 5-1)

8442 Role of NO in choroidal blood flow regulation during isometric exercise in healthy humans
Luksch A; Polska E; Imhof A; Schering J; Fuchsjager-Mayrl G; Wolzt M; Schmetterer L
Investigative Ophthalmology and Visual Science 2003; 44: 734-739 (IGR: 5-1)

8762 Evaluation analysis of blood flow of peripapillary area in glaucoma patients using scanning laser Doppler flowmetry
Nizankowska MH; Jamrozy-Witkowska A; Asejczyk M
Klinika Oczna 2002; 104: 201-206 (IGR: 5-1)

8777 Peripheral vasospasm and nocturnal blood pressure dipping: two distinct risk factors for glaucomatous damage?
Pache M; Dubler B; Flammer J
European Journal of Ophthalmology 2003; 13: 260-265 (IGR: 5-1)

8834 The effects of latanoprost and brimonidine on blood flow velocity of the retrobulbar vessels: a 3-month clinical trial
Übeyt Inan Ü; Samet Ermis S; Yücel A; Öztürk F
Acta Ophthalmologica Scandinavica 2003; 81: 155-160 (IGR: 5-1)

8445 Reproducibility and clinical application of a newly developed stabilized retinal laser Doppler instrument
Yoshida A; Feke GT; Mori F; Nagaoka T; Fujio N; Ogasawara H; Konno S; Mcmeel JW
American Journal of Ophthalmology 2003; 135: 356-361 (IGR: 5-1)

8694 Retinal nerve fiber layer analysis and evaluation of eye blood flow in patients with glaucoma
Karczewicz D; Modrzejewska M; Kuprjanowicz L
Klinika Oczna 2002; 104: 207-210 (IGR: 5-1)

8451 Use of a dual-component analytic method of rheo-ophthalmolography for assessing the functional status of vessels in the eye
Khadikova EV
Vestnik Oftalmologii 2002; 118: 35-38 (IGR: 5-1)

8450 Ocular blood flow in patients with asymmetric glaucoma
Kuba GB; Austermann P; Kroll P
Ophthalmologe 2002; 99: 835-838 (IGR: 5-1)

8716 Condition of ocular blood supply in patients with primary open-angle glaucoma with normal pressure
Kunin VD
Vestnik Oftalmologii 2003; 119: 10-13 (IGR: 5-1)

8741 Evaluation of vascular risk factors in primary open-angle glaucoma using Doppler sonography
Maricic Dosen V; Karaman Martinovic Z
Acta Medica Croatica 2002; 56: 99-102 (IGR: 5-1)

8137 Efficacy of latanoprost additive therapy on uncontrolled glaucoma
Bayer A; Tas A; Sobac G; Henderer JD
Ophthalmologica 2002; 216: 443-448 (IGR: 4-3)

8309 The relationship between retrobulbar blood flow velocity and glaucoma damage: an intraindividual comparison
Breil P; Krummenauer F; Schmitz S; Pfeiffer N
Ophthalmologe 2002; 99: 613-616 (IGR: 4-3)

8135 The impact of ocular blood flow in glaucoma
Flammer J; Orgul S; Costa VP; Orzalesi N; Krieglstein GK; Serra LM; Renard JP; Stefansson E
Progress in Retinal and Eye Research 2002; 21: 359-393 (IGR: 4-3)

8139 Retinal blood flow in the normal human eye using the canon laser blood flowmeter
Garcia Jr JPS; Garcia PT; Rosen RB
Ophthalmic Research 2002; 34: 295-299 (IGR: 4-3)

8350 Influence of diffuse luminance flicker on choroidal and optic nerve head blood flow
Garhofer G; Huemer KH; Zawinka C; Schmetterer L; Dorner GT
Current Eye Research 2002; 24: 109-113 (IGR: 4-3)

8241 Intraobserver reproducibility of a two-dimensional mapping of the optic nerve head perfusion
Iester M; Altieri M; Michelson G; Vittone P; Calabria G; Traverso CE
Journal of Glaucoma 2002; 11: 488-492 (IGR: 4-3)

8140 Pulsatile ocular blood flow: the effect of the Valsalva manoeuvre in open angle and normal tension glaucoma: a case report and prospective study
Khan JC; Hughes EH; Tom BD; Diamond JP
British Journal of Ophthalmology 2002; 86: 1089-1092 (IGR: 4-3)

8138 Arterial pressure in the orbital artery and eye perfusion in patients with different stages of primary open-angle glaucoma
Kunin VD
Vestnik Oftalmologii 2002; 118: 5-7 (IGR: 4-3)

8325 Ocular hemodynamics study on acute angle-closure glaucoma with color Doppler flow imaging
Mai D; Wei Z
Chinese Ophthalmic Research 2002; 20: 457-458 (IGR: 4-3)

8134 The first technique for non-invasive measurements of volumetric ophthalmic artery blood flow in humans
Orge F; Harris A; Kagemann L; Kopecky K; Sheets CW; Rechtman E; Zalish M
British Journal of Ophthalmology 2002; 86: 1216-1219 (IGR: 4-3)

8344 Measurements in the peripheral retina using LDF and laser interferometry are mainly influenced by the choroidal circulation
Polska E; Luksch A; Ehrlich P; Sieder A; Schmetterer L
Current Eye Research 2002; 24: 318-323 (IGR: 4-3)

