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WGC-2021

List of abstracts related to

Listed by Classification


2.12 Choroid, peripapillary choroid, peripapillary atrophy (1503 abstracts found)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E
British Journal of Ophthalmology 2021; 0: (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; 0: (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; 0: (IGR: 22-1)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Sayed SY
International Ophthalmology 2021; 41: 2405-2415 (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)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Huo YJ
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E; Bak E
British Journal of Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wang YM; Hui VWK
Acta Ophthalmologica 2021; 0: (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; 0: (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; 0: (IGR: 22-1)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Raafat KA
International Ophthalmology 2021; 41: 2405-2415 (IGR: 22-1)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Kim YW
British Journal of Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Guo Y
Chinese Journal of Ophthalmology 2021; 57: 194-200 (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; 0: (IGR: 22-1)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Kim YK
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Shi J
Acta Ophthalmologica 2021; 0: (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; 0: (IGR: 22-1)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Ahmed RA
International Ophthalmology 2021; 41: 2405-2415 (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; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Shi Y
Chinese Journal of Ophthalmology 2021; 57: 194-200 (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)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Allam RSHM
International Ophthalmology 2021; 41: 2405-2415 (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wong MOM
Acta Ophthalmologica 2021; 0: (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; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Li L
Chinese Journal of Ophthalmology 2021; 57: 194-200 (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; 0: (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)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wong MOM
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Jeoung JW
British Journal of Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Chan PP
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Wang NL
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Park KH
British Journal of Ophthalmology 2021; 0: (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; 0: (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; 0: (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; 0: (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; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Chan N
Acta Ophthalmologica 2021; 0: (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; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Lai I; Cheung CY
Acta Ophthalmologica 2021; 0: (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; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Tham CC
Acta Ophthalmologica 2021; 0: (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; 0: (IGR: 22-1)


91740 Optic nerve head anatomy in myopia and glaucoma, including parapapillary zones alpha, beta, gamma and delta: Histology and clinical features
Wang YX
Progress in Retinal and Eye Research 2020; 0: 100933 (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)


91064 Glaucoma-like Parapapillary Choroidal Microvasculature Dropout in Patients with Compressive Optic Neuropathy
Lee EJ
Ophthalmology 2020; 127: 1652-1662 (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)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Uzair N
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Cazana IM
BMC Ophthalmology 2021; 21: 31 (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)


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


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Shamim M
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (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)


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)


91740 Optic nerve head anatomy in myopia and glaucoma, including parapapillary zones alpha, beta, gamma and delta: Histology and clinical features
Panda-Jonas S
Progress in Retinal and Eye Research 2020; 0: 100933 (IGR: 21-4)


91064 Glaucoma-like Parapapillary Choroidal Microvasculature Dropout in Patients with Compressive Optic Neuropathy
Kim JA
Ophthalmology 2020; 127: 1652-1662 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Böhringer D
BMC Ophthalmology 2021; 21: 31 (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)


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)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Reinhard T
BMC Ophthalmology 2021; 21: 31 (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)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Mamoon SA
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (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)


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)


91740 Optic nerve head anatomy in myopia and glaucoma, including parapapillary zones alpha, beta, gamma and delta: Histology and clinical features
Jonas JB
Progress in Retinal and Eye Research 2020; 0: 100933 (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)


91064 Glaucoma-like Parapapillary Choroidal Microvasculature Dropout in Patients with Compressive Optic Neuropathy
Kim TW
Ophthalmology 2020; 127: 1652-1662 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Evers C
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Naz S
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (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)


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)


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


91064 Glaucoma-like Parapapillary Choroidal Microvasculature Dropout in Patients with Compressive Optic Neuropathy
Kim H; Yang HK
Ophthalmology 2020; 127: 1652-1662 (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)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Engesser D
BMC Ophthalmology 2021; 21: 31 (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)


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)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Feroz L
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91064 Glaucoma-like Parapapillary Choroidal Microvasculature Dropout in Patients with Compressive Optic Neuropathy
Hwang JM
Ophthalmology 2020; 127: 1652-1662 (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)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Anton A
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Kumari K
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Afzali M; Suwan Y
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Lübke J
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Wang H; Greenstein SH
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)


91523 Automated Evaluation of Parapapillary Choroidal Microvasculature in Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Ritch R; Moghimi S
American Journal of Ophthalmology 2020; 224: 178-184 (IGR: 21-4)


91862 Quantification of the Peripapillary Microvasculature in Eyes with Glaucomatous Paracentral Visual Field Loss
Brauner SC; Shen LQ
Ophthalmology. Glaucoma 2021; 4: 286-294 (IGR: 21-4)


90300 Pigment-induced glaucoma secondary to bilateral diffuse uveal melanocytic proliferation
Da Silva MV
European Journal of Ophthalmology 2020; 0: 1120672120953076 (IGR: 21-3)


90334 Transient Myopia Secondary to Supraciliary Effusion: Unusual Complication After an Uneventful Prolene Gonioscopy-assisted Transluminal Trabeculotomy
Aktas Z
Journal of Glaucoma 2020; 29: e60-e63 (IGR: 21-3)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Leaney JC
American Journal of Ophthalmology 2020; 218: 164-172 (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)


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)


90319 A Case of Choroidal and Vitreous Hemorrhage Following Micropulse Transscleral Cyclophotocoagulation
Aldaas KM
Journal of Glaucoma 2020; 29: e57-e59 (IGR: 21-3)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Nguyen V
American Journal of Ophthalmology 2020; 218: 164-172 (IGR: 21-3)


90319 A Case of Choroidal and Vitreous Hemorrhage Following Micropulse Transscleral Cyclophotocoagulation
Brasington C
Journal of Glaucoma 2020; 29: e57-e59 (IGR: 21-3)


90300 Pigment-induced glaucoma secondary to bilateral diffuse uveal melanocytic proliferation
Rose K
European Journal of Ophthalmology 2020; 0: 1120672120953076 (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)


90334 Transient Myopia Secondary to Supraciliary Effusion: Unusual Complication After an Uneventful Prolene Gonioscopy-assisted Transluminal Trabeculotomy
Ucgul AY
Journal of Glaucoma 2020; 29: e60-e63 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Zangwill LM; Hou H
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


90334 Transient Myopia Secondary to Supraciliary Effusion: Unusual Complication After an Uneventful Prolene Gonioscopy-assisted Transluminal Trabeculotomy
Segawa A
Journal of Glaucoma 2020; 29: e60-e63 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Hou H
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


90300 Pigment-induced glaucoma secondary to bilateral diffuse uveal melanocytic proliferation
Krema H
European Journal of Ophthalmology 2020; 0: 1120672120953076 (IGR: 21-3)


90319 A Case of Choroidal and Vitreous Hemorrhage Following Micropulse Transscleral Cyclophotocoagulation
Zhang AY
Journal of Glaucoma 2020; 29: e57-e59 (IGR: 21-3)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Miranda E
American Journal of Ophthalmology 2020; 218: 164-172 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Hou H
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Barnett Y
American Journal of Ophthalmology 2020; 218: 164-172 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Wong B; Proudfoot J
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Ahmad K
American Journal of Ophthalmology 2020; 218: 164-172 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Proudfoot J; Penteado RC
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Wong S
American Journal of Ophthalmology 2020; 218: 164-172 (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)


90203 Bruch's Membrane Opening Minimum Rim Width Provides Objective Differentiation between Glaucoma and Nonglaucomatous Optic Neuropathies
Lawlor M
American Journal of Ophthalmology 2020; 218: 164-172 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Bowd C; Weinreb RN
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Bak E
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Ha A
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86455 Characteristics of Focal Gamma Zone Parapapillary Atrophy
Kim HR
Investigative Ophthalmology and Visual Science 2020; 61: 17 (IGR: 21-2)


86370 Visual Field Cluster Map Corresponding to Bruch Membrane Opening-minimum Rim Area Sectors in Open-angle Glaucoma
Choi HS
Journal of Glaucoma 2020; 29: 485-491 (IGR: 21-2)


86188 Choroidal neovascular membrane associated with primary congenital glaucoma and buphthalmos
Wang YE
Journal of AAPOS 2020; 24: 53-56 (IGR: 21-2)


86360 Association of macular thickness with parapapillary atrophy in myopic eyes
Piao H
BMC Ophthalmology 2020; 20: 93 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Bak E
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Sung MS
Scientific reports 2020; 10: 4607 (IGR: 21-2)


86540 Suprachoroidal hemorrhage after micropulse cyclophotocoagulation diode therapy
Prager AJ
American journal of ophthalmology case reports 2020; 18: 100659 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Bak E
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86684 Serous retinal detachment accompanied by pachychoroid in hypotony maculopathy after trabeculectomy for diabetic neovascular glaucoma
Shimokawa S
American journal of ophthalmology case reports 2020; 18: 100682 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Gietzelt C
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Bak E
Ophthalmology 2020; 127: 1054-1063 (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)


86718 Bilateral effusion syndrome induced by chlorthalidon
Winter G
Ophthalmologe 2021; 118: 273-275 (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)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Wang YX
American Journal of Ophthalmology 2020; 217: 91-103 (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)


86360 Association of macular thickness with parapapillary atrophy in myopic eyes
Piao H
BMC Ophthalmology 2020; 20: 93 (IGR: 21-2)


86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Heo H
Scientific reports 2020; 10: 4607 (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)


86718 Bilateral effusion syndrome induced by chlorthalidon
Schaudig U
Ophthalmologe 2021; 118: 273-275 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
von Goscinski C
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Yang H
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Ha A
Ophthalmology 2020; 127: 1054-1063 (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)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Kim YW
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86360 Association of macular thickness with parapapillary atrophy in myopic eyes
Guo Y
BMC Ophthalmology 2020; 20: 93 (IGR: 21-2)


86684 Serous retinal detachment accompanied by pachychoroid in hypotony maculopathy after trabeculectomy for diabetic neovascular glaucoma
Nakao S
American journal of ophthalmology case reports 2020; 18: 100682 (IGR: 21-2)


86455 Characteristics of Focal Gamma Zone Parapapillary Atrophy
Weinreb RN
Investigative Ophthalmology and Visual Science 2020; 61: 17 (IGR: 21-2)


86370 Visual Field Cluster Map Corresponding to Bruch Membrane Opening-minimum Rim Area Sectors in Open-angle Glaucoma
Park SP
Journal of Glaucoma 2020; 29: 485-491 (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)


86188 Choroidal neovascular membrane associated with primary congenital glaucoma and buphthalmos
Ramirez DA
Journal of AAPOS 2020; 24: 53-56 (IGR: 21-2)


86540 Suprachoroidal hemorrhage after micropulse cyclophotocoagulation diode therapy
Anchala AR
American journal of ophthalmology case reports 2020; 18: 100659 (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)


86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Piao H
Scientific reports 2020; 10: 4607 (IGR: 21-2)


86684 Serous retinal detachment accompanied by pachychoroid in hypotony maculopathy after trabeculectomy for diabetic neovascular glaucoma
Murakami Y
American journal of ophthalmology case reports 2020; 18: 100682 (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)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Luo H
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


86718 Bilateral effusion syndrome induced by chlorthalidon
Stemplewitz B
Ophthalmologe 2021; 118: 273-275 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Lemke J
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Kim YW
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86370 Visual Field Cluster Map Corresponding to Bruch Membrane Opening-minimum Rim Area Sectors in Open-angle Glaucoma
Na KI
Journal of Glaucoma 2020; 29: 485-491 (IGR: 21-2)


86360 Association of macular thickness with parapapillary atrophy in myopic eyes
Ha JY
BMC Ophthalmology 2020; 20: 93 (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)


86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Piao H
Scientific reports 2020; 10: 4607 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Lee J
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86455 Characteristics of Focal Gamma Zone Parapapillary Atrophy
Zangwill LM
Investigative Ophthalmology and Visual Science 2020; 61: 17 (IGR: 21-2)


86188 Choroidal neovascular membrane associated with primary congenital glaucoma and buphthalmos
Hussain RM
Journal of AAPOS 2020; 24: 53-56 (IGR: 21-2)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Hong SW
American Journal of Ophthalmology 2020; 217: 91-103 (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)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Bak E
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Guo Y
Scientific reports 2020; 10: 4607 (IGR: 21-2)


86455 Characteristics of Focal Gamma Zone Parapapillary Atrophy
Suh MH
Investigative Ophthalmology and Visual Science 2020; 61: 17 (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)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Bak E
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86188 Choroidal neovascular membrane associated with primary congenital glaucoma and buphthalmos
Berrocal AM
Journal of AAPOS 2020; 24: 53-56 (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)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Bak E
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86684 Serous retinal detachment accompanied by pachychoroid in hypotony maculopathy after trabeculectomy for diabetic neovascular glaucoma
Ikeda Y
American journal of ophthalmology case reports 2020; 18: 100682 (IGR: 21-2)


86360 Association of macular thickness with parapapillary atrophy in myopic eyes
Sung MS
BMC Ophthalmology 2020; 20: 93 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Bak E
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Schaub F
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Lee J
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86360 Association of macular thickness with parapapillary atrophy in myopic eyes
Park SW
BMC Ophthalmology 2020; 20: 93 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Hermann MM
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (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)


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)


86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Park SW
Scientific reports 2020; 10: 4607 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Han YS
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86188 Choroidal neovascular membrane associated with primary congenital glaucoma and buphthalmos
Chang TC
Journal of AAPOS 2020; 24: 53-56 (IGR: 21-2)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Gardiner SK
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Han YS
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86684 Serous retinal detachment accompanied by pachychoroid in hypotony maculopathy after trabeculectomy for diabetic neovascular glaucoma
Sonoda KH
American journal of ophthalmology case reports 2020; 18: 100682 (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)


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)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Dietlein TS
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Kim YK
British Journal of Ophthalmology 2021; 105: 361-366 (IGR: 21-2)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Jeoung JW
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Kim YK
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Park KH
British Journal of Ophthalmology 2021; 105: 361-366 (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)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Hardin C
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Jeoung JW
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Cursiefen C
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86569 Ten Years and Beyond Longitudinal Change of ß-Zone Parapapillary Atrophy: Comparison of Primary Open-Angle Glaucoma with Normal Eyes
Park KH
Ophthalmology 2020; 127: 1054-1063 (IGR: 21-2)


86840 Morphological characteristics of parapapillary atrophy and subsequent visual field progression in primary open-angle glaucoma
Jeoung JW
British Journal of Ophthalmology 2021; 105: 361-366 (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)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Heindl LM
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Sharpe GP
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Enders P
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (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)


86725 Peripapillary Scleral Bowing Increases with Age and Is Inversely Associated with Peripapillary Choroidal Thickness in Healthy Eyes
Nouri-Mahdavi K; Caprioli J; Demirel S; Girkin CA; Liebmann JM; Mardin CY; Quigley HA; Scheuerle AF; Fortune B; Chauhan BC; Burgoyne CF
American Journal of Ophthalmology 2020; 217: 91-103 (IGR: 21-2)


84910 Incidence and outcome of suprachoroidal hemorrhage associated with pediatric glaucoma surgery
Al-Abeeri A
Journal of AAPOS 2020; 0: (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)


84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Shin DY
Scientific reports 2019; 9: 18503 (IGR: 21-1)


85096 Intraoperative suprachoroidal hemorrhage during Xen gel stent implantation
Liu JC
American journal of ophthalmology case reports 2020; 17: 100600 (IGR: 21-1)


84871 No Relationship Between Visual Field Damage And Choroidal Thickness In Eyes With Primary Open Angle Glaucoma
Karaca U
Ophthalmic Research 2020; 0: (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)


84551 Risk Factors for Choroidal Detachment After Ahmed Valve Implantation in Glaucoma Patients
Shin DY
American Journal of Ophthalmology 2020; 211: 105-113 (IGR: 21-1)


85009 Ocular Accommodation, Intraocular Pressure, Development of Myopia and Glaucoma: Role of Ciliary Muscle, Choroid and Metabolism
Aggarwala KRG
Medical hypothesis, discovery and innovation in ophthalmology 2020; 9: 66-70 (IGR: 21-1)


85040 Prospective cohort study of risk factors for choroidal detachment after trabeculectomy
Iwasaki K
International Ophthalmology 2020; 0: (IGR: 21-1)


84551 Risk Factors for Choroidal Detachment After Ahmed Valve Implantation in Glaucoma Patients
Jung KI
American Journal of Ophthalmology 2020; 211: 105-113 (IGR: 21-1)


84910 Incidence and outcome of suprachoroidal hemorrhage associated with pediatric glaucoma surgery
Ahmad S
Journal of AAPOS 2020; 0: (IGR: 21-1)


85040 Prospective cohort study of risk factors for choroidal detachment after trabeculectomy
Kakimoto H
International Ophthalmology 2020; 0: (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)


84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Jeon SJ
Scientific reports 2019; 9: 18503 (IGR: 21-1)


85096 Intraoperative suprachoroidal hemorrhage during Xen gel stent implantation
Green W
American journal of ophthalmology case reports 2020; 17: 100600 (IGR: 21-1)


84871 No Relationship Between Visual Field Damage And Choroidal Thickness In Eyes With Primary Open Angle Glaucoma
Özge G
Ophthalmic Research 2020; 0: (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)


84871 No Relationship Between Visual Field Damage And Choroidal Thickness In Eyes With Primary Open Angle Glaucoma
Mumcuoglu T
Ophthalmic Research 2020; 0: (IGR: 21-1)


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


85040 Prospective cohort study of risk factors for choroidal detachment after trabeculectomy
Arimura S
International Ophthalmology 2020; 0: (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)


84551 Risk Factors for Choroidal Detachment After Ahmed Valve Implantation in Glaucoma Patients
Park HYL
American Journal of Ophthalmology 2020; 211: 105-113 (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)


84910 Incidence and outcome of suprachoroidal hemorrhage associated with pediatric glaucoma surgery
Al-Gaeed A
Journal of AAPOS 2020; 0: (IGR: 21-1)


85096 Intraoperative suprachoroidal hemorrhage during Xen gel stent implantation
Sheybani A
American journal of ophthalmology case reports 2020; 17: 100600 (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)


85096 Intraoperative suprachoroidal hemorrhage during Xen gel stent implantation
Lind JT
American journal of ophthalmology case reports 2020; 17: 100600 (IGR: 21-1)