8141 A rabbit model to study orbital venous pressure, intraocular pressure, and ocular hemodynamics simultaneously
Reitsamer HA; Kiel JW
Investigative Ophthalmology and Visual Science 2002; 43: 3728-3734 (IGR: 4-3)

8136 Ocular pulse amplitude in patients with open angle glaucoma, normal tension glaucoma, and ocular hypertension
Schwenn O; Troost R; Vogel A; Grus F; Beck S; Pfeiffer N
British Journal of Ophthalmology 2002; 86: 981-984 (IGR: 4-3)

8285 Reflex choroidal blood flow responses of the eyeball following somatic sensory stimulation in rats
Shimura M; Uchida S; Suzuki A; Nakajima K; Aikawa Y
Auton Neuroscience 2002; 97: 35-41 (IGR: 4-3)

8346 Validation of scanning laser Doppler flowmetry for retinal blood flow measurements in animal models
Tamaki Y; Araie M; Fukaya Y; Ishi K
Current Eye Research 2002; 24: 332-340 (IGR: 4-3)

3449 Effects of dopamine on ciliary blood flow, aqueous production, and intraocular pressure in rabbits
Reitsamer HA; Kiel JW
Investigative Ophthalmology and Visual Science 2002; 43: 2697-2703 (IGR: 4-2)

3469 Capillary density and retinal diameter measurements and their impact on altered retinal circulation in glaucoma: a digital fluorescein angiographic study
Arend O; Remky A; Plange N; Martin BJ; Harris A
British Journal of Ophthalmology 2002; 86: 429-433 (IGR: 4-2)

3470 Retrobulbar circulation in myopic patients with or without myopic choroidal neovascularization
Dimitrova G; Tamaki Y; Kato S; Nagahara M
British Journal of Ophthalmology 2002; 86: 771-773 (IGR: 4-2)

3471 The effect of intraocular pressure on ocular hemodynamics in acute angle-closure glaucoma
Dong Y; Zhang W; Song Y
Chinese Ophthalmic Research 2002; 20: 157-159 (IGR: 4-2)

3472 Effect of senescence on ocular blood flow in the retina, neuroretinal rim and lamina cribrosa, using scanning laser Doppler flowmetry
Embleton SJ; Hosking SL; Roff Hilton EJ; Cunliffe IA
Eye 2002; 16: 156-162 (IGR: 4-2)

3473 Spectral content of the intraocular pressure pulse wave: glaucoma patients versus normal subjects
Evans DW; Hosking SL; Embleton SJ; Morgan AJ; Bartlett JD
Graefe's Archive for Clinical and Experimental Ophthalmology 2002; 240: 475-480 (IGR: 4-2)

3474 Nocturnal blood pressure reduction: effect on retrobulbar hemodynamics in glaucoma
Harris A; Evans D; Martin B; Zalish M; Kagemann L; McCranor L; Garzozi H
Graefe's Archive for Clinical and Experimental Ophthalmology 2002; 240: 372-378 (IGR: 4-2)

3475 Effects of sympathetic nerve stimulation on long posterior ciliary artery blood flow in cats
Koss MC
Journal of Ocular Pharmacology and Therapeutics 2002; 18: 115-125 (IGR: 4-2)

3476 Observer experience improves reproducibility of color Doppler sonography of orbital blood vessels
Nemeth J; Kovacs R; Harkanyi Z; Knezy K; Senyi K; Marsovszky I
Journal of Clinical Ultrasound 2002; 30: 332-335 (IGR: 4-2)

3477 Reliability of computer-assisted retinal vessel measurement in a population
Sherry LM; Wang JJ; Rochtchina E; Wong T; Klein R; Hubbard L; Mitchell P
Clinical and Experimental Ophthalmology 2002; 30: 179-182 (IGR: 4-2)

3478 The effect of losartan potassium on choroidal hemodynamics in healthy subjects
Spicher T; Orgül S; Gugleta K; Teuchner B; Flammer J
Journal of Glaucoma 2002; 11: 177-182 (IGR: 4-2)

3479 Increased ocular blood vessel numbers and sizes following chronic sympathectomy in rat
Steinle JJ; Pierce JD; Clancy RLG; Smith P
Experimental Eye Research 2002; 74: 761-768 (IGR: 4-2)

3480 Optic disc blood flow change after trabeculectomy
Xu Z; Chen X; Song G
Chinese Ophthalmic Research 2002; 20: 170-172 (IGR: 4-2)

3481 Measurement of flow velocity in feeder vessels of choroidal neovascularization with a scanning laser ophthalmoscope and image analysis system
Yamamoto Y
Nippon Ganka Gakkai Zasshi 2002; 106: 287-292 (IGR: 4-2)

6648 Optic nerve head behavior in Posner-Schlossman syndrome
Darchuk V; Sampaolesi J; Lopez Mato O; Nicoli C; Sampaolesi R
International Ophthalmology 2001; 23: 373-379 (IGR: 4-1)

6657 Evidence that nitric oxide is involved in autoregulation in optic nerve head of rabbits
Okuno T; Oku H; Sugiyama T; Yang Y; Ikeda T
Investigative Ophthalmology and Visual Science 2002; 43: 784-789 (IGR: 4-1)

6665 Effect of sympathetic denervation on rabbit choroidal blood flow
Chou PI; Lu DW; Chen JT
Ophthalmologica 2002; 216: 60-64 (IGR: 4-1)

6673 Pharmacological effects of latanoprost prostaglandin E₂, and F_2α on isolated rabbit ciliary artery
Ishikawa H; Yoshitoma T; Mashimo K; Nakanishi M; Shimizu K
Graefe's Archive for Clinical and Experimental Ophthalmology 2002; 240: 120-125 (IGR: 4-1)

6685 Improved leukocyte tracking in mouse retinal and choroidal circulation
Xu H; Manivannan A; Goatman KA; Liversidge J; Sharp PF; Forrester JV; Crane IJ
Experimental Eye Research 2002; 74: 403-410 (IGR: 4-1)

6687 Effects on carbogen gas to the anterior choroidal blood flow in rats
Zhou Q; Qiu Y; Gao C
Chinese Ophthalmic Research 2001; 19: 503-506 (IGR: 4-1)

6700 Dorzolamide and ocular blood flow in previously untreated glaucoma patients: a controlled double-masked study
Bergstrand IC; Heijl A; Harris A
Acta Ophthalmologica Scandinavica 2002; 80: 176-182 (IGR: 4-1)

6701 Comparison of two transducers for color Doppler imaging of the retrobulbar vessels
Boehm AG; Helmke K; Berry CC; Weinreb RN
Journal of Glaucoma 2002; 11: 148-153 (IGR: 4-1)

6702 Effect of isovolumic hemodilution on oxygen delivery to the optic nerve head
Chamot SR; Petrig BL; Pournaras CJ; Riva CE
Klinische Monatsblätter für Augenheilkunde 2002; 219: 292-295 (IGR: 4-1)

6704 Hemoglobin oxygen saturation (SO₂) in the human ocular fundus measured by reflectance oximetry: preliminary data in retinal veins
Crittin M; Schmidt H; Riva CE
Klinische Monatsblätter für Augenheilkunde 2002; 219: 289-291 (IGR: 4-1)

6705 Qualitative perfusion imaging of the human optic nerve
Garcia GH; Donahue KM; Ulmer JL; Harris GJ
Ophthalmic Plastic and Reconstructive Surgery 2002; 18: 107-113 (IGR: 4-1)

6706 Reliability of confocal choroidal laser Doppler flowmetry
Gugleta K; Orgul S; Flammer I; Gherghel D; Flammer J
Investigative Ophthalmology and Visual Science 2002; 43: 723-728 (IGR: 4-1)

6707 Vascular dysregulation in the choroid of subjects with acral vasospasm
Hasler PW; Orgul S; Gugleta K; Vogten H; Zhao X; Gherghel D; Flammer J
Archives of Ophthalmology 2002; 120: 302-307 (IGR: 4-1)

6708 Change in retrobulbar circulation during menstrual cycle assessed by Doppler ultrasound
Karadeniz MY; Yucel A; Altan Kara S; Noyan V; Altinok D; Ergin A; Bayram M; Guney S
Ultrasound in Medicine and Biology 2002; 28: 33-37 (IGR: 4-1)

6709 Glaucomatous optic nerve head changes with scanning laser ophthalmoscopy
Marengo J; Ucha RA; Martinez Cartier M; Sampaolesi JR
International Ophthalmology 2001; 23: 413-423 (IGR: 4-1)

6710 Pulsatile ocular blood flow in patients with pseudoexfoliation
Mistlberger A; Gruchmann M; Hitzl W; Grabner G
International Ophthalmology 2001; 23: 337-342 (IGR: 4-1)

6711 Effect of palmitoleic acid on bradykinin-induced endothelium-dependent relaxation in isolated pig ciliary artery
Morf T; Beny JL; Flammer J; Haefliger IO
Klinische Monatsblätter für Augenheilkunde 2002; 219:284-288 (IGR: 4-1)

6712 Retinal vessel reaction to short-term IOP elevation in ocular hypertensive and glaucoma patients
Nagel E; Vilser W; Lanzi IM
European Journal of Ophthalmology 2001; 11: 338-344 (IGR: 4-1)

6713 Short-term effect of beta-adrenoreceptor blocking agents on ocular blood flow
Sato T; Muto T; Ishibashi Y; Roy S
Current Eye Research 2001; 23: 298-306 (IGR: 4-1)

6340 Retinal nerve fiber layer thickness and peripapillary blood flow in glaucoma patients and healthy probands
Kuba GB; Pillunat LE; Boehm AG; Klemm M
Ophthalmologe 2001; 98: 41-46 (IGR: 3-2)

6394 Contrast study of the methods on early diagnosis in primary glaucoma
Ying T; Xiuping Z; Siyuan S
Chinese Ophthalmic Research 2001; 19: 265-268 (IGR: 3-2)

6397 Ocular hemodynamics and visual field in glaucoma treated with dorzolamide
Bernd AS; Pillunat LE; Boehm AG; Schmidt KG; Richard G
Ophthalmologe 2001; 98: 451-455 (IGR: 3-2)

6398 Color Doppler imaging study of retrobulbar hemodynamics in chronic angle-closure glaucoma
Cheng CY; Liu CJ; Chiou HJ; Chou JC; Hsu WM; Liu JH
Ophthalmology 2001; 108: 1445-1451 (IGR: 3-2)

6399 Perfusion of the optic nerve head and visual field damage in glaucomatous patients
Ciancaglini M; Carpineto P; Costagliola C; Matropasqua L
Graefe's Archive for Clinical and Experimental Ophthalmology 2001; 239: 549-555 (IGR: 3-2)