84871 No Relationship Between Visual Field Damage And Choroidal Thickness In Eyes With Primary Open Angle Glaucoma
Usta G
Ophthalmic Research 2020; 0: (IGR: 21-1)


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


84910 Incidence and outcome of suprachoroidal hemorrhage associated with pediatric glaucoma surgery
Ahmed A
Journal of AAPOS 2020; 0: (IGR: 21-1)


84551 Risk Factors for Choroidal Detachment After Ahmed Valve Implantation in Glaucoma Patients
Park CK
American Journal of Ophthalmology 2020; 211: 105-113 (IGR: 21-1)


85040 Prospective cohort study of risk factors for choroidal detachment after trabeculectomy
Takamura Y
International Ophthalmology 2020; 0: (IGR: 21-1)


84697 Association between peripapillary scleral deformation and choroidal microvascular circulation in glaucoma
Jung KI; Park HYL
Scientific reports 2019; 9: 18503 (IGR: 21-1)


85040 Prospective cohort study of risk factors for choroidal detachment after trabeculectomy
Inatani M
International Ophthalmology 2020; 0: (IGR: 21-1)


84910 Incidence and outcome of suprachoroidal hemorrhage associated with pediatric glaucoma surgery
Malik R
Journal of AAPOS 2020; 0: (IGR: 21-1)


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


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


82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Bayraktar S
Journal of Ophthalmology 2019; 2019: 3431217 (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)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Torres LA
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


81875 Does using topical latanoprost affect subfoveal choroidal thickness?
Duru Z
Cutaneous and Ocular Toxicology 2019; 38: 370-374 (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)


82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Lee KM
Scientific reports 2019; 9: 10999 (IGR: 20-4)


82839 Choroidal Congestion after Trabeculectomy
Marenco M
Case Reports in Ophthalmology 2019; 10: 384-390 (IGR: 20-4)


82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Park DY
Journal of Glaucoma 2019; 28: 969-973 (IGR: 20-4)


82340 Characteristics of Patients Showing Discrepancy Between Bruch's Membrane Opening-Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness
Cho HK
Journal of clinical medicine 2019; 8: (IGR: 20-4)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Bhalla M
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Wu Z
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82415 Upside-down position leads to choroidal expansion and anterior chamber shallowing: OCT study
Li F
British Journal of Ophthalmology 2019; 0: (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)


82643 Transient choroidal detachment after ultrasonic circular cyclocoagulation
Morais Sarmento T
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Nguyen DT
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Sayah DN
Experimental Eye Research 2020; 190: 107831 (IGR: 20-4)


82242 Peripapillary border tissue of the choroid and peripapillary scleral flange in human eyes
Jonas RA
Acta Ophthalmologica 2020; 98: e43-e49 (IGR: 20-4)


82215 Morphological features of parapapillary beta zone and gamma zone in chronic primary angle-closure glaucoma
Shang K
Eye 2019; 33: 1378-1386 (IGR: 20-4)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Heisler M
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)


81875 Does using topical latanoprost affect subfoveal choroidal thickness?
Özsaygılı C
Cutaneous and Ocular Toxicology 2019; 38: 370-374 (IGR: 20-4)


82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Sultanova G
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)


82242 Peripapillary border tissue of the choroid and peripapillary scleral flange in human eyes
Holbach L
Acta Ophthalmologica 2020; 98: e43-e49 (IGR: 20-4)


82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Han JC
Journal of Glaucoma 2019; 28: 969-973 (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)


82643 Transient choroidal detachment after ultrasonic circular cyclocoagulation
Figueiredo R
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-4)


82215 Morphological features of parapapillary beta zone and gamma zone in chronic primary angle-closure glaucoma
Hu X
Eye 2019; 33: 1378-1386 (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)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Giocanti-Aurégan A
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Vianna JR
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Sharpe GP
American Journal of Ophthalmology 2019; 208: 94-102 (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)


82386 Peripapillary Choroidal Vascularity Index and Microstructure of Parapapillary Atrophy
Park JW
Investigative Ophthalmology and Visual Science 2019; 60: 3768-3775 (IGR: 20-4)


82839 Choroidal Congestion after Trabeculectomy
Borgia L
Case Reports in Ophthalmology 2019; 10: 384-390 (IGR: 20-4)


82340 Characteristics of Patients Showing Discrepancy Between Bruch's Membrane Opening-Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness
Kee C
Journal of clinical medicine 2019; 8: (IGR: 20-4)


82415 Upside-down position leads to choroidal expansion and anterior chamber shallowing: OCT study
Li H
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Mazzaferri J
Experimental Eye Research 2020; 190: 107831 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Benhatchi N
International Ophthalmology 2020; 40: 195-203 (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
Adler W
Eye 2019; 0: (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Ghesquière P
Experimental Eye Research 2020; 190: 107831 (IGR: 20-4)


82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Cebeci Z
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)


81875 Does using topical latanoprost affect subfoveal choroidal thickness?
Ulusoy DM
Cutaneous and Ocular Toxicology 2019; 38: 370-374 (IGR: 20-4)


82215 Morphological features of parapapillary beta zone and gamma zone in chronic primary angle-closure glaucoma
Dai Y
Eye 2019; 33: 1378-1386 (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)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Reis ASC
British Journal of Ophthalmology 2020; 104: 980-984 (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)


82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Lee EJ
Journal of Glaucoma 2019; 28: 969-973 (IGR: 20-4)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Han SX
Journal of Glaucoma 2019; 28: 889-895 (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)


82643 Transient choroidal detachment after ultrasonic circular cyclocoagulation
Garrido J
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Hutchison DM
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82839 Choroidal Congestion after Trabeculectomy
Vagge A
Case Reports in Ophthalmology 2019; 10: 384-390 (IGR: 20-4)


82415 Upside-down position leads to choroidal expansion and anterior chamber shallowing: OCT study
Yang J
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Duval R
Experimental Eye Research 2020; 190: 107831 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Greliche N
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82839 Choroidal Congestion after Trabeculectomy
Iester M
Case Reports in Ophthalmology 2019; 10: 384-390 (IGR: 20-4)


82415 Upside-down position leads to choroidal expansion and anterior chamber shallowing: OCT study
Liu J
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)


82643 Transient choroidal detachment after ultrasonic circular cyclocoagulation
Rebelo AL
British Medical Journal (Clinical Research Edition) Case Reports 2019; 12: (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Zemborain ZZ
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Sarunic MV
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)


82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Altinkurt E
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)


81875 Does using topical latanoprost affect subfoveal choroidal thickness?
Armağan Demirtaş A
Cutaneous and Ocular Toxicology 2019; 38: 370-374 (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)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Zangalli CS
American Journal of Ophthalmology 2019; 208: 94-102 (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)


82386 Peripapillary Choroidal Vascularity Index and Microstructure of Parapapillary Atrophy
Agrawal R
Investigative Ophthalmology and Visual Science 2019; 60: 3768-3775 (IGR: 20-4)


82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Kee C
Journal of Glaucoma 2019; 28: 969-973 (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)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Lee SH
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Beg MF
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)


82415 Upside-down position leads to choroidal expansion and anterior chamber shallowing: OCT study
Aung T
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Beaussier H
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Rezende F
Experimental Eye Research 2020; 190: 107831 (IGR: 20-4)


81875 Does using topical latanoprost affect subfoveal choroidal thickness?
Çiçek A
Cutaneous and Ocular Toxicology 2019; 38: 370-374 (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Burk RO
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Izgi B
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Thenappan A
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82415 Upside-down position leads to choroidal expansion and anterior chamber shallowing: OCT study
Zhang X
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Reis ASC
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Sustronck P
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Costantino S
Experimental Eye Research 2020; 190: 107831 (IGR: 20-4)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Mackenzie PJ
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)


81875 Does using topical latanoprost affect subfoveal choroidal thickness?
Duru N
Cutaneous and Ocular Toxicology 2019; 38: 370-374 (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)


82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Lee S
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Weng DSD
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82601 Non-invasive in vivo measurement of ocular rigidity: Clinical validation, repeatability and method improvement
Lesk MR
Experimental Eye Research 2020; 190: 107831 (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)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Weng DSD
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Costa VP
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Hammoud S
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Weng DSD; Tsamis E
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Nicolela MT
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Tsamis E
British Journal of Ophthalmology 2020; 104: 980-984 (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)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Tsamis E
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Jeanteur MN
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Chauhan BC
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Joiner DB
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Kretz G
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Joiner DB
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Abitbol O
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Vianna JR
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Ritch R
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


82541 Increased choroidal thickness in primary angle closure measured by swept-source optical coherence tomography in Caucasian population
Lachkar Y
International Ophthalmology 2020; 40: 195-203 (IGR: 20-4)


82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
De Moraes CGV; Hood DC
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)


80764 The Effect of Glaucoma Medication on Choroidal Thickness Measured with Enhanced Depth-Imaging Optical Coherence Tomography
Bayraktar S
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 44-51 (IGR: 20-3)


80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Han JC
American Journal of Ophthalmology 2019; 203: 89-102 (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)


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)


81211 The effect of pseudoexfoliation syndrome on choroidal thickness in open-angle glaucoma
Egrilmez ED
Arquivos Brasileiros de Oftalmologia 2019; 82: 400-406 (IGR: 20-3)


80683 Changes in choroidal area following trabeculectomy: Long-term effect of intraocular pressure reduction
Kojima H
PLoS ONE 2019; 14: e0209145 (IGR: 20-3)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Pradhan ZS
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (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)


80922 Comparison of peripapillary and macular choroidal thickness and ganglion cell complex thickness in glaucomatous and healthy eyes
Park Y
International Journal of Ophthalmology 2019; 12: 603-606 (IGR: 20-3)


81468 Suprachoroideal haemorrhage in postoperative period of antiglaucoma surgery, case report
Středová M
?eska a Slovenska Oftalmologie 2019; 75: 92-98 (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)


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)


81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Zhang Q
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)


80489 Longitudinal Study of Peripapillary Thinning in Sickle Cell Hemoglobinopathies
Thavikulwat AT
American Journal of Ophthalmology 2019; 202: 30-36 (IGR: 20-3)


80450 Direct and crossover effects of brinzolamide, betaxolol, and latanoprost on choroidal thickness
Okutucu M
Cutaneous and Ocular Toxicology 2019; 38: 196-200 (IGR: 20-3)


80683 Changes in choroidal area following trabeculectomy: Long-term effect of intraocular pressure reduction
Kojima H; Hirooka K
PLoS ONE 2019; 14: e0209145 (IGR: 20-3)


80450 Direct and crossover effects of brinzolamide, betaxolol, and latanoprost on choroidal thickness
Fındık H
Cutaneous and Ocular Toxicology 2019; 38: 196-200 (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)


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)


80489 Longitudinal Study of Peripapillary Thinning in Sickle Cell Hemoglobinopathies
Cao D
American Journal of Ophthalmology 2019; 202: 30-36 (IGR: 20-3)


81468 Suprachoroideal haemorrhage in postoperative period of antiglaucoma surgery, case report
Hejsek L
?eska a Slovenska Oftalmologie 2019; 75: 92-98 (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)


81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Xu L
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (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)


80764 The Effect of Glaucoma Medication on Choroidal Thickness Measured with Enhanced Depth-Imaging Optical Coherence Tomography
Cebeci Z
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 44-51 (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)


81211 The effect of pseudoexfoliation syndrome on choroidal thickness in open-angle glaucoma
Ugurlu SK
Arquivos Brasileiros de Oftalmologia 2019; 82: 400-406 (IGR: 20-3)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Rao HL
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)


80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Choi JH
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)


80922 Comparison of peripapillary and macular choroidal thickness and ganglion cell complex thickness in glaucomatous and healthy eyes
Kim HK
International Journal of Ophthalmology 2019; 12: 603-606 (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)


80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Park DY
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Dixit S
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (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)


80489 Longitudinal Study of Peripapillary Thinning in Sickle Cell Hemoglobinopathies
Vajaranant TS
American Journal of Ophthalmology 2019; 202: 30-36 (IGR: 20-3)


81211 The effect of pseudoexfoliation syndrome on choroidal thickness in open-angle glaucoma
Atik SS
Arquivos Brasileiros de Oftalmologia 2019; 82: 400-406 (IGR: 20-3)


80683 Changes in choroidal area following trabeculectomy: Long-term effect of intraocular pressure reduction
Sonoda S
PLoS ONE 2019; 14: e0209145 (IGR: 20-3)


80450 Direct and crossover effects of brinzolamide, betaxolol, and latanoprost on choroidal thickness
Arslan MG
Cutaneous and Ocular Toxicology 2019; 38: 196-200 (IGR: 20-3)


80922 Comparison of peripapillary and macular choroidal thickness and ganglion cell complex thickness in glaucomatous and healthy eyes
Cho KJ
International Journal of Ophthalmology 2019; 12: 603-606 (IGR: 20-3)


81468 Suprachoroideal haemorrhage in postoperative period of antiglaucoma surgery, case report
Nekolová J
?eska a Slovenska Oftalmologie 2019; 75: 92-98 (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)


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)


81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Wei WB
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)


80764 The Effect of Glaucoma Medication on Choroidal Thickness Measured with Enhanced Depth-Imaging Optical Coherence Tomography
Izgi B
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 44-51 (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)


81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Wang YX
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Sreenivasaiah S
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)


80764 The Effect of Glaucoma Medication on Choroidal Thickness Measured with Enhanced Depth-Imaging Optical Coherence Tomography
Kasali K
Medical hypothesis, discovery and innovation in ophthalmology 2019; 8: 44-51 (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)


80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Lee EJ
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)


80683 Changes in choroidal area following trabeculectomy: Long-term effect of intraocular pressure reduction
Sakamoto T
PLoS ONE 2019; 14: e0209145 (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)


80489 Longitudinal Study of Peripapillary Thinning in Sickle Cell Hemoglobinopathies
Lim JI
American Journal of Ophthalmology 2019; 202: 30-36 (IGR: 20-3)


81211 The effect of pseudoexfoliation syndrome on choroidal thickness in open-angle glaucoma
Guven YZ
Arquivos Brasileiros de Oftalmologia 2019; 82: 400-406 (IGR: 20-3)


81468 Suprachoroideal haemorrhage in postoperative period of antiglaucoma surgery, case report
Jirásková N
?eska a Slovenska Oftalmologie 2019; 75: 92-98 (IGR: 20-3)


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


80683 Changes in choroidal area following trabeculectomy: Long-term effect of intraocular pressure reduction
Kiuchi Y
PLoS ONE 2019; 14: e0209145 (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)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Reddy PG
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)


81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Jonas JB
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)


80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Kee C
American Journal of Ophthalmology 2019; 203: 89-102 (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)


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)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Venugopal JP; Puttaiah NK
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (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)


81080 Choroidal Microvascular Dropout in Pseudoexfoliation Glaucoma
Devi S; Weinreb RN; Mansouri K; Webers CAB
Investigative Ophthalmology and Visual Science 2019; 60: 2146-2151 (IGR: 20-3)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Torres LA
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


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)


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)


79698 Influence of uveitis on Bruch's membrane opening minimum rim width and retinal nerve fibre layer thickness measurements
Kriegel MF
British Journal of Ophthalmology 2019; 103: 1413-1417 (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)


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)


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)


79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Bouillot A
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Kiessling D
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Christ H
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Pierru A
BMC Ophthalmology 2019; 19: 24 (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)


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)


79698 Influence of uveitis on Bruch's membrane opening minimum rim width and retinal nerve fibre layer thickness measurements
Heiligenhaus A
British Journal of Ophthalmology 2019; 103: 1413-1417 (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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Jarrar F
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Gietzelt C
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)


79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Blumen-Ohana E
BMC Ophthalmology 2019; 19: 24 (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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Sharpe GP
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


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)


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)


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)


79698 Influence of uveitis on Bruch's membrane opening minimum rim width and retinal nerve fibre layer thickness measurements
Heinz C
British Journal of Ophthalmology 2019; 103: 1413-1417 (IGR: 20-2)


79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Brasnu E
BMC Ophthalmology 2019; 19: 24 (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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Hutchison DM
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


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)


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)


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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Schaub F
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Ferracioli-Oda E
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Baudouin C
BMC Ophthalmology 2019; 19: 24 (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)


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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Dietlein TS
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Cursiefen C
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Labbé A
BMC Ophthalmology 2019; 19: 24 (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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Hatanaka M
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Heindl LM
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Nicolela MT
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


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)


79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Enders P
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (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)


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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Vianna JR
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)


79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Greenstein SH; Brauner SC
Journal of Glaucoma 2019; 28: 281-288 (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)


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)


79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Chauhan BC
British Journal of Ophthalmology 2019; 103: 1401-1405 (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)


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)


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)


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)


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)


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)


78959 Is Thicker Choroid a Risk Factor for Malignant Glaucoma?
Chen X
Ophthalmic Research 2018; 60: 161-168 (IGR: 20-1)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Kojima H
PLoS ONE 2018; 13: e0201973 (IGR: 20-1)


78932 A strategy for OCT estimation of the optic nerve head pigment epithelium central limit-inner limit of the retina minimal distance, PIMD-2π
Sandberg Melin C
Acta Ophthalmologica 2019; 97: 208-213 (IGR: 20-1)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Kojima H
PLoS ONE 2018; 13: e0201973 (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)


78455 Topiramate-induced acute angle closure with severe panuveitis: A challenging case report
Mahendradas P
Indian Journal of Ophthalmology 2018; 66: 1342-1344 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Moghimi S
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)


78807 Effects of Choroidal Thickness on Refractive Outcome Following Cataract Surgery in Primary Angle Closure
Song WK
Korean Journal of Ophthalmology 2018; 32: 382-390 (IGR: 20-1)


78967 Acquired myopia followed by acquired hyperopia due to serous neurosensory retinal detachment following topiramate intake
Mazumdar S
European Journal of Ophthalmology 2019; 29: NP21-NP24 (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)


78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Kojima H
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)


78455 Topiramate-induced acute angle closure with severe panuveitis: A challenging case report
Parab S
Indian Journal of Ophthalmology 2018; 66: 1342-1344 (IGR: 20-1)


78967 Acquired myopia followed by acquired hyperopia due to serous neurosensory retinal detachment following topiramate intake
Tripathy K
European Journal of Ophthalmology 2019; 29: NP21-NP24 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Nekoozadeh S
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (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)


78807 Effects of Choroidal Thickness on Refractive Outcome Following Cataract Surgery in Primary Angle Closure
Sung KR
Korean Journal of Ophthalmology 2018; 32: 382-390 (IGR: 20-1)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Hirooka K
PLoS ONE 2018; 13: e0201973 (IGR: 20-1)


78959 Is Thicker Choroid a Risk Factor for Malignant Glaucoma?
Guo X
Ophthalmic Research 2018; 60: 161-168 (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)


78932 A strategy for OCT estimation of the optic nerve head pigment epithelium central limit-inner limit of the retina minimal distance, PIMD-2π
Malmberg F
Acta Ophthalmologica 2019; 97: 208-213 (IGR: 20-1)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Nitta E
PLoS ONE 2018; 13: e0201973 (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)


78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Nitta E
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)


78807 Effects of Choroidal Thickness on Refractive Outcome Following Cataract Surgery in Primary Angle Closure
Shin JW
Korean Journal of Ophthalmology 2018; 32: 382-390 (IGR: 20-1)


78967 Acquired myopia followed by acquired hyperopia due to serous neurosensory retinal detachment following topiramate intake
Sarma B
European Journal of Ophthalmology 2019; 29: NP21-NP24 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Motamed-Gorji N
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)


78959 Is Thicker Choroid a Risk Factor for Malignant Glaucoma?
Xu X
Ophthalmic Research 2018; 60: 161-168 (IGR: 20-1)


78932 A strategy for OCT estimation of the optic nerve head pigment epithelium central limit-inner limit of the retina minimal distance, PIMD-2π
Söderberg PG
Acta Ophthalmologica 2019; 97: 208-213 (IGR: 20-1)


78455 Topiramate-induced acute angle closure with severe panuveitis: A challenging case report
Sasikumar R
Indian Journal of Ophthalmology 2018; 66: 1342-1344 (IGR: 20-1)


78967 Acquired myopia followed by acquired hyperopia due to serous neurosensory retinal detachment following topiramate intake
Agarwal N
European Journal of Ophthalmology 2019; 29: NP21-NP24 (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)


78959 Is Thicker Choroid a Risk Factor for Malignant Glaucoma?
Xiao H
Ophthalmic Research 2018; 60: 161-168 (IGR: 20-1)


78455 Topiramate-induced acute angle closure with severe panuveitis: A challenging case report
Kawali A
Indian Journal of Ophthalmology 2018; 66: 1342-1344 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Chen R
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (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)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Ukegawa K
PLoS ONE 2018; 13: e0201973 (IGR: 20-1)


78807 Effects of Choroidal Thickness on Refractive Outcome Following Cataract Surgery in Primary Angle Closure
Kwon J
Korean Journal of Ophthalmology 2018; 32: 382-390 (IGR: 20-1)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Sonoda S
PLoS ONE 2018; 13: e0201973 (IGR: 20-1)


78959 Is Thicker Choroid a Risk Factor for Malignant Glaucoma?
Liu X
Ophthalmic Research 2018; 60: 161-168 (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)


78909 Peripapillary and macular choroidal area in patients with normal-tension glaucoma
Sakamoto T
PLoS ONE 2018; 13: e0204183 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Fard MA
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)


78455 Topiramate-induced acute angle closure with severe panuveitis: A challenging case report
Shetty BK
Indian Journal of Ophthalmology 2018; 66: 1342-1344 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Mohammadi M
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)


78446 Changes in choroidal area after intraocular pressure reduction following trabeculectomy
Sakamoto T
PLoS ONE 2018; 13: e0201973 (IGR: 20-1)


79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Weinreb RN
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)


78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Han JC
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)


77690 Effect of Latanoprost on Choroidal Thickness
Sahinoglu-Keskek N
Journal of Glaucoma 2018; 27: 635-637 (IGR: 19-4)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Lavinsky F
Ophthalmology 2018; 0: (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)


78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
In JH
Journal of Ophthalmology 2018; 2018: 8909714 (IGR: 19-4)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Gietzelt C
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)


78284 The Relationship Between Bruch's Membrane Opening-Minimum Rim Width and Retinal Nerve Fiber Layer Thickness and a New Index Using a Neural Network
Park K
Translational vision science & technology 2018; 7: 14 (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)


77987 Detection of Bruch's Membrane Opening in Healthy Individuals and Glaucoma Patients with and without High Myopia
Zheng F
Ophthalmology 2018; 125: 1537-1546 (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)


78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
Lee SY
Journal of Ophthalmology 2018; 2018: 8909714 (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)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Lemke J
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)


78284 The Relationship Between Bruch's Membrane Opening-Minimum Rim Width and Retinal Nerve Fiber Layer Thickness and a New Index Using a Neural Network
Kim J
Translational vision science & technology 2018; 7: 14 (IGR: 19-4)


77987 Detection of Bruch's Membrane Opening in Healthy Individuals and Glaucoma Patients with and without High Myopia
Wu Z
Ophthalmology 2018; 125: 1537-1546 (IGR: 19-4)


77690 Effect of Latanoprost on Choroidal Thickness
Canan H
Journal of Glaucoma 2018; 27: 635-637 (IGR: 19-4)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Wu M
Ophthalmology 2018; 0: (IGR: 19-4)


78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Choi JH
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (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)


78284 The Relationship Between Bruch's Membrane Opening-Minimum Rim Width and Retinal Nerve Fiber Layer Thickness and a New Index Using a Neural Network
Lee J
Translational vision science & technology 2018; 7: 14 (IGR: 19-4)


77987 Detection of Bruch's Membrane Opening in Healthy Individuals and Glaucoma Patients with and without High Myopia
Leung CKS
Ophthalmology 2018; 125: 1537-1546 (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)


78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Park DY
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)


78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
Cho SH
Journal of Ophthalmology 2018; 2018: 8909714 (IGR: 19-4)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Schaub F
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Schuman JS
Ophthalmology 2018; 0: (IGR: 19-4)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Hermann MM
American Journal of Ophthalmology 2018; 194: 143-152 (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)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Lucy KA
Ophthalmology 2018; 0: (IGR: 19-4)


78186 Peripapillary Vessel Density Reversal after Trabeculectomy in Glaucoma
Hong YJ
Journal of Ophthalmology 2018; 2018: 8909714 (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)


78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Lee EJ; Kee C
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Dietlein TS
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Liu M; Song Y
Ophthalmology 2018; 0: (IGR: 19-4)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Cursiefen C; Enders P
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Fallon J; de Los Angeles Ramos Cadena M
Ophthalmology 2018; 0: (IGR: 19-4)


78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Heindl LM
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)


77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Ishikawa H; Wollstein G
Ophthalmology 2018; 0: (IGR: 19-4)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Hong SW
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Gao K
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Li Z
Optometry and Vision Science 2018; 95: 318-322 (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)


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)


77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Rebolleda G
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)


76691 Macular Choroidal Small-Vessel Layer, Sattler's Layer and Haller's Layer Thicknesses: The Beijing Eye Study
Zhao J
Scientific reports 2018; 8: 4411 (IGR: 19-3)


76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Özen Ö
Medical ultrasonography 2018; 1: 76-79 (IGR: 19-3)


76452 Progressive change in peripapillary atrophy in myopic glaucomatous eyes
Song MK
British Journal of Ophthalmology 2018; 0: (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)


76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
Rebolleda G
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)


76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Mataki N
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Longo A
European Journal of Ophthalmology 2018; 28: 175-181 (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)


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)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Manalastas PIC
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Park KH
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Silva D
International Ophthalmology 2019; 39: 1097-1104 (IGR: 19-3)


77234 Microstructure of Parapapillary Atrophy Is Associated with Parapapillary Microvasculature in Myopic Eyes
Sung MS
American Journal of Ophthalmology 2018; 192: 157-168 (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Enders P
Acta Ophthalmologica 2018; 0: (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)


76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Di Staso S
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)


76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Wei X
Survey of Ophthalmology 2018; 0: (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)


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)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Belghith A
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Lopes AS
International Ophthalmology 2019; 39: 1097-1104 (IGR: 19-3)


76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Tomidokoro A
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


77234 Microstructure of Parapapillary Atrophy Is Associated with Parapapillary Microvasculature in Myopic Eyes
Heo H
American Journal of Ophthalmology 2018; 192: 157-168 (IGR: 19-3)


77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Lee JW
International Journal of Ophthalmology 2018; 11: 828-834 (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)


76452 Progressive change in peripapillary atrophy in myopic glaucomatous eyes
Sung KR
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Koenigsman H
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Guo X
Optometry and Vision Science 2018; 95: 318-322 (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)


76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Agnifili L
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Li F
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
de Juan V
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Adler W
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Balne PK
Survey of Ophthalmology 2018; 0: (IGR: 19-3)


77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Pérez-Sarriegui A
European Journal of Ophthalmology 2018; 0: 1120672118782101 (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)


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)


76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Özer MA
Medical ultrasonography 2018; 1: 76-79 (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)


76691 Macular Choroidal Small-Vessel Layer, Sattler's Layer and Haller's Layer Thicknesses: The Beijing Eye Study
Wang YX
Scientific reports 2018; 8: 4411 (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Avitabile T
European Journal of Ophthalmology 2018; 28: 175-181 (IGR: 19-3)


76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Tosun A
Medical ultrasonography 2018; 1: 76-79 (IGR: 19-3)


76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Di Staso F
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Weinreb RN
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


77234 Microstructure of Parapapillary Atrophy Is Associated with Parapapillary Microvasculature in Myopic Eyes
Park SW
American Journal of Ophthalmology 2018; 192: 157-168 (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Uva MG
European Journal of Ophthalmology 2018; 28: 175-181 (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)


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)


76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
Muñoz-Negrete FJ
European Journal of Ophthalmology 2018; 0: 1120672117753702 (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)


77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Kim JM
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Ren R
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Kiessling D
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Meissner KE
Survey of Ophthalmology 2018; 0: (IGR: 19-3)


77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Díez-Álvarez L
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Li Y
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (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)


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)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Henriques S
International Ophthalmology 2019; 39: 1097-1104 (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)


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)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Xiao O
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)


76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Araie M
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76691 Macular Choroidal Small-Vessel Layer, Sattler's Layer and Haller's Layer Thicknesses: The Beijing Eye Study
Zhang Q
Scientific reports 2018; 8: 4411 (IGR: 19-3)


76452 Progressive change in peripapillary atrophy in myopic glaucomatous eyes
Shin JW
British Journal of Ophthalmology 2018; 0: (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)


76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Iwase A
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Weber V
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
de Juan V
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)


76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Barathi VA
Survey of Ophthalmology 2018; 0: (IGR: 19-3)


76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Climastone H
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Li X
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Lee PY
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Lisboa M
International Ophthalmology 2019; 39: 1097-1104 (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)


77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Nouri-Mahdavi K
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)


76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Özen S
Medical ultrasonography 2018; 1: 76-79 (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)


76452 Progressive change in peripapillary atrophy in myopic glaucomatous eyes
Kwon J
British Journal of Ophthalmology 2018; 0: (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)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Yang H
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76691 Macular Choroidal Small-Vessel Layer, Sattler's Layer and Haller's Layer Thicknesses: The Beijing Eye Study
Wei WB
Scientific reports 2018; 8: 4411 (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Bonfiglio V
European Journal of Ophthalmology 2018; 28: 175-181 (IGR: 19-3)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Jonas JB
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
Díez-Álvarez L
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Pinto S
International Ophthalmology 2019; 39: 1097-1104 (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Gardiner SK
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Ciancaglini M
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Suh MH
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Schaub F
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76691 Macular Choroidal Small-Vessel Layer, Sattler's Layer and Haller's Layer Thicknesses: The Beijing Eye Study
Xu L
Scientific reports 2018; 8: 4411 (IGR: 19-3)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Liu R
Optometry and Vision Science 2018; 95: 318-322 (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)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Russo A
European Journal of Ophthalmology 2018; 28: 175-181 (IGR: 19-3)


76452 Progressive change in peripapillary atrophy in myopic glaucomatous eyes
Lee JY
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Huang W
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Schmetterer L
Survey of Ophthalmology 2018; 0: (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)


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)


77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Caprioli J
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)


77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Muñoz-Negrete FJ
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)


76691 Macular Choroidal Small-Vessel Layer, Sattler's Layer and Haller's Layer Thicknesses: The Beijing Eye Study
Jonas JB
Scientific reports 2018; 8: 4411 (IGR: 19-3)


76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Scuderi GL
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Toro MD
European Journal of Ophthalmology 2018; 28: 175-181 (IGR: 19-3)


76452 Progressive change in peripapillary atrophy in myopic glaucomatous eyes
Park JM
British Journal of Ophthalmology 2018; 0: (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Hermann MM
Acta Ophthalmologica 2018; 0: (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)


76785 Assessment of flow dynamics in retinal and choroidal microcirculation
Agrawal R
Survey of Ophthalmology 2018; 0: (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Reynaud J
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Chen S
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Wang D
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Yarmohammadi A
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Trancoso Vaz F
International Ophthalmology 2019; 39: 1097-1104 (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)


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)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Sankaridurg P
Optometry and Vision Science 2018; 95: 318-322 (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)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Liu Y
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76932 Changes in choroidal thickness following trabeculectomy and its correlation with the decline in intraocular pressure
Prieto I
International Ophthalmology 2019; 39: 1097-1104 (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)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Dietlein T
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Faro S
European Journal of Ophthalmology 2018; 28: 175-181 (IGR: 19-3)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Medeiros FA
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Kinast RM
American Journal of Ophthalmology 2018; 192: 65-76 (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)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Girkin CA
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


76134 Morphology of the optic nerve head in glaucomatous eyes with visual field defects in superior or inferior hemifield
Reibaldi M
European Journal of Ophthalmology 2018; 28: 175-181 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Aung T
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (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)


76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
He M
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Cursiefen C
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Mansberger SL
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


76873 Anterior Choroidal Thickness Increased in Primary Open-Angle Glaucoma and Primary Angle-Closure Disease Eyes Evidenced by Ultrasound Biomicroscopy and SS-OCT
Zhang X
Investigative Ophthalmology and Visual Science 2018; 59: 1270-1277 (IGR: 19-3)


76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Heindl LM
Acta Ophthalmologica 2018; 0: (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Fortune B
American Journal of Ophthalmology 2018; 192: 65-76 (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)


77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Liebmann JM; Zangwill LM
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)


77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Demirel S; Burgoyne CF
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Taniguchi EV
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Mundae RS
American Journal of Ophthalmology 2018; 186: 89-95 (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)


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)


75489 Central Visual Field Damage and Parapapillary Choroidal Microvasculature Dropout in Primary Open-Angle Glaucoma
Lee EJ
Ophthalmology 2018; 125: 588-596 (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Sakamoto M
PLoS ONE 2018; 13: e0191862 (IGR: 19-2)


75441 Spontaneous expulsive suprachoroidal haemorrhage in an asymptomatic elderly patient: a case report
Ting Yl J
International Ophthalmology 2017; 0: (IGR: 19-2)


75153 Spontaneous Resolution of Delayed Suprachoroidal Hemorrhage in the Single Eye Following Needling in Congenital Glaucoma
Rezapour J
Journal of Glaucoma 2017; 26: e268-e270 (IGR: 19-2)


75370 Bruch's membrane opening minimum rim width : Correlation and diagnostic accuracy in comparison to peripapillary retinal nerve fiber layer thickness
Awe M
Ophthalmologe 2017; 0: (IGR: 19-2)


75508 The diagnostic use of choroidal thickness analysis and its correlation with visual field indices in glaucoma using spectral domain optical coherence tomography
Lin Z
PLoS ONE 2017; 12: e0189376 (IGR: 19-2)


75311 Management of Delayed Suprachoroidal Hemorrhage after Glaucoma Surgery
Learned D
Seminars in Ophthalmology 2018; 33: 59-63 (IGR: 19-2)


75545 Choroidal hypoperfusion: an indicator of low tension neovascular glaucoma
Behera UC
International Ophthalmology 2017; 0: (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)


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)


75545 Choroidal hypoperfusion: an indicator of low tension neovascular glaucoma
Singh A
International Ophthalmology 2017; 0: (IGR: 19-2)


75441 Spontaneous expulsive suprachoroidal haemorrhage in an asymptomatic elderly patient: a case report
Faisal HA
International Ophthalmology 2017; 0: (IGR: 19-2)


75370 Bruch's membrane opening minimum rim width : Correlation and diagnostic accuracy in comparison to peripapillary retinal nerve fiber layer thickness
Khalili-Amiri S
Ophthalmologe 2017; 0: (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)


75489 Central Visual Field Damage and Parapapillary Choroidal Microvasculature Dropout in Primary Open-Angle Glaucoma
Kim TW
Ophthalmology 2018; 125: 588-596 (IGR: 19-2)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Zangwill LM
American Journal of Ophthalmology 2018; 186: 89-95 (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)


75153 Spontaneous Resolution of Delayed Suprachoroidal Hemorrhage in the Single Eye Following Needling in Congenital Glaucoma
Hoffmann EM
Journal of Glaucoma 2017; 26: e268-e270 (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)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Matsumoto Y
PLoS ONE 2018; 13: e0191862 (IGR: 19-2)


75508 The diagnostic use of choroidal thickness analysis and its correlation with visual field indices in glaucoma using spectral domain optical coherence tomography
Huang S
PLoS ONE 2017; 12: e0189376 (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Paschalis EI
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75311 Management of Delayed Suprachoroidal Hemorrhage after Glaucoma Surgery
Eliott D
Seminars in Ophthalmology 2018; 33: 59-63 (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)


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)


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)


75508 The diagnostic use of choroidal thickness analysis and its correlation with visual field indices in glaucoma using spectral domain optical coherence tomography
Huang P
PLoS ONE 2017; 12: e0189376 (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Li D
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Kabbara SW
American Journal of Ophthalmology 2018; 186: 89-95 (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)


75153 Spontaneous Resolution of Delayed Suprachoroidal Hemorrhage in the Single Eye Following Needling in Congenital Glaucoma
Prokosch-Willing V
Journal of Glaucoma 2017; 26: e268-e270 (IGR: 19-2)