6400 Glaucomatous optic neuropathy: reperfusion damage
Flammer J
Klinische Monatsblätter für Augenheilkunde 2001; 218: 290-291 (IGR: 3-2)

6401 Ocular blood flow measurements and their importance in glaucoma and age-related macular degeneration
Garzozi HJ; Shoham N; Chung HS; Kagemann L; Harris A
Israeli Medical Association Journal 2001; 3: 443-448 (IGR: 3-2)

6402 Blood flow of the optic nerve head and peripapillary retina in exfoliation syndrome with unilateral glaucoma or ocular hypertension
Harju M; Vesti E
Graefe's Archive for Clinical and Experimental Ophthalmology 2001; 239: 271-277 (IGR: 3-2)

6403 Detector sensitivity influences blood flow sampling in scanning laser Doppler flowmetry
Hosking SL; Embleton S; Kagemann L; Chabra A; Jonescu-Cuypers C; Harris A
Graefe's Archive for Clinical and Experimental Ophthalmology 2001; 239: 407-410 (IGR: 3-2)

6404 Effects of atropine and propranolol on retinal vessel diameters during isometric exercise
Jandrasits K; Polak K; Luksch A; Stark B; Dorner GT; Eichler HG; Schmetterer L
Ophthalmic Research 2001; 33: 185-190 (IGR: 3-2)

6405 Ocular hemodynamics during isometric exercise
Kiss B; Dallinger S; Polak K; Findl O; Eichler HG; Schmetterer L
Microvascular Research 2001; 61: 1-13 (IGR: 3-2)

6406 Decreased Heidelberg Retina Flowmeter (HRF) parameter 'flow' at the papilla shortly after smoking a cigarette
Lietz-Partzsch A; Griesser SM; Flammer J; Haefliger IO
Klinische Monatsblätter für Augenheilkunde 2001; 218: 332-334 (IGR: 3-2)

6407 Factors affecting pulsatile ocular blood flow in normal subjects
Mori F; Konno S; Hikichi T; Yamaguchi Y; Ishiko S; Yoshida A
British Journal of Ophthalmology 2001; 85: 529-530 (IGR: 3-2)

6409 Optic nerve blood flow is diminished in eyes of primary open-angle glaucoma suspects
Piltz-Seymour JR; Grunwald JE; Hariprasad SM; Dupont J
American Journal of Ophthalmology 2001; 132: 63-69 (IGR: 3-2)

6410 Studies of the hemodynamics of the optic head nerve using laser Doppler flowmetry
Pournaras CJ; Riva CE
Journal Français d'Ophtalmologie 2001; 24: 199-205 (IGR: 3-2)

6411 Changes in ocular blood flow velocities during external counterpulsation in healthy volunteers and patients with atherosclerosis
Werner D; Michelson G; Harazny J; Michalk F; Voigt JU; Daniel WG
Graefe's Archive for Clinical and Experimental Ophthalmology 2001; 239: 599-602 (IGR: 3-2)

15696 Regional regulation of choroidal blood flow by autonomic innervation in the rat
Steinle JJ; Krizsan-Agbas D; Smith PG
American Journal of Physiology. Regulatory, Integrative and Comparative Physiology 2000; 279: R202-209 (IGR: 2-3)

15632 Local anaesthetic techniques and pulsatile ocular blood flow
Chang BY; Hee WC; Ling R; Broadway DC; Beigi B
British Journal of Ophthalmology 2000; 84: 1260-1263 (IGR: 2-3)

15895 Bilateral superior cervical ganglionectomy increases choroidal blood flow in the rabbit
Chou P-I; Lu D-W; Chen J-T
Ophthalmologica 2000; 214: 421-425 (IGR: 2-3)

15673 Evaluation of the effects of alpha-agonists on the optic nerve head blood flow
Ciancaglini M; Carpineto P; Aharrh-Gnama A; Scaramucci S; Falconio G; Costantino O; Gavalas C; Mastropasqua L
Annali di Ottalmologia e Clinica Oculistica 2000; 126: 45-51 (IGR: 2-3)

15691 Assessment of optic disc blood flow in patients with open-angle glaucoma
Findl O; Rainer G; Dallinger S; Dorner GT; Polak K; Kiss B; Georgopoulos M; Vass C; Schmetterer L
American Journal of Ophthalmology 2000; 130: 589-596 (IGR: 2-3)

15671 Ocular blood flow: reproducibility of Heidelberg Retina Flowmeter data and no effect of metipranolol in healthy volunteers
Funk J; Müller-Velten R; Ness T
Klinische Monatsblätter für Augenheilkunde 2000; 217: 263-268 (IGR: 2-3)

15796 Response of choroidal blood flow in the foveal region to hyperoxia and hyperoxia-hypercapnia
Geiser MH; Riva CE; Dorner GT; Diermann U; Luksch A; Schmetterer L
Current Eye Research 2000; 21: 669-676 (IGR: 2-3)

15693 Relationship between ocular perfusion pressure and retrobulbar blood flow in patients with glaucoma with progressive damage
Gherghel D; Orgul S; Gugleta K; Gekkieva M; Flammer J
American Journal of Ophthalmology 2000; 130: 597-605 (IGR: 2-3)

15687 Normal-tension glaucoma with reversed ophthalmic artery flow
Hashimoto M; Ohtsuka K; Ohtsuka H; Nakagawa T
American Journal of Ophthalmology 2000; 130: 670-672 (IGR: 2-3)