75441 Spontaneous expulsive suprachoroidal haemorrhage in an asymptomatic elderly patient: a case report
Pan SW
International Ophthalmology 2017; 0: (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Mori S
PLoS ONE 2018; 13: e0191862 (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)


75370 Bruch's membrane opening minimum rim width : Correlation and diagnostic accuracy in comparison to peripapillary retinal nerve fiber layer thickness
Volkmann IR
Ophthalmologe 2017; 0: (IGR: 19-2)


75489 Central Visual Field Damage and Parapapillary Choroidal Microvasculature Dropout in Primary Open-Angle Glaucoma
Kim JA
Ophthalmology 2018; 125: 588-596 (IGR: 19-2)


75153 Spontaneous Resolution of Delayed Suprachoroidal Hemorrhage in the Single Eye Following Needling in Congenital Glaucoma
Gericke A
Journal of Glaucoma 2017; 26: e268-e270 (IGR: 19-2)


75370 Bruch's membrane opening minimum rim width : Correlation and diagnostic accuracy in comparison to peripapillary retinal nerve fiber layer thickness
Junker B
Ophthalmologe 2017; 0: (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)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Nouri-Mahdavi K
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Ueda K
PLoS ONE 2018; 13: e0191862 (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)


75508 The diagnostic use of choroidal thickness analysis and its correlation with visual field indices in glaucoma using spectral domain optical coherence tomography
Guo L
PLoS ONE 2017; 12: e0189376 (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)


75508 The diagnostic use of choroidal thickness analysis and its correlation with visual field indices in glaucoma using spectral domain optical coherence tomography
Shen X
PLoS ONE 2017; 12: e0189376 (IGR: 19-2)


75153 Spontaneous Resolution of Delayed Suprachoroidal Hemorrhage in the Single Eye Following Needling in Congenital Glaucoma
Pfeiffer N
Journal of Glaucoma 2017; 26: e268-e270 (IGR: 19-2)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Bowd C
American Journal of Ophthalmology 2018; 186: 89-95 (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Inoue Y
PLoS ONE 2018; 13: e0191862 (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)


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)


75370 Bruch's membrane opening minimum rim width : Correlation and diagnostic accuracy in comparison to peripapillary retinal nerve fiber layer thickness
Framme C
Ophthalmologe 2017; 0: (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Brauner SC
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Kurimoto T
PLoS ONE 2018; 13: e0191862 (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Greenstein SH
Clinical Ophthalmology 2017; 11: 2157-2167 (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)


75508 The diagnostic use of choroidal thickness analysis and its correlation with visual field indices in glaucoma using spectral domain optical coherence tomography
Zhong Y
PLoS ONE 2017; 12: e0189376 (IGR: 19-2)


75370 Bruch's membrane opening minimum rim width : Correlation and diagnostic accuracy in comparison to peripapillary retinal nerve fiber layer thickness
Hufendiek K
Ophthalmologe 2017; 0: (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)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Medeiros FA
American Journal of Ophthalmology 2018; 186: 89-95 (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)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Girkin CA
American Journal of Ophthalmology 2018; 186: 89-95 (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Turalba AV
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Kanamori A
PLoS ONE 2018; 13: e0191862 (IGR: 19-2)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Liebmann JM
American Journal of Ophthalmology 2018; 186: 89-95 (IGR: 19-2)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Yamada Y
PLoS ONE 2018; 13: e0191862 (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Wiggs JL
Clinical Ophthalmology 2017; 11: 2157-2167 (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)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Weinreb RN
American Journal of Ophthalmology 2018; 186: 89-95 (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)


75781 Excessive scleral shrinkage, rather than choroidal thickening, is a major contributor to the development of hypotony maculopathy after trabeculectomy
Nakamura M
PLoS ONE 2018; 13: e0191862 (IGR: 19-2)


75572 Thin minimal rim width at Bruch's membrane opening is associated with glaucomatous paracentral visual field loss
Pasquale LR; Shen LQ
Clinical Ophthalmology 2017; 11: 2157-2167 (IGR: 19-2)


75246 A Longitudinal Analysis of Peripapillary Choroidal Thinning in Healthy and Glaucoma Subjects
Belghith A
American Journal of Ophthalmology 2018; 186: 89-95 (IGR: 19-2)


74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Han S
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Yazgan S
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Sastre-Ibañez M
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74433 Reproducibility of Bruch Membrane Opening-Minimum Rim Width Measurements With Spectral Domain Optical Coherence Tomography
Park K
Journal of Glaucoma 2017; 26: 1041-1050 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Enders P
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Reznicek L
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74429 Assessment of peripapillary choroidal thickness in primary open-angle glaucoma patients with choroidal vascular prominence
Song YJ
Japanese Journal of Ophthalmology 2017; 61: 448-456 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Enders P
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Pablo LE
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74742 Parapapillary Deep-Layer Microvasculature Dropout in Primary Open-Angle Glaucoma Eyes With a Parapapillary γ-Zone
Lee EJ
Investigative Ophthalmology and Visual Science 2017; 58: 5673-5680 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Bai HX
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Mwanza JC
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Pablo LE
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74762 Bruch's Membrane Opening Minimum Rim Width Measurement with SD-OCT: A Method to Correct for the Opening Size of Bruch's Membrane
Kromer R
Journal of Ophthalmology 2017; 2017: 8963267 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Erboy F
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74433 Reproducibility of Bruch Membrane Opening-Minimum Rim Width Measurements With Spectral Domain Optical Coherence Tomography
Kim J
Journal of Glaucoma 2017; 26: 1041-1050 (IGR: 19-1)


74742 Parapapillary Deep-Layer Microvasculature Dropout in Primary Open-Angle Glaucoma Eyes With a Parapapillary γ-Zone
Kim TW
Investigative Ophthalmology and Visual Science 2017; 58: 5673-5680 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Burzer S
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74762 Bruch's Membrane Opening Minimum Rim Width Measurement with SD-OCT: A Method to Correct for the Opening Size of Bruch's Membrane
Spitzer MS
Journal of Ophthalmology 2017; 2017: 8963267 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Adler W
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Cameo B
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Huang LY
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Bambo MP
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Sung KR
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Mao Y
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Bremen A
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74429 Assessment of peripapillary choroidal thickness in primary open-angle glaucoma patients with choroidal vascular prominence
Kim YK
Japanese Journal of Ophthalmology 2017; 61: 448-456 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Martinez-de-la-Casa JM
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Schaub F
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Rebolleda G
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Cameo B
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Shen L
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Schaub F
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74429 Assessment of peripapillary choroidal thickness in primary open-angle glaucoma patients with choroidal vascular prominence
Jeoung JW
Japanese Journal of Ophthalmology 2017; 61: 448-456 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Celik HU
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74433 Reproducibility of Bruch Membrane Opening-Minimum Rim Width Measurements With Spectral Domain Optical Coherence Tomography
Lee J
Journal of Glaucoma 2017; 26: 1041-1050 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Bambo MP
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Park J
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Laubichler A
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Budenz DL
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Hermann MM
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Ferrández B
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74429 Assessment of peripapillary choroidal thickness in primary open-angle glaucoma patients with choroidal vascular prominence
Park KH
Japanese Journal of Ophthalmology 2017; 61: 448-456 (IGR: 19-1)


74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Yoon JY
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)


74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Shi W
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Polo V
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74742 Parapapillary Deep-Layer Microvasculature Dropout in Primary Open-Angle Glaucoma Eyes With a Parapapillary γ-Zone
Kim JA
Investigative Ophthalmology and Visual Science 2017; 58: 5673-5680 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Xu XL
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Hermann MM
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Nasseri A
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Ornek T
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Cifuentes-Canorea P
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Lohmann CP
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Huang G
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Güerri N
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Larrosa JM
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Diestelhorst M
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Nieves-Moreno M
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Shin JW
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Diestelhorst M
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Gao F
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Ugurbas SH
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Zhang ZB
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Morales-Fernandez L
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Dietlein T
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Fuertes MI
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Polo V
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Feucht N
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Lee RK
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Kokturk F
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Dietlein T
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Li B
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Cursiefen C
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Güerri N
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Saenz-Frances F
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Ayar O
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Ulbig M
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Cursiefen C
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Larrosa JM
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Ferrandez B
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Akdemir MO
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74070 Bruch´s membrane thickness in relationship to axial length
Jonas JB
PLoS ONE 2017; 12: e0182080 (IGR: 19-1)


74660 Structure-function relationship comparison between retinal nerve fibre layer and Bruch's membrane opening-minimum rim width in glaucoma
Maier M
International Journal of Ophthalmology 2017; 10: 1534-1538 (IGR: 19-1)


74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Garcia-Feijoo J
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)


74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Heindl LM
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Moreno-Montañés J
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Heindl LM
Scientific reports 2017; 7: 13874 (IGR: 19-1)


74373 Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer in Untreated Patients with Obstructive Sleep Apnea-Hypopnea Syndrome: A Case-Control Study
Celik E
Current Eye Research 2017; 42: 1552-1560 (IGR: 19-1)


74573 The use of zonal analysis of peripapillary choroidal thickness in primary open-angle glaucoma
Garcia-Martin E
Japanese Journal of Ophthalmology 2018; 62: 41-47 (IGR: 19-1)


74455 Peripapillary Choroidal Thickness Analysis Using Swept-Source Optical Coherence Tomography in Glaucoma Patients: A Broader Approach
Garcia-Martin E
Ophthalmic Research 2018; 59: 7-13 (IGR: 19-1)


73075 Evaluation of macular and peripapillary choroidal thickness, macular volume and retinal nerve fiber layer in acromegaly patients
Yazgan S
International Ophthalmology 2018; 38: 617-625 (IGR: 18-4)


72788 Glaucoma in high myopia and parapapillary delta zone
Jonas JB
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)


72904 Anterior but not posterior choroid changed before and during Valsalva manoeuvre in healthy Chinese: a UBM and SS-OCT study
Li F
British Journal of Ophthalmology 2017; 101: 1714-1719 (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)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Sharma S
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


72780 Evaluation of the effects on choroidal thickness of bimatoprost 0.03% versus a brinzolamide 1.0%/timolol maleate 0.5% fixed combination
Akyol N
Cutaneous and Ocular Toxicology 2017; 0: 1-7 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Vianna JR
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


72606 Choroidal area assessment in various fundus sectors of patients at different stages of primary open-angle glaucoma by using enhanced depth imaging optical coherence tomography
Li M
Medicine 2017; 96: e6293 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
De Moraes CG
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Miki A
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


72697 SD-OCT Choroidal Thickness in Advanced Primary Open-Angle Glaucoma
Sacconi R
Journal of Glaucoma 2017; 26: 523-527 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Imamoglu S
Journal of Glaucoma 2017; 26: 561-565 (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)


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)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Ikuno Y
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


72788 Glaucoma in high myopia and parapapillary delta zone
Weber P
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)


72697 SD-OCT Choroidal Thickness in Advanced Primary Open-Angle Glaucoma
Deotto N
Journal of Glaucoma 2017; 26: 523-527 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Lanoe VR
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Tun TA
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Celik NB
Journal of Glaucoma 2017; 26: 561-565 (IGR: 18-4)


72606 Choroidal area assessment in various fundus sectors of patients at different stages of primary open-angle glaucoma by using enhanced depth imaging optical coherence tomography
Yan XQ
Medicine 2017; 96: e6293 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Murphy JT
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


72904 Anterior but not posterior choroid changed before and during Valsalva manoeuvre in healthy Chinese: a UBM and SS-OCT study
Gao K
British Journal of Ophthalmology 2017; 101: 1714-1719 (IGR: 18-4)


72780 Evaluation of the effects on choroidal thickness of bimatoprost 0.03% versus a brinzolamide 1.0%/timolol maleate 0.5% fixed combination
Kalkisim A
Cutaneous and Ocular Toxicology 2017; 0: 1-7 (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)


73075 Evaluation of macular and peripapillary choroidal thickness, macular volume and retinal nerve fiber layer in acromegaly patients
Arpaci D
International Ophthalmology 2018; 38: 617-625 (IGR: 18-4)


72697 SD-OCT Choroidal Thickness in Advanced Primary Open-Angle Glaucoma
Merz T
Journal of Glaucoma 2017; 26: 523-527 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Quach J
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


72606 Choroidal area assessment in various fundus sectors of patients at different stages of primary open-angle glaucoma by using enhanced depth imaging optical coherence tomography
Song YW
Medicine 2017; 96: e6293 (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)


72780 Evaluation of the effects on choroidal thickness of bimatoprost 0.03% versus a brinzolamide 1.0%/timolol maleate 0.5% fixed combination
Turk A
Cutaneous and Ocular Toxicology 2017; 0: 1-7 (IGR: 18-4)


73075 Evaluation of macular and peripapillary choroidal thickness, macular volume and retinal nerve fiber layer in acromegaly patients
Celik HU
International Ophthalmology 2018; 38: 617-625 (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)


72788 Glaucoma in high myopia and parapapillary delta zone
Nagaoka N
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Kaplan CM
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


72904 Anterior but not posterior choroid changed before and during Valsalva manoeuvre in healthy Chinese: a UBM and SS-OCT study
Li X
British Journal of Ophthalmology 2017; 101: 1714-1719 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Baskaran M
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Sevim MS
Journal of Glaucoma 2017; 26: 561-565 (IGR: 18-4)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Weinreb RN
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


73075 Evaluation of macular and peripapillary choroidal thickness, macular volume and retinal nerve fiber layer in acromegaly patients
Isik I
International Ophthalmology 2018; 38: 617-625 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Atalay E
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Yokoyama J
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Reimann JJ
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


72904 Anterior but not posterior choroid changed before and during Valsalva manoeuvre in healthy Chinese: a UBM and SS-OCT study
Chen S
British Journal of Ophthalmology 2017; 101: 1714-1719 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Pekel G
Journal of Glaucoma 2017; 26: 561-565 (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)


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)


72788 Glaucoma in high myopia and parapapillary delta zone
Ohno-Matsui K
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)


72606 Choroidal area assessment in various fundus sectors of patients at different stages of primary open-angle glaucoma by using enhanced depth imaging optical coherence tomography
Guo JM
Medicine 2017; 96: e6293 (IGR: 18-4)


72697 SD-OCT Choroidal Thickness in Advanced Primary Open-Angle Glaucoma
Morbio R
Journal of Glaucoma 2017; 26: 523-527 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Sharpe GP
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


72780 Evaluation of the effects on choroidal thickness of bimatoprost 0.03% versus a brinzolamide 1.0%/timolol maleate 0.5% fixed combination
Kola M
Cutaneous and Ocular Toxicology 2017; 0: 1-7 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Ercalik NY
Journal of Glaucoma 2017; 26: 561-565 (IGR: 18-4)


72780 Evaluation of the effects on choroidal thickness of bimatoprost 0.03% versus a brinzolamide 1.0%/timolol maleate 0.5% fixed combination
Imamoglu HI
Cutaneous and Ocular Toxicology 2017; 0: 1-7 (IGR: 18-4)


72606 Choroidal area assessment in various fundus sectors of patients at different stages of primary open-angle glaucoma by using enhanced depth imaging optical coherence tomography
Zhang H
Medicine 2017; 96: e6293 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Skaat A
JAMA ophthalmology 2017; 135: 617-623 (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)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Asai T
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


72697 SD-OCT Choroidal Thickness in Advanced Primary Open-Angle Glaucoma
Casati S
Journal of Glaucoma 2017; 26: 523-527 (IGR: 18-4)


72904 Anterior but not posterior choroid changed before and during Valsalva manoeuvre in healthy Chinese: a UBM and SS-OCT study
Huang W
British Journal of Ophthalmology 2017; 101: 1714-1719 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Hutchison DM
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Thakku SG
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


72904 Anterior but not posterior choroid changed before and during Valsalva manoeuvre in healthy Chinese: a UBM and SS-OCT study
Zhang X
British Journal of Ophthalmology 2017; 101: 1714-1719 (IGR: 18-4)


72697 SD-OCT Choroidal Thickness in Advanced Primary Open-Angle Glaucoma
Marchini G
Journal of Glaucoma 2017; 26: 523-527 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Belliveau AC
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Turkseven Kumral E
Journal of Glaucoma 2017; 26: 561-565 (IGR: 18-4)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Usui S
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Liang Z
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Blumberg DM
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Milea D
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Al-Aswad L
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


72816 Structure-Function Relationship Between the Bruch Membrane Opening-based Minimum Rim Width and Visual Field Defects in Advanced Glaucoma
Bardak H
Journal of Glaucoma 2017; 26: 561-565 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Shuba LM
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


72865 Measurements of the parapapillary atrophy zones in en face optical coherence tomography images
Nishida K
PLoS ONE 2017; 12: e0175347 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Nicolela MT
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Strouthidis NG
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Cioffi GA
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Chauhan BC
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Aung T
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Girkin CA; Medeiros FA
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Girard MJ
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)


73046 β-Zone Parapapillary Atrophy and Rates of Glaucomatous Visual Field Progression: African Descent and Glaucoma Evaluation Study
Weinreb RN; Zangwill L; Liebmann JM
JAMA ophthalmology 2017; 135: 617-623 (IGR: 18-4)


71318 Choroidal thickness and structural glaucoma parameters in glaucomatous, preperimetric glaucomatous, and healthy eyes using swept-source OCT
Akil H
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-3)


71010 Progressive Retinal Nerve Fiber Layer Atrophy Associated With Enlarging Peripapillary Pit
Lee EJ
Journal of Glaucoma 2017; 26: e79-e81 (IGR: 18-3)


71406 Bimatoprost-induced late-onset choroidal detachment after trabeculectomy: A case report and review of the literature
Nakakura S
Medicine 2017; 96: e5927 (IGR: 18-3)


71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Iwase A
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)


71615 Peripapillary choroidal vascular layers: the Beijing Eye Study
Xu J
Acta Ophthalmologica 2017; 95: 619-628 (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)


71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Sawaguchi S
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)


71615 Peripapillary choroidal vascular layers: the Beijing Eye Study
Wang YX
Acta Ophthalmologica 2017; 95: 619-628 (IGR: 18-3)


71010 Progressive Retinal Nerve Fiber Layer Atrophy Associated With Enlarging Peripapillary Pit
Kim TW
Journal of Glaucoma 2017; 26: e79-e81 (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)