15881 Velocity model for Heidelberg retina flowmetry
Hendrickson
Klinische Monatsblätter für Augenheilkunde 2000; 217: 289-295 (IGR: 2-3)

15672 Effect of topical timolol on optic nerve head circulation in the cynomolgus monkey
Ishii K; Araie M
Japanese Journal of Ophthalmology 2000; 44: 630-633 (IGR: 2-3)

15739 Endothelin modulation of choroidal blood flow in the rabbit
Kiel JW
Experimental Eye Research 2000; 71: 543-550 (IGR: 2-3)

15868 Effects of systemic NO synthase inhibition on choroidal and optic nerve head blood flow in healthy subjects
Luksch A; Polak K; Beier C; Polska E; Wolzt M; Dorner GT; Eichler HG; Schmetterer L
Investigative Ophthalmology and Visual Science 2000; 41: 3080-3084 (IGR: 2-3)

15675 A comparative study on the effects of apraclonidine and timolol on the ophthalmic blood flow velocity waveforms
Oruç S; Sener EC
International Ophthalmology 1999; 23: 69-73 (IGR: 2-3)

15792 Free fatty acids/triglycerides increase ocular and subcutaneous blood flow
Polak K; Schmetterer L; Luksch A; Gruber S; Polska E; Peternell V; Bayerle-Eder M; Wolzt M; Krebs M; Roden M
American Journal of Physiol Heart Circ Physiol 2001; 280: R56-61 (IGR: 2-3)

15848 Evaluation of leukocyte dynamics in choroidal circulation with indocyanine green-stained leukocytes
Takasu I; Shiraga F; Okanouchi T; Tsuchida Y; Ohtsuki H
Investigative Ophthalmology and Visual Science 2000; 41: 2844-1848 (IGR: 2-3)

15746 Intraocular pressure and pulse rate measurements by the OBF tonograph: comparison to reference instruments
Yang YC; Illango B; Cook A; Batterbury M
Ophthalmic and Physiological Optics 2000; 20: 401-407 (IGR: 2-3)

15745 Measurement of microcirculation in optic nerve head by laser speckle flowgraphy in normal volunteers
Yaoeda K; Shirakashi M; Funaki S; Funaki H; Nakatsue T; Fukushima A; Abe H
American Journal of Ophthalmology 2000; 130: 606-610 (IGR: 2-3)

5967 Anterior optic nerve microvascular changes in human glaucomatous optic neuropathy
Zhao DY; Cioffi GA
Eye 2000; 14: 445-449 (IGR: 2-2)

6067 Color Doppler imaging in glaucoma patients with asymmetric visual field loss
Ates H; Uretmen O; Killi R; Akkin C; Andac K
Annals of Ophthalmology - Glaucoma 2000; 32: 123-126 (IGR: 2-2)

6068 Central and regional hemodynamics of eyes in different course of primary open-angle glaucoma with normalized intraocular pressure and their relationship with circulation types, sympathoadrenal activity and hydrocortisone level
Egorov VV; Sorokin EL; Smoliakova GP
Vestnik Oftalmologii 2000; 116: 3-5 (IGR: 2-2)

6069 Aging affects the retrobulbar circulation differently in women and men
Harris A; Harris M; Biller J; Garzozi H; Zarfty D; Ciulla TA; Martin B
Archives of Ophthalmology 2000; 118: 1076-1080 (IGR: 2-2)

6070 Optic disc blood flow measured by scanning laser-Doppler flowmetry using a new analysis program
Hayashi N; Tomita G; Kitazawa Y
Nippon Ganka Gakkai Zasshi 2000; 104: 148-153 (IGR: 2-2)

6071 A preliminary study on the ocular blood flow (OBF) of Hong Kong Chinese
Lam AK; Chan H; Fan W; To CH
Ophthalmic and Physiological Optics 1999; 19: 512-517 (IGR: 2-2)

6072 Relationship between the effect of carbon dioxide inhalation or nilvadipine on orbital blood flow in normal-tension glaucoma
Niwa Y; Yamamoto T; Harris A; Kagemann L; Kawakami H; Kitazawa Y
Journal of Glaucoma 2000; 9: 262-267 (IGR: 2-2)

6073 Modulation of ocular hydrodynamics and iris function by bremazocine, a kappa opioid receptor agonist
Russell KR; Wang DR; Potter DE
Experimental Eye Research 2000; 70: 675-682 (IGR: 2-2)

6074 Interocular difference in progression of glaucoma correlates with interocular differences in retrobulbar circulation
Schumann J; Orgul S; Gugleta K; Dubler B; Flammer J
American Journal of Ophthalmology 2000; 129: 728-733 (IGR: 2-2)

6075 Comparative assessment of hemodynamic risk factors of glaucomatous optic neuropathy progress
Shmyreva VF; Shershnev VV; Shmeleva OA
Vestnik Oftalmologii 2000; 116: 6-7 (IGR: 2-2)

6076 Blood flow parameters in ocular vessels of patients with glaucoma
Ustymowicz A; Krejza J; Tarasow E; Mariak Z; Zalewska R; Proniewska-Skretek E; Stankiewicz A
Klinika Oczna 1999; 101: 445-449 (IGR: 2-2)

6077 Measurement of microcirculation in the optic nerve head by laser speckle flowgraphy and scanning laser Doppler flowmetry
Yaoeda K; Shirakashi M; Funaki S; Funaki H; Nakatsue T; Abe H
American Journal of Ophthalmology 2000; 129: 734-739 (IGR: 2-2)

6078 Assessment of the retinal blood flow by DRG retina Doppler in primary open angle glaucoma and normal tension glaucoma
Zaluczkowska-Marcela K; Rusek P; Dudzinski A; Filipecka I
Klinika Oczna 2000; 102: 115-118 (IGR: 2-2)

5628 The significance of nitric oxide for parasympathetic vasodilation in the eye and other orbital tissues in the cat
Nilsson SF
Experimental Eye Research 2000; 70:61-72 (IGR: 2-1)

5673 In vivo measurement of ocular circulation with the laser speckle method: development of apparatus and application in ophthalmological research
Araie M
Nippon Ganka Gakkai Zasshi 1999; 103:871-909 (IGR: 2-1)

5674 The effect of brimonidine tartrate on retinal blood flow in patients with ocular hypertension (corrected and republished article originally printed in Am J Ophthalmol 1999 128(6):697-701)
Carlsson AM; Chauhan BC; Lee AA; Leblanc RP
American Journal of Ophthalmology 2000; 129: 297-301 (IGR: 2-1)

5675 Iris blood flow response to acute decreases in ocular perfusion pressure: a laser Doppler flowmetry study in humans
Chamot SR; Movaffaghy A; Petrig BL; Riva CE
Experimental Eye Research 2000; 70:107-112 (IGR: 2-1)

5676 Endothelin-1 contributes to hyperoxia-induced vasoconstriction in the human retina
Dallinger S; Dorner GT; Wenzel R; Graselli U; Findl O; Eichler HG; Wolzt M; Schmetterer L
Investigative Ophthalmology and Visual Science 2000; 41:864-869 (IGR: 2-1)

5678 Combined effect of topical latanoprost and timolol on retinal blood flow and tissue circulation in the optic nerve head in cynomolgus monkeys
Ishii K; Araie M
Nippon Ganka Gakkai Zasshi 2000; 104: 3-10 (IGR: 2-1)

5679 Doppler-sonography of the short posterior ciliary arteries in primary open angle glaucoma patients
Klingmuller V; Schmidt K-G; Ruckmann AV; Koch B; Stein A
Ultraschall in der Medizin 2000; 21:32-37 (IGR: 2-1)

5680 Long-term effect of topically applied isopropyl unoprostone on microcirculation in the choroid-retina
Makimoto Y; Sugiyama T; Kojima S; Azuma I
Nippon Ganka Gakkai Zasshi 2000; 104: 39-43 (IGR: 2-1)

5681 Pulsatile ocular blood flow in patients with pseudoexfoliation
Mistlberger A; Gruchmann M; Hitzl W; Sitte S; Grabner G
Spektrum der Augenheilkunde 2000; 14:14-18 (IGR: 2-1)

5682 Effects of scleral buckling and encircling procedures on human optic nerve head and retinochoroidal circulation
Nagahara M; Tamaki Y; Araie M; Eguchi S
British Journal of Ophthalmology 2000; 84:31-36 (IGR: 2-1)

5683 Effects of insulin on retinal and pulsatile choroidal blood flow in humans
Polak K; Dallinger S; Polska E; Findl O; Eichler HG; Wolzt M; Schmetterer L
Archives of Ophthalmology 2000; 118:55-59 (IGR: 2-1)

5684 Potential role for Ginkgo biloba extract in the treatment of glaucoma
Ritch R
Medical Hypotheses 2000; 54: 221-235 (IGR: 2-1)

5685 Choroidal laser Doppler flowmetry in healthy subjects
Straubhaar M; Orgül S; Gugleta K; Schoetzau A; Erb C; Flammer J
Archives of Ophthalmology 2000; 118:211-215 (IGR: 2-1)

5686 Effect of nitric oxide synthase inhibitor on optic nerve head circulation in conscious rabbits
Sugiyama T; Oku H; Ikari S; Ikeda T
Investigative Ophthalmology and Visual Science 2000; 41: 1149-1152 (IGR: 2-1)

15345 Is corneal temperature correlated with blood-flow velocity in the ophthalmic artery?
Gugleta K; Orgül S; Flammer J
Current Eye Research 1999; 6: 496-501 (IGR: 1-3)

15375 Effects of elevated intraocular pressure on haemoglobin oxygenation in the rabbit optic nerve head: a microendoscopical study
Selbach MJ; Wonka F; Höper J; Funk RHW
Experimental Eye Research 1999; 69: 301-309 (IGR: 1-3)

15418 Effect of brimonidine on optic nerve blood flow in rabbits
Bhandari A; Cioffi GA; Van Buskirk EM; Orgül S; Wang L
American Journal of Ophthalmology 1999; 128: 601-605 (IGR: 1-3)

15419 Color Doppler ultrasonography of short para-optic ciliary arteries in vascular glaucoma
Bresson-Dumont H; De Bray JM; Béchetoille A
Journal Français d'Ophtalmologie 1999; 22: 743-748 (IGR: 1-3)

15420 Color Doppler imaging of ocular blood flow after topical ketanserin
Cellini M; Caramazza R
Ophthalmologica 1999; 213: 286-289 (IGR: 1-3)