71406 Bimatoprost-induced late-onset choroidal detachment after trabeculectomy: A case report and review of the literature
Noguchi A
Medicine 2017; 96: e5927 (IGR: 18-3)


71318 Choroidal thickness and structural glaucoma parameters in glaucomatous, preperimetric glaucomatous, and healthy eyes using swept-source OCT
Al-Sheikh M
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-3)


71406 Bimatoprost-induced late-onset choroidal detachment after trabeculectomy: A case report and review of the literature
Tabuchi H
Medicine 2017; 96: e5927 (IGR: 18-3)


71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Sakai H
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)


71615 Peripapillary choroidal vascular layers: the Beijing Eye Study
Jiang R
Acta Ophthalmologica 2017; 95: 619-628 (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)


71318 Choroidal thickness and structural glaucoma parameters in glaucomatous, preperimetric glaucomatous, and healthy eyes using swept-source OCT
Falavarjani KG
European Journal of Ophthalmology 2017; 0: 0 (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)


71406 Bimatoprost-induced late-onset choroidal detachment after trabeculectomy: A case report and review of the literature
Kiuchi Y
Medicine 2017; 96: e5927 (IGR: 18-3)


71318 Choroidal thickness and structural glaucoma parameters in glaucomatous, preperimetric glaucomatous, and healthy eyes using swept-source OCT
Francis B
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-3)


71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Tanaka K
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)


71615 Peripapillary choroidal vascular layers: the Beijing Eye Study
Wei WB
Acta Ophthalmologica 2017; 95: 619-628 (IGR: 18-3)


71318 Choroidal thickness and structural glaucoma parameters in glaucomatous, preperimetric glaucomatous, and healthy eyes using swept-source OCT
Chopra V
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-3)


71615 Peripapillary choroidal vascular layers: the Beijing Eye Study
Xu L
Acta Ophthalmologica 2017; 95: 619-628 (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)


71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Tsutsumi T
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)


71615 Peripapillary choroidal vascular layers: the Beijing Eye Study
Jonas JB
Acta Ophthalmologica 2017; 95: 619-628 (IGR: 18-3)


71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Araie M
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)


70627 Bilateral choroidal effusion after selective laser trabeculoplasty
Hernández Pardines F
Archivos de la Sociedad Española de Oftalmologia 2017; 92: 295-298 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Enders P
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70572 Spectrum of Angle Closure, Uveal Effusion Syndrome, and Nanophthalmos
Areiter E
Journal of Current Glaucoma Practice 2016; 10: 113-117 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Ersoz MG
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Çiçek A
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Sawada Y
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Chang MY
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70486 Consistency of Bruch Membrane Opening Detection as Determined by Optical Coherence Tomography
Hwang YH
Journal of Glaucoma 2016; 25: 873-878 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Yoshikawa M
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Tsikata E
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Li SF
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Rhodes LA
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Toshev AP
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)


70063 Changes in the Choroidal Thickness and Axial Length Upon Mannitol Infusion in Patients With Asymmetric Intraocular Pressure
Çalişkan S
Journal of Glaucoma 2016; 25: 891-895 (IGR: 18-2)


70527 Peripapillary schisis in open-angle glaucoma
Dhingra N
Eye 2017; 31: 499-502 (IGR: 18-2)


69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Lee JH
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Huisingh CE
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Lamparter J
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)


69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Park HY
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Mart DK
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Shin A
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Duru N
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Wu GW
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70486 Consistency of Bruch Membrane Opening Detection as Determined by Optical Coherence Tomography
Kim MK
Journal of Glaucoma 2016; 25: 873-878 (IGR: 18-2)


70063 Changes in the Choroidal Thickness and Axial Length Upon Mannitol Infusion in Patients With Asymmetric Intraocular Pressure
Uğurbaş SC
Journal of Glaucoma 2016; 25: 891-895 (IGR: 18-2)


70527 Peripapillary schisis in open-angle glaucoma
Manoharan R
Eye 2017; 31: 499-502 (IGR: 18-2)


70627 Bilateral choroidal effusion after selective laser trabeculoplasty
Molina Martín JC
Archivos de la Sociedad Española de Oftalmologia 2017; 92: 295-298 (IGR: 18-2)


70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Hangai M
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)


70572 Spectrum of Angle Closure, Uveal Effusion Syndrome, and Nanophthalmos
Neale M
Journal of Current Glaucoma Practice 2016; 10: 113-117 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Adler W
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Lee R
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Akagi T
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Ayintap E
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70486 Consistency of Bruch Membrane Opening Detection as Determined by Optical Coherence Tomography
Ahn SI
Journal of Glaucoma 2016; 25: 873-878 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Park J
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Chen CX
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70063 Changes in the Choroidal Thickness and Axial Length Upon Mannitol Infusion in Patients With Asymmetric Intraocular Pressure
Alpay A
Journal of Glaucoma 2016; 25: 891-895 (IGR: 18-2)


70527 Peripapillary schisis in open-angle glaucoma
Gill S
Eye 2017; 31: 499-502 (IGR: 18-2)


70627 Bilateral choroidal effusion after selective laser trabeculoplasty
Fernández Montalvo L
Archivos de la Sociedad Española de Oftalmologia 2017; 92: 295-298 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Duru Z
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70572 Spectrum of Angle Closure, Uveal Effusion Syndrome, and Nanophthalmos
Johnson SM
Journal of Current Glaucoma Practice 2016; 10: 113-117 (IGR: 18-2)


70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Pfeiffer N
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Nakanishi H
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Ishikawa M
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)


69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Baek J
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Quinn AE
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Schaub F
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Shieh E
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Yoshitomi T
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Ikeda HO
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70063 Changes in the Choroidal Thickness and Axial Length Upon Mannitol Infusion in Patients With Asymmetric Intraocular Pressure
Uğurbaş SH
Journal of Glaucoma 2016; 25: 891-895 (IGR: 18-2)


69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Lee WK
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Shen L
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Hermann MM
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
McGwin G
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70527 Peripapillary schisis in open-angle glaucoma
Nagar M
Eye 2017; 31: 499-502 (IGR: 18-2)


70627 Bilateral choroidal effusion after selective laser trabeculoplasty
Aguirre Balsalobre F
Archivos de la Sociedad Española de Oftalmologia 2017; 92: 295-298 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Hazar L
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Simavli H
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Altunel O
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Nagiel A
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Hoffmann EM
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Lalane RA
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Que CJ
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Haşhaş AS
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Zhang ZB
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Dietlein T
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
LaRussa F
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Morooka S
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Gunes IB
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Arifoğlu HB
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Cursiefen C
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Box D
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Guo R
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Yamada H
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Gao F
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Adiyeke SK
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Schwartz SD
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Owsley C
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Heindl LM
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Khoueir Z
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Hasegawa T
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70202 The factors influencing peripapillary choroidal thickness in primary open-angle glaucoma
Dogan B
International Ophthalmology 2017; 37: 827-833 (IGR: 18-2)


70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Demer JL
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Alabay B
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70139 Association between choroidal thickness and anterior chamber segment in eyes with narrow or open-angle
Wang NL
International Journal of Ophthalmology 2016; 9: 1143-1147 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
de Boer J
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


70203 The assessment of choroidal thickness with spectral-domain optical coherence tomography during Valsalva maneuver
Ataş M
International Ophthalmology 2017; 37: 843-848 (IGR: 18-2)


70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Girkin CA
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)


70317 Longitudinal change in choroidal thickness after trabeculectomy in primary open-angle glaucoma patients
Iida Y; Yoshimura N
Japanese Journal of Ophthalmology 2017; 61: 105-112 (IGR: 18-2)


70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Chen TC
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)


69331 Visual field defects and changes in macular retinal ganglion cell complex thickness in eyes with intrachoroidal cavitation are similar to those in early glaucoma
Okuma S
Clinical Ophthalmology 2016; 10: 1217-1222 (IGR: 18-1)


69043 The Suprachoroidal Route in Glaucoma Surgery
Gigon A
Journal of Current Glaucoma Practice 2016; 10: 13-20 (IGR: 18-1)


68903 Changes in choroidal thickness after intraocular pressure reduction following trabeculectomy
Kadziauskiene A
Acta Ophthalmologica 2016; 94: 586-591 (IGR: 18-1)


69156 Peripapillary Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis
Lin Z
Journal of Ophthalmology 2016; 2016: 5484568 (IGR: 18-1)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Ivers KM
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Kucukevcilioglu M
Current Eye Research 2016; 0: 1-5 (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)


69191 Topographic Correlation Between Juxtapapillary Choroidal Thickness and Microstructure of Parapapillary Atrophy
Lee SH
Ophthalmology 2016; 123: 1965-1973 (IGR: 18-1)


69263 The role of choroidal thickness change in acute attack of primary angle closure glaucoma
Li SN
Chinese Journal of Ophthalmology 2016; 52: 404-406 (IGR: 18-1)


69253 Correlation of Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer Thickness in Normal Subjects and in Patients with Glaucoma
Karahan E
Seminars in Ophthalmology 2016; 0: 1-5 (IGR: 18-1)


69490 Challenges In Early Glaucoma Detection
Dervisevic E
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)


69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Gmeiner JM
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Dursun A
Journal of Ophthalmology 2016; 2016: 3545180 (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)


69478 Intereye Difference in the Microstructure of Parapapillary Atrophy in Unilateral Primary Open-Angle Glaucoma
Yoo YJ
Investigative Ophthalmology and Visual Science 2016; 57: 4187-4193 (IGR: 18-1)


69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Enders P
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)


69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Lee EJ
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Vianna JR
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (IGR: 18-1)


69478 Intereye Difference in the Microstructure of Parapapillary Atrophy in Unilateral Primary Open-Angle Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2016; 57: 4187-4193 (IGR: 18-1)


69263 The role of choroidal thickness change in acute attack of primary angle closure glaucoma
Wang NL
Chinese Journal of Ophthalmology 2016; 52: 404-406 (IGR: 18-1)


69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Schrems WA
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Yang H
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Ayyildiz O
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)


69043 The Suprachoroidal Route in Glaucoma Surgery
Shaarawy T
Journal of Current Glaucoma Practice 2016; 10: 13-20 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Malik R
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (IGR: 18-1)


69156 Peripapillary Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis
Huang S
Journal of Ophthalmology 2016; 2016: 5484568 (IGR: 18-1)


69490 Challenges In Early Glaucoma Detection
Pavljasevic S
Medicinski arhiv 2016; 70: 203-207 (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)


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)


69331 Visual field defects and changes in macular retinal ganglion cell complex thickness in eyes with intrachoroidal cavitation are similar to those in early glaucoma
Mizoue S
Clinical Ophthalmology 2016; 10: 1217-1222 (IGR: 18-1)


69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Schaub F
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)


69253 Correlation of Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer Thickness in Normal Subjects and in Patients with Glaucoma
Tuncer Ä°
Seminars in Ophthalmology 2016; 0: 1-5 (IGR: 18-1)


69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Lee KM
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)


68903 Changes in choroidal thickness after intraocular pressure reduction following trabeculectomy
Kuoliene K
Acta Ophthalmologica 2016; 94: 586-591 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Ozec AV
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69191 Topographic Correlation Between Juxtapapillary Choroidal Thickness and Microstructure of Parapapillary Atrophy
Lee EJ
Ophthalmology 2016; 123: 1965-1973 (IGR: 18-1)


69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Mardin CY
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)


69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Kim H
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Danthurebandara VM
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (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)


69331 Visual field defects and changes in macular retinal ganglion cell complex thickness in eyes with intrachoroidal cavitation are similar to those in early glaucoma
Ohashi Y
Clinical Ophthalmology 2016; 10: 1217-1222 (IGR: 18-1)


69478 Intereye Difference in the Microstructure of Parapapillary Atrophy in Unilateral Primary Open-Angle Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2016; 57: 4187-4193 (IGR: 18-1)


68903 Changes in choroidal thickness after intraocular pressure reduction following trabeculectomy
Asoklis R
Acta Ophthalmologica 2016; 94: 586-591 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Dogan O
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Adler W
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)


69191 Topographic Correlation Between Juxtapapillary Choroidal Thickness and Microstructure of Parapapillary Atrophy
Kim TW
Ophthalmology 2016; 123: 1965-1973 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Aykas S
Current Eye Research 2016; 0: 1-5 (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)


69156 Peripapillary Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis
Xie B
Journal of Ophthalmology 2016; 2016: 5484568 (IGR: 18-1)


69490 Challenges In Early Glaucoma Detection
Dervisevic A
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)


69253 Correlation of Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer Thickness in Normal Subjects and in Patients with Glaucoma
Er D
Seminars in Ophthalmology 2016; 0: 1-5 (IGR: 18-1)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Gardiner SK
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69490 Challenges In Early Glaucoma Detection
Kasumovic SS
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Dursun FG
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69253 Correlation of Peripapillary Choroidal Thickness and Retinal Nerve Fiber Layer Thickness in Normal Subjects and in Patients with Glaucoma
Zengin MO
Seminars in Ophthalmology 2016; 0: 1-5 (IGR: 18-1)


69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Nikoluk R
British Journal of Ophthalmology 2017; 101: 530-535 (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)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Qin L
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Kim TW
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Sharpe GP
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (IGR: 18-1)


68903 Changes in choroidal thickness after intraocular pressure reduction following trabeculectomy
Lesinskas E
Acta Ophthalmologica 2016; 94: 586-591 (IGR: 18-1)


69156 Peripapillary Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis
Zhong Y
Journal of Ophthalmology 2016; 2016: 5484568 (IGR: 18-1)


69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Laemmer R
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Gokce G; Koylu MT
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Toker MI
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Kruse FE
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)


68903 Changes in choroidal thickness after intraocular pressure reduction following trabeculectomy
Schmetterer L
Acta Ophthalmologica 2016; 94: 586-591 (IGR: 18-1)


69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Hermann MM
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Belliveau AC
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (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)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Reyes L
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Shuba LM
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (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)


69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Heindl LM
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Ozgonul C
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Fortune B
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Schrems-Hoesl LM
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Topalkara A
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Ozge G
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Arici MK
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Burgoyne CF
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)


69149 Beta and Gamma Peripapillary Atrophy in Myopic Eyes With and Without Glaucoma
Chauhan BC; Nicolela MT
Investigative Ophthalmology and Visual Science 2016; 57: 3103-3111 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Mumcuoglu T
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)


69306 Evaluation of Choroidal Thickness in Patients with Pseudoexfoliation Syndrome and Pseudoexfoliation Glaucoma
Erdogan H
Journal of Ophthalmology 2016; 2016: 3545180 (IGR: 18-1)


69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Yumusak E
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Skaat A
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
Shen L
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (IGR: 17-4)


66845 An evaluation of ocular elasticity using real-time ultrasound elastography in primary open-angle glaucoma
Agladioglu K
British Journal of Radiology 2016; 89: 20150429 (IGR: 17-4)


66623 A Case Report of Preoperative, Intraoperative, and Postoperative Anterior Chamber Shallowing Resulting from Different Mechanisms
Mori Y
Case Reports in Ophthalmology 2016; 7: 115-118 (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)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Ozge G
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Amini N
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


67262 Spectral-Domain Optical Coherence Tomography-Derived Characteristics of Bruch Membrane Opening in a Young Adult Australian Population
Sanfilippo PG
American Journal of Ophthalmology 2016; 165: 154-163 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Demircan S
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Wang YX
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


66747 Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA)
Belghith A
Investigative Ophthalmology and Visual Science 2016; 57: 675-682 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
Hua R
Scientific reports 2016; 6: 21743 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Miraftabi A
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
Gangwani R
Scientific reports 2016; 6: 21743 (IGR: 17-4)


66747 Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA)
Bowd C
Investigative Ophthalmology and Visual Science 2016; 57: 675-682 (IGR: 17-4)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
De Moraes CG
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


66845 An evaluation of ocular elasticity using real-time ultrasound elastography in primary open-angle glaucoma
Pekel G
British Journal of Radiology 2016; 89: 20150429 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Jiang R
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


66623 A Case Report of Preoperative, Intraoperative, and Postoperative Anterior Chamber Shallowing Resulting from Different Mechanisms
Ikeda Y
Case Reports in Ophthalmology 2016; 7: 115-118 (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)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
You QS
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Yılmaz U
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Koylu MT
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


67262 Spectral-Domain Optical Coherence Tomography-Derived Characteristics of Bruch Membrane Opening in a Young Adult Australian Population
Huynh E
American Journal of Ophthalmology 2016; 165: 154-163 (IGR: 17-4)


66747 Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA)
Medeiros FA
Investigative Ophthalmology and Visual Science 2016; 57: 675-682 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Küçük E
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


67262 Spectral-Domain Optical Coherence Tomography-Derived Characteristics of Bruch Membrane Opening in a Young Adult Australian Population
Yazar S
American Journal of Ophthalmology 2016; 165: 154-163 (IGR: 17-4)


66623 A Case Report of Preoperative, Intraoperative, and Postoperative Anterior Chamber Shallowing Resulting from Different Mechanisms
Sano I
Case Reports in Ophthalmology 2016; 7: 115-118 (IGR: 17-4)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Mumcuoglu T
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Ren XL
British Journal of Ophthalmology 2016; 100: 1676-1681 (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)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Bowd C
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
Guo L
Scientific reports 2016; 6: 21743 (IGR: 17-4)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
Xu X
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (IGR: 17-4)


66845 An evaluation of ocular elasticity using real-time ultrasound elastography in primary open-angle glaucoma
Altintas Kasikci S
British Journal of Radiology 2016; 89: 20150429 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Henry S
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Ulusoy MD
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


67262 Spectral-Domain Optical Coherence Tomography-Derived Characteristics of Bruch Membrane Opening in a Young Adult Australian Population
Hewitt AW
American Journal of Ophthalmology 2016; 165: 154-163 (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)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Gundogan FC
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Sample PA
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
Gao F
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
McGhee S
Scientific reports 2016; 6: 21743 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Chung N
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


66845 An evaluation of ocular elasticity using real-time ultrasound elastography in primary open-angle glaucoma
Yagci R
British Journal of Radiology 2016; 89: 20150429 (IGR: 17-4)


66623 A Case Report of Preoperative, Intraoperative, and Postoperative Anterior Chamber Shallowing Resulting from Different Mechanisms
Fujihara E
Case Reports in Ophthalmology 2016; 7: 115-118 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Chen JD
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


66747 Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA)
Yang Z
Investigative Ophthalmology and Visual Science 2016; 57: 675-682 (IGR: 17-4)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
Zhang Z
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Ataş M
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Shi HL
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Girkin CA
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


66623 A Case Report of Preoperative, Intraoperative, and Postoperative Anterior Chamber Shallowing Resulting from Different Mechanisms
Tanito M
Case Reports in Ophthalmology 2016; 7: 115-118 (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)


66845 An evaluation of ocular elasticity using real-time ultrasound elastography in primary open-angle glaucoma
Kiroglu Y
British Journal of Radiology 2016; 89: 20150429 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Nowroozizadeh S
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Ozgonul C
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


67262 Spectral-Domain Optical Coherence Tomography-Derived Characteristics of Bruch Membrane Opening in a Young Adult Australian Population
Mackey DA
American Journal of Ophthalmology 2016; 165: 154-163 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
Ma X
Scientific reports 2016; 6: 21743 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Xu L
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Caprioli J
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Medeiros FA
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
Li J
Scientific reports 2016; 6: 21743 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Gülhan A
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Ayyildiz O
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


66747 Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA)
Weinreb RN
Investigative Ophthalmology and Visual Science 2016; 57: 675-682 (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)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
Li B
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (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)


67603 Evaluation of retinal nerve fiber layer thickness and choroidal thickness in pseudoexfoliative glaucoma and pseudoexfoliative syndrome
Kucukevcilioglu M
Postgraduate Medicine 2016; 128: 444-448 (IGR: 17-4)


66778 Detection of preperimetric glaucoma using Bruch membrane opening, neural canal and posterior pole asymmetry analysis of optical coherence tomography
Yao K
Scientific reports 2016; 6: 21743 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Wei WB
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Nouri-Mahdavi K
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)


67503 Scleral and choroidal volume in relation to axial length in infants with retinoblastoma versus adults with malignant melanomas or end-stage glaucoma
Jonas JB
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1779-1786 (IGR: 17-4)


67562 The Effect of Pseudoexfoliation Syndrome on the Retinal Nerve Fiber Layer and Choroid Thickness
Zararsız G
Seminars in Ophthalmology 2016; 0: 0 (IGR: 17-4)


66747 Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA)
Zangwill LM
Investigative Ophthalmology and Visual Science 2016; 57: 675-682 (IGR: 17-4)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Ritch R
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


67211 Intraocular pressure elevation and choroidal thinning
Jonas JB
British Journal of Ophthalmology 2016; 100: 1676-1681 (IGR: 17-4)


67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Weinreb RN; Zangwill LM; Liebmann JM;
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)


65935 REAL-TIME FULL-DEPTH VISUALIZATION OF POSTERIOR OCULAR STRUCTURES: Comparison Between Full-Depth Imaging Spectral Domain Optical Coherence Tomography and Swept-Source Optical Coherence Tomography
Barteselli G
Retina (Philadelphia, Pa.) 2016; 36: 1153-1161 (IGR: 17-3)


66313 Microstructure of Peripapillary Atrophy and Subsequent Visual Field Progression in Treated Primary Open-Angle Glaucoma
Yamada H
Ophthalmology 2016; 123: 542-551 (IGR: 17-3)


65935 REAL-TIME FULL-DEPTH VISUALIZATION OF POSTERIOR OCULAR STRUCTURES: Comparison Between Full-Depth Imaging Spectral Domain Optical Coherence Tomography and Swept-Source Optical Coherence Tomography
Bartsch DU
Retina (Philadelphia, Pa.) 2016; 36: 1153-1161 (IGR: 17-3)


66313 Microstructure of Peripapillary Atrophy and Subsequent Visual Field Progression in Treated Primary Open-Angle Glaucoma
Akagi T
Ophthalmology 2016; 123: 542-551 (IGR: 17-3)


65935 REAL-TIME FULL-DEPTH VISUALIZATION OF POSTERIOR OCULAR STRUCTURES: Comparison Between Full-Depth Imaging Spectral Domain Optical Coherence Tomography and Swept-Source Optical Coherence Tomography
Weinreb RN
Retina (Philadelphia, Pa.) 2016; 36: 1153-1161 (IGR: 17-3)


66313 Microstructure of Peripapillary Atrophy and Subsequent Visual Field Progression in Treated Primary Open-Angle Glaucoma
Nakanishi H; Ikeda HO
Ophthalmology 2016; 123: 542-551 (IGR: 17-3)


65935 REAL-TIME FULL-DEPTH VISUALIZATION OF POSTERIOR OCULAR STRUCTURES: Comparison Between Full-Depth Imaging Spectral Domain Optical Coherence Tomography and Swept-Source Optical Coherence Tomography
Camacho N
Retina (Philadelphia, Pa.) 2016; 36: 1153-1161 (IGR: 17-3)


66313 Microstructure of Peripapillary Atrophy and Subsequent Visual Field Progression in Treated Primary Open-Angle Glaucoma
Kimura Y
Ophthalmology 2016; 123: 542-551 (IGR: 17-3)


65935 REAL-TIME FULL-DEPTH VISUALIZATION OF POSTERIOR OCULAR STRUCTURES: Comparison Between Full-Depth Imaging Spectral Domain Optical Coherence Tomography and Swept-Source Optical Coherence Tomography
Nezgoda JT; Marvasti AH
Retina (Philadelphia, Pa.) 2016; 36: 1153-1161 (IGR: 17-3)


66313 Microstructure of Peripapillary Atrophy and Subsequent Visual Field Progression in Treated Primary Open-Angle Glaucoma
Suda K; Hasegawa T
Ophthalmology 2016; 123: 542-551 (IGR: 17-3)


65935 REAL-TIME FULL-DEPTH VISUALIZATION OF POSTERIOR OCULAR STRUCTURES: Comparison Between Full-Depth Imaging Spectral Domain Optical Coherence Tomography and Swept-Source Optical Coherence Tomography
Freeman WR
Retina (Philadelphia, Pa.) 2016; 36: 1153-1161 (IGR: 17-3)


66313 Microstructure of Peripapillary Atrophy and Subsequent Visual Field Progression in Treated Primary Open-Angle Glaucoma
Yoshikawa M; Iida Y; Yoshimura N
Ophthalmology 2016; 123: 542-551 (IGR: 17-3)


61588 Choroidal physiology and primary angle closure disease
Zhang X
Survey of Ophthalmology 2015; 60: 547-556 (IGR: 17-1)


61051 The Relationship Between Choroidal Expansion and Intraocular Pressure Rise During the Water Drinking Test in Healthy Subjects and Patients With Exfoliation Syndrome
Kocabeyoglu S
Journal of Glaucoma 2016; 25: e324-e328 (IGR: 17-1)


61320 Fundus Tessellation: Prevalence and Associated Factors: The Beijing Eye Study 2011
Yan YN
Ophthalmology 2015; 122: 1873-1880 (IGR: 17-1)


61562 Acute Peripapillary Retinal Pigment Epithelium Changes Associated with Acute Intraocular Pressure Elevation
Wang YX
Ophthalmology 2015; 122: 2022-2028 (IGR: 17-1)


61610 Relationship Between Juxtapapillary Choroidal Volume and Beta-Zone Parapapillary Atrophy in Eyes With and Without Primary Open-Angle Glaucoma
Sullivan-Mee M
American Journal of Ophthalmology 2015; 160: 637-47.e1 (IGR: 17-1)


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)


61794 Foveal choroidal thickness assessment with SD-OCT in high myopic glaucoma
Chebil A
Journal Français d'Ophtalmologie 2015; 38: 440-444 (IGR: 17-1)


61381 Age-based analysis of choroidal thickness and choroidal vessel diameter in primary open-angle glaucoma
Toprak I
International Ophthalmology 2016; 36: 171-177 (IGR: 17-1)


61685 Structure-Function Relationship Between Bruch's Membrane Opening-Based Optic Nerve Head Parameters and Visual Field Defects in Glaucoma
Muth DR
Investigative Ophthalmology and Visual Science 2015; 56: 3320-3328 (IGR: 17-1)


60989 Peripapillary Choroidal Thickness in Adult Chinese: The Beijing Eye Study
Jiang R
Investigative Ophthalmology and Visual Science 2015; 56: 4045-4052 (IGR: 17-1)


61707 Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis and Systematic Review
Zhang Z
Journal of Glaucoma 2016; 25: e446-e454 (IGR: 17-1)


61685 Structure-Function Relationship Between Bruch's Membrane Opening-Based Optic Nerve Head Parameters and Visual Field Defects in Glaucoma
Hirneiß CW
Investigative Ophthalmology and Visual Science 2015; 56: 3320-3328 (IGR: 17-1)


60989 Peripapillary Choroidal Thickness in Adult Chinese: The Beijing Eye Study
Wang YX
Investigative Ophthalmology and Visual Science 2015; 56: 4045-4052 (IGR: 17-1)


61707 Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis and Systematic Review
Yu M
Journal of Glaucoma 2016; 25: e446-e454 (IGR: 17-1)


61381 Age-based analysis of choroidal thickness and choroidal vessel diameter in primary open-angle glaucoma
Yaylalı V
International Ophthalmology 2016; 36: 171-177 (IGR: 17-1)


61610 Relationship Between Juxtapapillary Choroidal Volume and Beta-Zone Parapapillary Atrophy in Eyes With and Without Primary Open-Angle Glaucoma
Patel NB
American Journal of Ophthalmology 2015; 160: 637-47.e1 (IGR: 17-1)


61588 Choroidal physiology and primary angle closure disease
Wang W
Survey of Ophthalmology 2015; 60: 547-556 (IGR: 17-1)


61320 Fundus Tessellation: Prevalence and Associated Factors: The Beijing Eye Study 2011
Wang YX
Ophthalmology 2015; 122: 1873-1880 (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)


61051 The Relationship Between Choroidal Expansion and Intraocular Pressure Rise During the Water Drinking Test in Healthy Subjects and Patients With Exfoliation Syndrome
Uzun S
Journal of Glaucoma 2016; 25: e324-e328 (IGR: 17-1)


61562 Acute Peripapillary Retinal Pigment Epithelium Changes Associated with Acute Intraocular Pressure Elevation
Jiang R
Ophthalmology 2015; 122: 2022-2028 (IGR: 17-1)


61794 Foveal choroidal thickness assessment with SD-OCT in high myopic glaucoma
Maamouri R
Journal Français d'Ophtalmologie 2015; 38: 440-444 (IGR: 17-1)


61320 Fundus Tessellation: Prevalence and Associated Factors: The Beijing Eye Study 2011
Xu L
Ophthalmology 2015; 122: 1873-1880 (IGR: 17-1)


61707 Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis and Systematic Review
Wang F
Journal of Glaucoma 2016; 25: e446-e454 (IGR: 17-1)


61562 Acute Peripapillary Retinal Pigment Epithelium Changes Associated with Acute Intraocular Pressure Elevation
Wang NL
Ophthalmology 2015; 122: 2022-2028 (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)


61794 Foveal choroidal thickness assessment with SD-OCT in high myopic glaucoma
Ben Abdallah M
Journal Français d'Ophtalmologie 2015; 38: 440-444 (IGR: 17-1)


61588 Choroidal physiology and primary angle closure disease
Aung T
Survey of Ophthalmology 2015; 60: 547-556 (IGR: 17-1)


61610 Relationship Between Juxtapapillary Choroidal Volume and Beta-Zone Parapapillary Atrophy in Eyes With and Without Primary Open-Angle Glaucoma
Pensyl D
American Journal of Ophthalmology 2015; 160: 637-47.e1 (IGR: 17-1)


60989 Peripapillary Choroidal Thickness in Adult Chinese: The Beijing Eye Study
Wei WB
Investigative Ophthalmology and Visual Science 2015; 56: 4045-4052 (IGR: 17-1)


61051 The Relationship Between Choroidal Expansion and Intraocular Pressure Rise During the Water Drinking Test in Healthy Subjects and Patients With Exfoliation Syndrome
Kadayifcilar S
Journal of Glaucoma 2016; 25: e324-e328 (IGR: 17-1)


61381 Age-based analysis of choroidal thickness and choroidal vessel diameter in primary open-angle glaucoma
Yildirim C
International Ophthalmology 2016; 36: 171-177 (IGR: 17-1)


61588 Choroidal physiology and primary angle closure disease
Jonas JB
Survey of Ophthalmology 2015; 60: 547-556 (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)


61051 The Relationship Between Choroidal Expansion and Intraocular Pressure Rise During the Water Drinking Test in Healthy Subjects and Patients With Exfoliation Syndrome
Mocan MC
Journal of Glaucoma 2016; 25: e324-e328 (IGR: 17-1)


60989 Peripapillary Choroidal Thickness in Adult Chinese: The Beijing Eye Study
Xu L
Investigative Ophthalmology and Visual Science 2015; 56: 4045-4052 (IGR: 17-1)


61707 Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis and Systematic Review
Dai Y
Journal of Glaucoma 2016; 25: e446-e454 (IGR: 17-1)


61794 Foveal choroidal thickness assessment with SD-OCT in high myopic glaucoma
Ouderni M
Journal Français d'Ophtalmologie 2015; 38: 440-444 (IGR: 17-1)


61562 Acute Peripapillary Retinal Pigment Epithelium Changes Associated with Acute Intraocular Pressure Elevation
Xu L
Ophthalmology 2015; 122: 2022-2028 (IGR: 17-1)


61610 Relationship Between Juxtapapillary Choroidal Volume and Beta-Zone Parapapillary Atrophy in Eyes With and Without Primary Open-Angle Glaucoma
Qualls C
American Journal of Ophthalmology 2015; 160: 637-47.e1 (IGR: 17-1)


61320 Fundus Tessellation: Prevalence and Associated Factors: The Beijing Eye Study 2011
Xu J
Ophthalmology 2015; 122: 1873-1880 (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)


61794 Foveal choroidal thickness assessment with SD-OCT in high myopic glaucoma
Chaker N
Journal Français d'Ophtalmologie 2015; 38: 440-444 (IGR: 17-1)


61320 Fundus Tessellation: Prevalence and Associated Factors: The Beijing Eye Study 2011
Wei WB
Ophthalmology 2015; 122: 1873-1880 (IGR: 17-1)


61707 Choroidal Thickness and Open-Angle Glaucoma: A Meta-Analysis and Systematic Review
Wu Z
Journal of Glaucoma 2016; 25: e446-e454 (IGR: 17-1)


60989 Peripapillary Choroidal Thickness in Adult Chinese: The Beijing Eye Study
Jonas JB
Investigative Ophthalmology and Visual Science 2015; 56: 4045-4052 (IGR: 17-1)


61588 Choroidal physiology and primary angle closure disease
Wang N
Survey of Ophthalmology 2015; 60: 547-556 (IGR: 17-1)


61051 The Relationship Between Choroidal Expansion and Intraocular Pressure Rise During the Water Drinking Test in Healthy Subjects and Patients With Exfoliation Syndrome
Irkec M
Journal of Glaucoma 2016; 25: e324-e328 (IGR: 17-1)


61562 Acute Peripapillary Retinal Pigment Epithelium Changes Associated with Acute Intraocular Pressure Elevation
Jonas JB
Ophthalmology 2015; 122: 2022-2028 (IGR: 17-1)


61320 Fundus Tessellation: Prevalence and Associated Factors: The Beijing Eye Study 2011
Jonas JB
Ophthalmology 2015; 122: 1873-1880 (IGR: 17-1)


61794 Foveal choroidal thickness assessment with SD-OCT in high myopic glaucoma
El Matri L
Journal Français d'Ophtalmologie 2015; 38: 440-444 (IGR: 17-1)


60114 Choroid thickness and ocular pulse amplitude in migraine during attack
Dervisogullari MS
Eye 2015; 29: 371-375 (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Li Z
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60819 Is increased choroidal thickness a risk factor for primary angle-closure glaucoma
Zhang X
Chinese Journal of Ophthalmology 2015; 51: 86-88 (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Demircan S
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
Nongpiur ME
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Vaziri K
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
Lamparter J
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60819 Is increased choroidal thickness a risk factor for primary angle-closure glaucoma
Huang W
Chinese Journal of Ophthalmology 2015; 51: 86-88 (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Schwartz SG
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60114 Choroid thickness and ocular pulse amplitude in migraine during attack
Totan Y
Eye 2015; 29: 371-375 (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
Schulze A
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Wang W
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Ataş M
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
Foo V
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
Riedel J
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Kishor KS
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60114 Choroid thickness and ocular pulse amplitude in migraine during attack
Gençler OS
Eye 2015; 29: 371-375 (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Arık Yüksel S
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Zhou M
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
De Leon JM; Baskaran M
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Ulusoy MD
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Fortun JA
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
Wasielica-Poslednik J
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Huang W
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
Tun TA
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Chen S
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Yuvacı İ
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
König J
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Moshfeghi DM
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Arifoğlu HB
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Li X
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
Husain R
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Moshfeghi AA
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
Pfeiffer N
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Gao X
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


60805 Peripapillary Choroidal Thickness and Choroidal Area in Glaucoma, Ocular Hypertension and Healthy Subjects by SD-OCT
Hoffmann EM
Klinische Monatsblätter für Augenheilkunde 2015; 232: 390-394 (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Başkan B
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60804 Incidence of postoperative suprachoroidal hemorrhage after glaucoma filtration surgeries in the United States
Flynn HW
Clinical Ophthalmology 2015; 9: 579-584 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
Perera SA
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60634 The impact of migraine on posterior ocular structures
Zararsız G
Journal of Ophthalmology 2015; 2015: 868967 (IGR: 16-4)


60601 Evaluation of choroidal thickness, intraocular pressure and serum osmolality after the water drinking test in eyes with primary angle-closure
Aung T
Investigative Ophthalmology and Visual Science 2015; 0: (IGR: 16-4)


60194 Enhanced depth imaging-optical coherence tomography of the choroid in moderate and severe primary angle-closure glaucoma
Wang J; Du S; Zhang X
Acta Ophthalmologica 2015; 93: e349-e355 (IGR: 16-4)