15421 Optic nerve blood flow in glaucoma
Cioffi GA; Wang L
Seminars in Ophthalmology 1999; 14: 164-170 (IGR: 1-3)

15422 Effects of 0.005% latanoprost on optic nerve head and peripapillary retinal blood flow
Gong Je Seong; Hyung Keun Lee; Young Jae Hong
Ophthalmologica 1999; 213: 355-359 (IGR: 1-3)

15423 Modulation of choroidal autoregulation in the rabbit
Kiel JW
Experimental Eye Research 1999; 69: 413-429 (IGR: 1-3)

15424 Effect of the consumption of ethanol on the microcirculation of the human optic nerve head in the acute phase
Kojima S; Sugiyama T; Kojima M; Azuma I; Ito S
Nippon Ganka Gakkai Zasshi 1999; 103: 811-816 (IGR: 1-3)

15425 Comprehensive assessment of retinal, choroidal and retrobulbar haemodynamics during blood gas perturbation
Roff EJ; Harris A; Chung HS; Hosking SL; Morrison AM; Halter PJ; Kagemann L
Graefe's Archive for Clinical and Experimental Ophthalmology 1999; 237: 984-990 (IGR: 1-3)

15426 Ocular pulse amplitude, intraocular pressure and beta-blocker/carbonic anhydrase combination therapy
Schmidt KG; Von Rückmann A; Becker R; Pillunat LE
Klinische Monatsblätter für Augenheilkunde 1999; 215: 361-366 (IGR: 1-3)

15427 Retrobulbar and peripheral capillary blood flow in hypercholesterolemic subjects
Senn B; Orgül S; Keller U; Dickermann D; Dubler B; Vavrecka J; Gasser P; Kaiser HJ; Flammer J
American Journal of Ophthalmology 1999; 128: 310-316 (IGR: 1-3)

15428 Optic nerve blood flow in glaucoma: Effect of systemic hypertension (multiple letters)
Wilson WB; Grunwald J; Piltz J
American Journal of Ophthalmology 1999; 128: 663-664 (IGR: 1-3)

5236 Influence of ophthalmic nerve fibers on choroidal blood flow and myopic eye growth in chicks
Shih YF; Fitzgerald ME; Cuthbertson SL; Reiner A
Experimental Eye Research 1999; 69: 9-20 (IGR: 1-2)

5271 Effet du Naftidrofuryl (Praxilène?) sur le flux sanguin de la tête du nerf optique du patient glaucomateux(Effects of naftidrofuryl (Praxilène?) on optic nerve head blood flow in glaucomatous patients
Achache F; Titzé P; Movaffaghy A; Mermoud A
Klinische Monatsblätter für Augenheilkunde 1999; 214: 260-262 (IGR: 1-2)

5273 Vliianie mestnoi gipotenzivnoi terapii na glaznuiu gemodinamiku u bol'nykh s pervichnoi otkrytougol'noi glaukomoi. (Effect of local hypotensive therapy on ocular hemodynamics in patients with primary open-angle glaucoma)
Bakshinskii PP
Vestnik Oftalmologii 1999; 115: 8-10 (IGR: 1-2)

5274 Regional distribution of optic nerve head blood flow
Boehm AG; Pillunat LE; Koeller U; Katz B; Schicketanz C; Klemm M; Richard G
Graefe's Archive for Clinical and Experimental Ophthalmology 1999; 237: 484-488 (IGR: 1-2)

5275 Relationship between blood flow velocities in retrobulbar vessels and laser Doppler flowmetry at the optic disk in glaucoma patients.
Bohdanecka Z; Orguel S; Meyer AB; Pruente C; Flammer J
Ophthalmologica 1999; 213: 145-149 (IGR: 1-2)

5276 Visual field responses to a hand vibration stimulus
Chai E; Goldberg I; Chia A; Chen J
Survey of Ophthalmology 1999; 43 (S1): S79-S86 (IGR: 1-2)

5277 Effet d'une diminution de la pression de perfusion oculaire sur le flux sanguin dans l'iris mesuré par fluxmétrie laser Doppler(Effect of a decreased ocular perfusion pressure on iris blood flow measured with laser Doppler flowmetry)
Chamot SR; Movaffaghy A; Petrig BL; Riva CE
Klinische Monatsblätter für Augenheilkunde 1999; 214: 302-304 (IGR: 1-2)

5278 Evaluation of ocular arterial changes in glaucoma with color Doppler ultrasonography.
Chiou HJ; Chou YH; Liu CJ; Hsu CC; Tiu CM; Teng MM; Chang CY
Journal of Ultrasound in Medicine 1999; 18: 295-302 (IGR: 1-2)

5279 Central and peripheral arteriovenous passage times of the retina in glaucoma
Duijm HFA; Van der Berg TJTP; Greve EL
Experimental Eye Research 1999; 69: 145-153 (IGR: 1-2)

5280 Glaucoma patients demonstrate faulty autoregulation of ocular blood flow during posture change
Evans DW; Harris A; Garrett M; Chung HS; Kagemann L
British Journal of Ophthalmology 1999; 83: 809-813 (IGR: 1-2)

5281 Effects of peribulbar anesthesia on ocular blood flow in patients undergoing cataract surgery.
Findl O; Dallinger S; Menapace R; Rainer G; Georgopoulos M; Kiss B; Schmetterer L
American Journal of Ophthalmology 1999; 127: 645-649 (IGR: 1-2)

5282 Mesure du flux sanguin choroïdien au moyen d'in nouvel instrument laser Doppler confocal(Choroidal blood flow measured with a new confocal compact laser Doppler flowmeter)
Geizer MH; Riva CE; Diermann U
Klinische Monatsblätter für Augenheilkunde 1999; 214: 285-287 (IGR: 1-2)