59099 Longitudinal Changes in Peripapillary Atrophy in the Ocular Hypertension Treatment Study: A Case-Control Assessment
Savatovsky E; Mwanza JC; Budenz DL; Feuer WJ; Vandenbroucke R; Schiffman JC; Anderson DR;
Ophthalmology 2015; 122: 79-86 (IGR: 16-3)


59015 Choroidal thickness and primary open-angle glaucoma: a cross-sectional study and meta-analysis
Wang W; Zhang X
Investigative Ophthalmology and Visual Science 2014; 55: 6007-6014 (IGR: 16-3)


59304 Assessment of choroidal thickness in healthy and glaucomatous eyes using swept source optical coherence tomography
Zhang C; Tatham AJ; Medeiros FA; Zangwill LM; Yang Z; Weinreb RN
PLoS ONE 2014; 9: e109683 (IGR: 16-3)


59215 Is There Any Role for the Choroid in Glaucoma?
Goharian I; Sehi M
Journal of Glaucoma 2016; 25: 452-458 (IGR: 16-3)


59547 Choroidal Thickness in Open-angle Glaucoma
Jonas JB; Steinmetz P; Forster TM; Schlichtenbrede FC; Harder BC
Journal of Glaucoma 2015; 24: 619-623 (IGR: 16-3)


59106 Subfoveal choroidal thickness and glaucoma. The Beijing Eye Study 2011
Wang YX; Xu L; Shao L; Zhang YQ; Yang H; Da Wang J; Jonas JB; Wei WB
PLoS ONE 2014; 9: e107321 (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)


59397 Ultrasound Biomicroscopic Evaluation of Uveal Effusion in Acute Primary Angle Closure
You YA; Zhu LR; Wen JQ; Liu YH
Journal of Glaucoma 2015; 24: 656-661 (IGR: 16-3)


58943 Evaluation of the Macular Choroidal Thickness Using Spectral Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Bayhan HA; Aslan Bayhan S; Can I
Journal of Glaucoma 2016; 25: 184-187 (IGR: 16-3)


57320 Relationship between the lamina cribrosa, outer retina, and choroidal thickness as assessed using spectral domain optical coherence tomography
Chung HS; Sung KR; Lee KS; Lee JR; Kim S
Korean Journal of Ophthalmology 2014; 28: 234-240 (IGR: 16-2)


57430 Anatomic and physiologic rationale to be applied in accessing the suprachoroidal space for management of glaucoma
Patrianakos TD
Journal of Cataract and Refractive Surgery 2014; 40: 1285-1290 (IGR: 16-2)


57516 Assessment of β-zone peripapillary atrophy by optical coherence tomography and scanning laser ophthalmoscopy imaging in glaucoma patients
Seidensticker F; Reznicek L; Mann T; Hübert I; Kampik A; Ulbig M; Hirneiss C; Neubauer AS; Kernt M
Clinical Ophthalmology 2014; 8: 1233-1239 (IGR: 16-2)


57341 Optic nerve head and peripapillary morphometrics in myopic glaucoma
Lee S; Han SX; Young M; Beg MF; Sarunic MV; Mackenzie PJ
Investigative Ophthalmology and Visual Science 2014; 55: 4378-4393 (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)


56960 Changes in choroidal thickness after trabeculectomy in primary angle closure glaucoma
Chen S; Wang W; Gao X; Li Z; Huang W; Li X; Zhou M; Zhang X
Investigative Ophthalmology and Visual Science 2014; 55: 2608-2613 (IGR: 16-2)


56984 Is increased choroidal thickness association with primary angle closure?
Zhou M; Wang W; Huang W; Gao X; Li Z; Li X; Zhang X
Acta Ophthalmologica 2014; 92: e514-e520 (IGR: 16-2)


57069 Peripapillary Retinal Nerve Fiber Layer Changes in Asymptomatic Essential Thrombocythemia Patients
Ayintap E; Cetin G; Sadigov F; Artunay O; Akkan JC; Koytak IA; Tuncer K
Current Eye Research 2014; 39: 1216-1220 (IGR: 16-2)


56520 Analysis of macular and peripapillary choroidal thickness in glaucoma patients by enhanced depth imaging optical coherence tomography
Park HY; Lee NY; Shin HY; Park CK
Journal of Glaucoma 2014; 23: 225-231 (IGR: 16-1)


56348 Microstructure of β-Zone Parapapillary Atrophy and Rate of Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Kim YW; Lee EJ; Kim TW; Kim M; Kim H
Ophthalmology 2014; 121: 1341-1349 (IGR: 16-1)


56385 Variation of the axial location of Bruch's membrane opening with age, choroidal thickness, and race
Johnstone J; Fazio M; Rojananuangnit K; Smith B; Clark M; Downs C; Owsley C; Girard MJ; Mari JM; Girkin CA
Investigative Ophthalmology and Visual Science 2014; 55: 2004-2009 (IGR: 16-1)


56291 Evaluation of retinal and choroidal thickness by swept-source optical coherence tomography: repeatability and assessment of artifacts
Mansouri K; Medeiros FA; Tatham AJ; Marchase N; Weinreb RN
American Journal of Ophthalmology 2014; 157: 1022-1032 (IGR: 16-1)


56414 Bruch's membrane thickness in high myopia
Jonas JB; Holbach L; Panda-Jonas S
Acta Ophthalmologica 2014; 92: e470-e474 (IGR: 16-1)


56541 Choroidal schwannoma in a 6-month-old girl
Chen JJ; Kamberos NL; O'Dorisio MS; Syed NA; Boldt C
Journal of AAPOS 2014; 18: 197-199 (IGR: 16-1)


56651 Uveal schwannoma mimicking melanoma (case report)

Vestnik Oftalmologii 2014; 130: 50-53 (IGR: 16-1)


56437 Change in choroidal thickness and axial length with change in intraocular pressure after trabeculectomy
Saeedi O; Pillar A; Jefferys J; Arora K; Friedman D; Quigley H
British Journal of Ophthalmology 2014; 98: 976-979 (IGR: 16-1)


56388 Visual restoration after suprachoroidal haemorrhage in glaucoma surgery
Rao A
British Medical Journal (Clinical Research Edition) Case Reports 2014; 2014: (IGR: 16-1)


55210 Comparison of enhanced depth imaging and high-penetration optical coherence tomography for imaging deep optic nerve head and parapapillary structures
Miki A; Ikuno Y; Jo Y; Nishida K
Clinical Ophthalmology 2013; 7: 1995-2001 (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)


55304 Choroidal thickness in the subtypes of angle closure: an EDI-OCT study
Huang W; Wang W; Gao X; Li X; Li Z; Zhou M; Chen S; Zhang X
Investigative Ophthalmology and Visual Science 2013; 54: 7849-7853 (IGR: 15-4)


54392 Increased choroidal thickness in patients with Sturge-Weber syndrome
Arora KS; Quigley HA; Comi AM; Miller RB; Jampel HD
JAMA ophthalmology 2013; 131: 1216-1219 (IGR: 15-3)


54682 Peripapillary choroidal thickness in both eyes of glaucoma patients with unilateral visual field loss
Li L; Bian A; Zhou Q; Mao J
American Journal of Ophthalmology 2013; 156: 1277-1284 (IGR: 15-3)


54700 Assessment of Choroidal Thickness and Volume during the Water Drinking Test by Swept-Source Optical Coherence Tomography
Mansouri K; Medeiros FA; Marchase N; Tatham AJ; Auerbach D; Weinreb RN
Ophthalmology 2013; 120: 2508-2516 (IGR: 15-3)


54864 Hemorrhagic choroidal detachment after use of anti-glaucomatous eye drops: case report
Coban DT; Erol MK; Yucel O
Arquivos Brasileiros de Oftalmologia 2013; 76: 309-310 (IGR: 15-3)


54481 Risk factors for choroidal detachment after trabeculectomy with mitomycin C
Haga A; Inatani M; Shobayashi K; Kojima S; Inoue T; Tanihara H
Clinical Ophthalmology 2013; 7: 1417-1421 (IGR: 15-3)


53729 Differentiation of Parapapillary Atrophy Using Spectral-Domain Optical Coherence Tomography
Kim M; Kim TW; Weinreb RN; Lee EJ
Ophthalmology 2013; 120: 1790-1797 (IGR: 15-2)


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)


53997 Changes in axial length and choroidal thickness after intraocular pressure reduction resulting from trabeculectomy
Usui S; Ikuno Y; Uematsu S; Morimoto Y; Yasuno Y; Otori Y
Clinical Ophthalmology 2013; 7: 1155-1161 (IGR: 15-2)


52733 Choroidal thickness in fellow eyes of patients with acute primary angle-closure measured by enhanced depth imaging spectral-domain optical coherence tomography
Zhou M; Wang W; Ding X; Huang W; Chen S; Laties AM; Zhang X
Investigative Ophthalmology and Visual Science 2013; 54: 1971-1978 (IGR: 15-1)


52554 Peripapillary choroidal thickness in primary open angle glaucoma and normal subjects measured by enhanced depth imaging optical coherence tomography
Li L; Mao J; Bian AL
Chinese Journal of Ophthalmology 2013; 49: 116-121 (IGR: 15-1)


52582 The choroid in glaucoma
Banitt M
Current Opinions in Ophthalmology 2013; 24: 125-129 (IGR: 15-1)


52446 Semiautomated quantification of β-zone parapapillary atrophy using blue light fundus autofluorescence
Mansouri K; Tung JD; Medeiros FA; Tafreshi A; Dorairaj S; Zangwill L; He F; Jain S; Weinreb RN
Acta Ophthalmologica 2013; 91: e379-e385 (IGR: 15-1)


52740 Microstructure of parapapillary atrophy: beta zone and gamma zone
Dai Y; Jonas JB; Huang H; Wang M; Sun X
Investigative Ophthalmology and Visual Science 2013; 54: 2013-2018 (IGR: 15-1)


52433 Optical Coherence Tomography Study of Peripapillary Retinal Nerve Fiber Layer and Choroidal Thickness in Eyes With Tilted Optic Disc
Brito PN; Vieira MP; Falcão MS; Faria OS; Falcão-Reis F
Journal of Glaucoma 2015; 24: 45-50 (IGR: 15-1)


52701 Postoperative suprachoroidal hemorrhage in a glaucoma patient on low molecular weight heparin
Alharkan DH; Aljadaan IA
Middle East African Journal of Ophthalmology 2013; 20: 179-181 (IGR: 15-1)


51805 The choroid is thicker in angle closure than in open angle and control eyes
Arora KS; Maul EA; Quigley HA
Investigative Ophthalmology and Visual Science 2012; 53: 7813-7818 (IGR: 14-4)


51740 Parapapillary atrophy: histological gamma zone and delta zone
Jonas JB; Jonas SB; Jonas RA; Holbach L; Dai Y; Sun X; Panda-Jonas S
PLoS ONE 2012; 7: e47237 (IGR: 14-4)


51898 Topographic Correlation between β-Zone Parapapillary Atrophy and Retinal Nerve Fiber Layer Defect
Cho BJ; Park KH
Ophthalmology 2013; 120: 528-534 (IGR: 14-4)


52009 Effect of pupil dilation on macular choroidal thickness measured with spectral domain optical coherence tomography in normal and glaucomatous eyes
Mwanza JC; Sayyad FE; Banitt MR; Budenz DL
International Ophthalmology 2013; 33: 335-341 (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)


51287 Peripapillary atrophy detection by sparse biologically inspired feature manifold
Cheng J; Tao D; Liu J; Wong DW; Tan NM; Wong TY; Saw SM
IEEE Transactions on Medical Imaging 2012; 31: 2355-2365 (IGR: 14-3)


51224 Choroidal thickness in unilateral advanced glaucoma
Mwanza JC; Sayyad FE; Budenz DL
Investigative Ophthalmology and Visual Science 2012; 53: 6695-6701 (IGR: 14-3)


51077 Macular and peripapillary choroidal thickness in diabetic patients
Vujosevic S; Martini F; Cavarzeran F; Pilotto E; Midena E
Retina (Philadelphia, Pa.) 2012; 32: 1781-1790 (IGR: 14-3)


50838 The effects of peripapillary atrophy on the diagnostic ability of Stratus and Cirrus OCT in the analysis of optic nerve head parameters and disc size
Kim SY; Park HY; Park CK
Investigative Ophthalmology and Visual Science 2012; 53: 4475-4484 (IGR: 14-3)


51157 Choroidal thickness change after water drinking is greater in angle closure than in open angle eyes
Arora KS; Maul EA; Quigley HA
Investigative Ophthalmology and Visual Science 2012; 53: 6393-6402 (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)


50384 Five-year follow-up of parapapillary atrophy: the Beijing Eye Study
Guo Y; Wang YX; Xu L; Jonas JB
PLoS ONE 2012; 7: e32005 (IGR: 14-2)


50443 Parapapillary atrophy in patients with intracranial tumours
Wang YX; Xu L; Lu W; Liu FJ; Qu YZ; Wang J; Jonas JB
Acta Ophthalmologica 2013; 91: 521-525 (IGR: 14-2)


50197 Choroidal thickness in open-angle glaucoma measured by spectral-domain scanning laser ophthalmoscopy/optical coherence tomography
Cennamo G; Finelli M; Iaccarino G; de Crecchio G
Ophthalmologica 2012; 228: 47-52 (IGR: 14-2)


50203 Peripapillary Choroidal Thickness in Healthy Controls and Patients With Focal, Diffuse, and Sclerotic Glaucomatous Optic Disc Damage
Roberts KF; Artes PH; O'Leary N; Reis AS; Sharpe GP; Hutchison DM; Chauhan BC; Nicolela MT
Archives of Ophthalmology 2012; 130: 980-986 (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)


48873 SEGREGATION OF OPHTHALMOSCOPIC CHARACTERISTICS ACCORDING TO CHOROIDAL THICKNESS IN PATIENTS WITH EARLY AGE-RELATED MACULAR DEGENERATION
Switzer DW; Mendonç,a LS; Saito M; Zweifel SA; Spaide RF
Retina (Philadelphia, Pa.) 2012; 32: 1265-1271 (IGR: 14-1)


48662 Microanatomy of the anterior uveoscleral outflow pathway in normal and primary open-angle glaucomatous dogs
Samuelson D; Streit A
Veterinary Ophthalmology 2012; 15: 47-53 (IGR: 14-1)


49026 Spectral-domain optical coherence tomography of β-zone peripapillary atrophy: influence of myopia and glaucoma
Hayashi K; Tomidokoro A; Lee KY; Konno S; Saito H; Mayama C; Aihara M; Iwase A; Araie M
Investigative Ophthalmology and Visual Science 2012; 53: 1499-1505 (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)


47955 (beta)-Zone parapapillary atrophy and the rate of retinal nerve fiber layer thinning in glaucoma
Lee EJ; Kim TW; Weinreb RN; Park KH; Kim SH; Kim DM
Investigative ophthalmology & visual science 2011; 52: 4422-4427 (IGR: 13-4)


48255 The Region of Largest ?-Zone Parapapillary Atrophy Area Predicts the Location of Most Rapid Visual Field Progression
Teng CC; De Moraes CG; Prata TS; Liebmann CA; Tello C; Ritch R; Liebmann JM
Ophthalmology 2011; 118: 2409-2413 (IGR: 13-4)


48313 Analysis of normal peripapillary choroidal thickness via spectral domain optical coherence tomography
Ho J; Branchini L; Regatieri C; Krishnan C; Fujimoto JG; Duker JS
Ophthalmology 2011; 118: 2001-2007 (IGR: 13-4)


46455 Histology of the Parapapillary Region in High Myopia
Jonas JB; Jonas SB; Jonas RA; Holbach L; Panda-Jonas S
American Journal of Ophthalmology 2011; (IGR: 13-3)


46636 Choroidal thickness measured by spectral domain optical coherence tomography: Factors affecting thickness in glaucoma patients
Maul EA; Friedman DS; Chang DS; Boland MV; Ramulu PY; Jampel HD; Quigley HA
Ophthalmology 2011; 118: 1571-1579 (IGR: 13-3)


46521 Beta-zone parapapillary atrophy and multifocal visual evoked potentials in eyes with glaucomatous optic neuropathy
De Moraes CG; Ketner S; Teng CC; Ehrlich JR; Raza AS; Liebmann JM; Ritch R; Hood DC
Documenta Ophthalmologica 2011; 123: 43-50 (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)


46644 The Region of Largest (beta)-Zone Parapapillary Atrophy Area Predicts the Location of Most Rapid Visual Field Progression
Teng CC; De Moraes CG; Prata TS; Liebmann CA; Tello C; Ritch R; Liebmann JM
Ophthalmology 2011; (IGR: 13-3)


45451 Human Chorioretinal Layer Thicknesses Measured in Macula-wide, High-Resolution Histologic Sections
Curcio CA; Messinger JD; Sloan KR; Mitra A; McGwin G; Spaide RF
Investigative Ophthalmology and Visual Science 2011; 52: 3943-3954 (IGR: 13-2)


45949 Characterization of peripapillary atrophy using spectral domain optical coherence tomography
Na JH; Moon BG; Sung KR; Lee Y; Kook MS
Korean Journal of Ophthalmology 2010; 24: 353-359 (IGR: 13-2)


46306 Measurement of subfoveal choroidal thickness using spectral domain optical coherence tomography
McCourt EA; Cadena BC; Barnett CJ; Ciardella AP; Mandava N; Kahook MY
Ophthalmic surgery, lasers & imaging : the official journal of the International Society for Imaging in the Eye 2010; 41: 28-33 (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)


27868 Peripapillary choroidal thickness in glaucoma measured with optical coherence tomography
Ehrlich JR; Peterson J; Parlitsis G; Kay KY; Kiss S; Radcliffe NM
Experimental Eye Research 2011; 92: 189-194 (IGR: 13-1)


27665 Analysis of peripapillary atrophy using spectral domain optical coherence tomography
Manjunath V; Shah H; Fujimoto JG; Duker JS
Ophthalmology 2011; 118: 531-536 (IGR: 13-1)


27486 The role of clinical parapapillary atrophy evaluation in the diagnosis of open angle glaucoma
Ehrlich JR; Radcliffe NM
Clinical Ophthalmology 2010; 4: 971-976 (IGR: 12-4)