5283 Optic disk appearances in primary open-angle glaucoma
Goldberg I; Chai E; Chia A; Benscher C; Bauman A; Chen J
Survey of Ophthalmology 1999; 43 (S1): S66-S68 (IGR: 1-2)

5284 Heidelberg retina flowmeter parameters at the papilla in healthy subjects.
Griesser SM; Lietz A; Orguel S; Schoetzau A; Hendrickson P; Flammer J; Haefliger IO
European Journal of Ophthalmology 1999; 9: 32-36 (IGR: 1-2)

5285 Optic nerve blood flow in glaucoma: effect of systemic hypertension.
Grunwald JE; Piltz J; Hariprasad SM; Dupont J; Maguire MG
American Journal of Ophthalmology 1999; 127: 516-522 (IGR: 1-2)

5286 Modulation of Heidelberg Retinal Flowmeter parameter flow at the papilla of healthy subjects: Effect of carbogen, oxygen, high intraocular pressure, and β-blockers
Haefliger IO; Lietz A; Griesser SM; Ulrich A; Schötzau A; Hendrickson P; Flammer J
Survey of Ophthalmology 1999; 43 (S1): S59-S65 (IGR: 1-2)

5287 Progress in measurement of ocular blood flow and relevance to our understanding of glaucoma and age-related macular degeneration
Harris A; Chung HS; Ciulla TA; Kagemann L
Progress in Retinal and Eye Research 1999; 18: 669-687 (IGR: 1-2)

5288 Mechanisches Modell für Okular-Pulsatilfluss zur Prüfung des 'Ocular Blood Flow' (OBF)-Gerätes mit bekannten Druckpulsationen(Mechanical ocular pulsatile-flow model to challenge the 'Ocular Blood Flow' (OBF)-device with known pulsatile-flow values)
Hendrickson P
Klinische Monatsblätter für Augenheilkunde 1999; 214: 272-274 (IGR: 1-2)

5289 Mechanical fundus-perfusion model: blood-flow velocity determined with Heidelberg Retina Flowmetry (HRF) and digital ICG angiography (HRA)
Hendrickson P; DeMel T; Peterson JC
Klinische Monatsblätter für Augenheilkunde 1999; 214: 275-276 (IGR: 1-2)

5290 Sympathetic vasoconstriction in the rat anterior choroid is mediated by alpha1-adrenoceptors
Kawarai M; Koss MC
European Journal of Pharmacology 1999; 363: 35-40 (IGR: 1-2)

5291 Dorzolamide effect on ocular blood flow.
Martinez A; Gonzalez F; Capeans C; Perez R; Sanchez-Salorio M
Investigative Ophthalmology and Visual Science 1999; 40: 1270-1275 (IGR: 1-2)

5292 Measurement of blood flow in the optic nerve head in glaucoma eyes using Heidelberg retina flowmeter
Mizuki K; Yamazaki Y
Japanese Journal of Clinical Ophthalmology 1999; 53: 649-652 (IGR: 1-2)

5293 Diversity of response of optic nerve head circulation to timolol maleate in gel-forming solution
Netland PA; Schwartz B; Feke GT; Takamoto T; Konno S; Goger DG
Journal of Glaucoma 1999; 8: 164-171 (IGR: 1-2)

5294 Blood flow velocity in the peripheral circulation of glaucoma patients.
O'Brien C; Butt Z
Ophthalmologica 1999; 213: 150-153 (IGR: 1-2)

5295 Effect of topical levobunolol on retinal, optic nerve head, and choroidal circulation in normal volunteers
Ogasawara H; Yoshida A; Fujio N; Konno S; Ishiko S
Nippon Ganka Gakkai Zasshi 1999; 103: 544-550 (IGR: 1-2)

5296 Physiology of perfusion as it relates to the optic nerve head
Orgül S; Gugleta K; Flammer J
Survey of Ophthalmology 1999; 43 (S1): S17-S26 (IGR: 1-2)

5297 Ocular blood flow endpoints.
Pillunat LE
European Journal of Ophthalmology 1999; 9 (S1): S44-47 (IGR: 1-2)

5298 Effect of topical dorzolamide on optic nerve head blood flow
Pillunat LE; Boehm AG; Koeller AU; Schmidt KG; Klemm M; Richard G
Graefe's Archive for Clinical and Experimental Ophthalmology 1999; 237: 495-500 (IGR: 1-2)

5299 Laser Doppler flowmetry of the optic nerve head in glaucoma
Piltz-Seymour JR
Survey of Ophthalmology 1999; 43 (S1): S191-S198 (IGR: 1-2)

5300 Color Doppler imaging of the retrobulbar circulation in glaucoma
Rankin SJA
Survey of Ophthalmology 1999; 43 (S1): S176-S182 (IGR: 1-2)

5301 High-resolution ultrasonic imaging of blood flow in the anterior segment of the eye
Silverman RH; Kruse DE; Coleman DJ; Ferrara KW
Investigative Ophthalmology and Visual Science 1999; 40: 1373-1381 (IGR: 1-2)

5302 Effects of topical carteolol and timolol on tissue circulation in the iris and choroid
Tomidokoro A; Araie M; Tamaki Y; Muta K
Current Eye Research 1999; 18: 381-390 (IGR: 1-2)

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