27019 In-Vivo Microstructural Anatomy of {beta}-Zone Parapapillary Atrophy in Glaucoma.
Park SC; De Moraes CG; Tello C; Liebmann JM; Ritch R
Investigative Ophthalmology and Visual Science 2010; 51: 6408-6413 (IGR: 12-4)


26965 Three-dimensional 1060-nm OCT: choroidal thickness maps in normal subjects and improved posterior segment visualization in cataract patients.
Esmaeelpour M; Povazay B; Hermann B; Hofer B; Kajic V; Kapoor K; Sheen NJ; North RV; Drexler W
Investigative Ophthalmology and Visual Science 2010; 51: 5260-5266 (IGR: 12-4)


26574 Comparing the detection and agreement of parapapillary atrophy progression using digital optic disk photographs and alternation flicker
Vanderbeek BL; Smith SD; Radcliffe NM
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1313-1317 (IGR: 12-3)


26392 Choroidal thickness in normal eyes measured using Cirrus HD optical coherence tomography
Manjunath V; Taha M; Fujimoto JG; Duker JS
American Journal of Ophthalmology 2010; 150: 325-329 (IGR: 12-3)


26147 Choroidal thickness in healthy Japanese subjects
Ikuno Y; Kawaguchi K; Nouchi T; Yasuno Y
Investigative Ophthalmology and Visual Science 2010; 51: 2173-2176 (IGR: 12-2)


26149 Beta-Zone parapapillary atrophy and the velocity of glaucoma progression
Teng CC; De Moraes CG; Prata TS; Tello C; Ritch R; Liebmann JM
Ophthalmology 2010; 117: 909-915 (IGR: 12-2)


26044 Comparison on the prevalence of peripapillary atrophy(beta)zone in normal persons and primary open angle glaucoma and primary angle-closure glaucoma
Wang H; Zhu Q; Zhang J-S
International Journal of Ophthalmology 2010; 10: 469-471 (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)


25037 Cross-sectional anatomic configurations of peripapillary atrophy evaluated with spectral domain-optical coherence tomography
Lee KY; Tomidokoro A; Sakata R; Konno S; Mayama C; Saito H; Hayashi K; Iwase A; Araie M
Investigative Ophthalmology and Visual Science 2010; 51: 666-671 (IGR: 12-1)


23749 A pilot study of enhanced depth imaging optical coherence tomography of the choroid in normal eyes
Margolis R; Spaide RF
American Journal of Ophthalmology 2009; 147: 811-815 (IGR: 11-2)


23865 Cellular and molecular origin of circumpapillary dysgenesis of the pigment epithelium
Tosi J; Janisch KM; Wang NK; Kasanuki JM; Flynn JT; Lin CS; Tsang SH
Ophthalmology 2009; 116: 971-980 (IGR: 11-2)


23871 Rates of neuroretinal rim and peripapillary atrophy area change: a comparative study of glaucoma patients and normal controls
See JL; Nicolela MT; Chauhan BC
Ophthalmology 2009; 116: 840-847 (IGR: 11-2)


23963 Wide-field optical coherence tomography of the choroid in vivo
Povazay B; Hermann B; Hofer B; Kaji? V; Simpson E; Bridgford T; Drexler W
Investigative Ophthalmology and Visual Science 2009; 50: 1856-1863 (IGR: 11-2)


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)


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)


20318 Peripapillary atrophy in elderly Chinese in rural and urban Beijing
Wang Y; Xu L; Zhang L; Yang H; Ma Y; Jonas JB
Eye 2008; 22: 261-266 (IGR: 10-1)


20382 Performance of GDx VCC in eyes with peripapillary atrophy: comparison of three circle sizes
Kunimatsu S; Tomidokoro A; Saito H; Aihara M; Tomita G; Araie M
Eye 2008; 22: 173-178 (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)


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)


19904 Differences in parapapillary atrophy between glaucomatous and normal eyes: The Beijing Eye Study
Xu L; Wang Y; Yang H; Jonas JB
American Journal of Ophthalmology 2007; 144: 541-546 (IGR: 9-4)


19519 Peripapillary atrophy after acute primary angle closure
Lee KY; Rensch F; Aung T; Lim LS; Husain R; Gazzard G; Seah SK; Jonas JB
British Journal of Ophthalmology 2007; 91: 1059-1061 (IGR: 9-3)


18229 Uveal effusion syndrome in nanophthalmic eye after trabeculectomy
Bluwol E; Nordmann JP
Journal Français d'Ophtalmologie 2007; 30: e13 (IGR: 9-2)


18175 The inheritance of peripapillary atrophy
Healey PR; Mitchell P; Gilbert CE; Lee AJ; Ge D; Snieder H; Spector TD; Hammond CJ
Investigative Ophthalmology and Visual Science 2007; 48: 2529-2534 (IGR: 9-2)


17980 Peripapillary atrophies in primary open-angle glaucoma and glaucoma-like normal disks
Pan YZ; Ren ZQ; Li M; Qiao RH
Chinese Journal of Ophthalmology 2006; 42: 1078-1083 (IGR: 9-2)


17550 Relationship of changes in visual functions and optic disk in patients with glaucoma concurrent with myopia
Makashova NV; Eliseeva EG
Vestnik Oftalmologii 2007; 123: 9-12 (IGR: 9-2)


16973 Measurement of autofluorescence in the parapapillary atrophic zone in patients with ocular hypertension
Laemmer R; Horn FK; Viestenz A; Link B; Juenemann AG; Mardin CY
Graefe's Archive for Clinical and Experimental Ophthalmology 2007; 245: 51-58 (IGR: 9-1)


17068 Indocyanine green and fluorescein angiography study of glaucomatous peripapillary atrophy
Wu L-L; Chen W; Chen Z-Q; Yin J-F; Zhou H; Liu J; Su Z-A
Chinese Journal of Ophthalmology 2006; 42: 967-971 (IGR: 9-1)


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)


14326 The relationship between peripapillary choroidal atrophy and visual field defects in open angle glaucoma
Duan X; Wang M; Jiang Y; Jiang B; Shi J; Tang C
Eye Science 2006; 22: 71-75 (IGR: 8-3)


14184 The influence on the static visual field of peripapillary chorioretinal atrophy - relation to axial length
Nitta K; Saito Y; Sugiyama K
Nippon Ganka Gakkai Zasshi 2006; 110: 257-262 (IGR: 8-3)


13754 Choroidal innervation and optic neuropathy in macacque monkeys with laser- or anterior chamber perfusion-induced short-term elevation of intraocular pressure
Albrecht May C; Kaufman PL; Lutjen-Drecoll E; Scholz M
Experimental Eye Research 2006; 82: 1060-1067 (IGR: 8-2)


11821 Clinical implications of peripapillary atrophy in glaucoma
Jonas JB
Current Opinions in Ophthalmology 2005; 16: 84-88 (IGR: 7-1)


11818 Central corneal thickness correlated with glaucoma damage and rate of progression
Jonas JB; Stroux A; Velten I; Juenemann A; Martus P; Budde WM
Investigative Ophthalmology and Visual Science 2005; 46: 1269-1274 (IGR: 7-1)


11824 Epidemiology of the optic nerve grey crescent in the Reykjavik Eye Study
Jonsson O; Damji KF; Jonasson F; Arnarsson A; Eysteinsson T; Sasaki H; Sasaki K
British Journal of Ophthalmology 2005; 89: 36-39 (IGR: 7-1)


11274 Choroidal ganglion cell changes in human glaucomatous eyes
May CA; Lutjen-Drecoll E
Journal of Glaucoma 2004; 13: 389-395 (IGR: 6-3)


10237 Correlation between a disc hemorrhage and peripapillary atrophy in glaucoma patients with a unilateral disc hemorrhage
Ahn JK; Kang JH; Park KH
Journal of Glaucoma 2004; 13: 9-14 (IGR: 6-1)


10235 Enlargement of parapapillary atrophy in follow-up of chronic open-angle glaucoma
Budde WM; Jonas JB
American Journal of Ophthalmology 2004; 137: 646-654 (IGR: 6-1)


10236 Immunohistochemical classification and functional morphology of human choroidal ganglion cells
May CA; Neuhuber W; Lutjen-Drecoll E
Investigative Ophthalmology and Visual Science 2004; 45: 361-367 (IGR: 6-1)


9685 Localization of preganglionic neurons that innervate choroidal neurons of pterygopalatine ganglion
Cuthbertson S; LeDoux MS; Jones S; Jones J; Zhou Q; Gong S; Ryan P; Reiner A
Investigative Ophthalmology and Visual Science 2003; 44: 3713-3724 (IGR: 5-3)


8871 Macrophages and MHC class II positive dendritiform cells in the iris and choroid of the pig
Chen L; Zwart R; Yang P; Kijlstra A
Current Eye Research 2003; 26: 291-296 (IGR: 5-2)


9077 In-vivo measurement of autofluorescence in the parapapillary atrophic zone of optic discs with and without glaucomatous atrophy
Viestenz A; Mardin CY; Langenbucher A; Naumann GOH
Klinische Monatsblätter für Augenheilkunde 2003; 545-550 (IGR: 5-2)


8389 Influence of cilioretinal arteries on neuroretinal rim and parapapillary atrophy in glaucoma
Budde WM; Jonas JB
Investigative Ophthalmology and Visual Science 2003; 44: 170-174 (IGR: 5-1)


8830 Distribution and organization of the nerve fiber and ganglion cells of the human choroids
Trivino A; de Hoz R; Salazar JJ; Ramirez AI; Rojas B; Ramirez JM
Anatomical Embryology (Berlin) 2002; 205: 417-430 (IGR: 5-1)


8861 Peripapillary microvascular study of human eyes with primary open-angle glaucoma
Zhao DY
Annals of ophthalmology (Skokie, Ill.) 2002; 34: 215-221 (IGR: 5-1)


8183 Visual field loss in patients with glaucoma who have asymmetric peripapillary focal arteriolar narrowing
Lam A; Bunya V; Piltz-Seymour JR
Archives of Ophthalmology 2000; 120: 1494-7 (IGR: 4-3)


3410 Differences in peripapillary atrophy between eyes with and without myopia-shaped disc in normal-tension glaucoma
Arakawa T; Tomita G; Kunimatsu S; Suzuki Y; Araie M; Kun Jin Y
Japanese Journal of Clinical Ophthalmology 2002; 56: 743-746 (IGR: 4-2)


3411 Immunohistochemical staining and morphometric analysis of the monkey choroidal vasculature
Otsuji T; McLeod DS; Hansen B; Lutty G
Experimental Eye Research 2002; 75: 201-208 (IGR: 4-2)


6632 Imaging of the optic disc and retinal nerve fiber layer: the effects of age, optic disc area, refractive error, and gender
Bowd C; Zangwill LM; Blumenthal EZ; Vasile C; Boehm AG; Gokhale PA; Mohammadi K; Amini P; Sankary TM; Weinreb RN
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2002; 19: 197-207 (IGR: 4-1)


6633 Morphometric changes of the choriocapillaris and the choroidal vasculature in eyes with advanced glaucomatous changes
Spraul CW; Lang GE; Lang GK; Grossniklaus HE
Vision Research 2002; 42: 923-932 (IGR: 4-1)


18502 Microvascular architecture of the rat choroid: corrosion cast study
Bhutto IA; Amemiya T
Anatomical Record 2001; 264: 63-71 (IGR: 3-3)


6333 Central retinal vessel trunk exit and location of glaucomatous parapapillary atrophy in glaucoma
Jonas JB; Budde WM; Németh J; Gründler AE; Mistlberger A; Hayler JK
Ophthalmology 2001; 108: 1059-1064 (IGR: 3-2)


6334 Microvasculature of the rat eye: scanning electron microscopy of vascular corrosion casts
Ninomiya H; Kuno H
Veterinary Ophthalmology 2001; 4: 55-59 (IGR: 3-2)


18949 Ability of peripapillary atrophy parameters to differentiate normal-tension glaucoma from glaucomalike disk
Park KH; Park SJ; Yong Jae Lee; Jai Yong Kim; Caprioli J
Journal of Glaucoma 2001; 10: 95-101 (IGR: 3-1)


5993 The peripapillary glia of the optic nerve head in the chicken retina
Schuck J; Gerhardt H; Wolburg H
Anatomical Record 2000; 259: 263-275 (IGR: 2-2)


5994 Concordance of parapapillary chorioretinal atrophy in ocular hypertension with visual field defects that accompany glaucoma development
Tezel G; Dorr D; Kolker AE; Wax MB; Kass MA
Ophthalmology 2000; 107: 1194-1199 (IGR: 2-2)


5594 Peripapillary chorioretinal atrophy: Bruch's membrane changes and photoreceptor loss
Curcio CA; Saunders PL; Younger PW; Malek G
Ophthalmology 2000; 107:334-343 (IGR: 2-1)


15358 Parapapillary atrophy in patients with focal visual field loss
Emdadi A; Kono Y; Sample PA; Maskaleris G; Weinreb RN
American Journal of Ophthalmology 1999; 128: 595-600 (IGR: 1-3)


15359 Optic nerve and peripapillary choroidal microvasculature of the rat eye
Sugiyama K; Gu Z-B; Kawase C; Yamamoto T; Kitazawa Y
Investigative Ophthalmology and Visual Science 1999; 40: 3084-3090 (IGR: 1-3)


5198 Austritt des retinalen Zentralgefässstammes und Ausprägung der parapapillären Atrophie(Position of the central vessel trunk and parapapillary atrophy)
Budde WM; Jonas JB; Németh J; Gründler AE
Klinische Monatsblätter für Augenheilkunde 1999; 214: 300-301 (IGR: 1-2)


5199 Relationship between parapapillary atrophy and visual field abnormality in primary open-angle glaucoma.
Kono Y; Zangwill L; Sample PA; Jonas JB; Emdadi A; Gupta N; Weinreb RN
American Journal of Ophthalmology 1999; 127: 674-680 (IGR: 1-2)


5200 Microglia in the optic nerve head and the region of parapapillary chorioretinal atrophy in glaucoma
Neufeld AH
Archives of Ophthalmology 1999; 117: 1050-1056 (IGR: 1-2)


5201 Determinants of optic disc characteristics in a general population: The Rotterdam Study
Ramrattan RS; Wolfs RC; Jonas JB; Hofman A; De Jong PT
Ophthalmology 1999; 106: 1588-1596 (IGR: 1-2)


5202 Stereometry of temporal peripapillary atrophy in early-stage open-angle glaucoma
Yoshikawa K; Wakamatsu Y; Ishibashi Y
Nippon Ganka Gakkai Zasshi 1999; 103: 538-543 (IGR: 1-2)



6.9.2.2 Posterior (8533 abstracts found)


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; 0: (IGR: 22-1)


92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Sawada Y
Scientific reports 2021; 11: 4176 (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Hashimoto Y
British Journal of Ophthalmology 2021; 105: 507-513 (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)


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)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Ratanawongphaibul K
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
WuDunn D
Ophthalmology 2021; 0: (IGR: 22-1)


92054 Use of computerized campimetry and/or optical coherence tomography for glaucoma diagnosis by non-glaucoma specialists
Franco CGVS
Arquivos Brasileiros de Oftalmologia 2021; 84: 113-120 (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Demirtaş AA
International Ophthalmology 2021; 41: 2249-2263 (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Liu Z
Investigative Ophthalmology and Visual Science 2021; 62: 34 (IGR: 22-1)


92661 Explainable Machine Learning Model for Glaucoma Diagnosis and Its Interpretation
Oh S
Diagnostics (Basel, Switzerland) 2021; 11: (IGR: 22-1)


92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Idriss BR
Journal of Glaucoma 2021; 30: e90-e98 (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)


92829 Did the OCT Show Progression Since the Last Visit?
Hood DC
Journal of Glaucoma 2021; 30: e134-e145 (IGR: 22-1)


92726 Use of the new MultiColour SPECTRALIS® software for identifying retinal nerve fibre layer defects
Fuentemilla E
Archivos de la Sociedad Espanola de Oftalmologia 2021; 96: 210-213 (IGR: 22-1)


92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Bansal T
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92011 Longitudinal Macular Ganglion Cell-Inner Plexiform Layer Measurements to Detect Glaucoma Progression in High Myopia
Shin JW
American Journal of Ophthalmology 2021; 223: 9-20 (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)


92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Miraftabi A
International Ophthalmology 2021; 0: (IGR: 22-1)


92180 The Paediatric Glaucoma Diagnostic Ability of Optical Coherence Tomography: A Comparison of Macular Segmentation and Peripapillary Retinal Nerve Fibre Layer Thickness
Lever M
Biology 2021; 10: (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)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Wen Y
Translational vision science & technology 2021; 10: 26 (IGR: 22-1)


92396 Association between Topographic Features of the Retinal Nerve Fiber Bundle and Good Visual Acuity in Patients with Glaucoma
Takahashi N
Current Eye Research 2021; 0: 1-8 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Kamalipour A
Ophthalmology 2021; 0: (IGR: 22-1)


92187 Comparison of diagnostic ability of standard automated perimetry, short wavelength automated perimetry, retinal nerve fiber layer thickness analysis and ganglion cell layer thickness analysis in early detection of glaucoma
Kalyani VK
Indian Journal of Ophthalmology 2021; 69: 1108-1112 (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Mohammadzadeh V
Translational vision science & technology 2021; 10: 15 (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)


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; 0: (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; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Huo YJ
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92524 Comparison of the Humphrey Field Analyzer and Photopic Negative Response of Focal Macular Electroretinograms in the Evaluation of the Relationship Between Macula Structure and Function
Hirooka K
Frontiers in medicine 2021; 8: 649971 (IGR: 22-1)


92647 Hypotony maculopathy captured with vertical rasters on optical coherence tomography (OCT) imaging
Edwards Mayhew RG
American journal of ophthalmology case reports 2021; 22: 101076 (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Yılmaz H
Turkish journal of ophthalmology 2021; 51: 26-31 (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; 0: (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)


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)


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 2021; 0: (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Thenappan A
Optometry and Vision Science 2021; 98: 518-530 (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)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
David RCC
American Journal of Ophthalmology 2021; 229: 8-17 (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; 0: (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Aydın R
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Wong D
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


91994 Ageing and glaucoma progression of the retinal nerve fibre layer using spectral-domain optical coherence tomography analysis
Öhnell HM
Acta Ophthalmologica 2021; 99: 260-268 (IGR: 22-1)


92038 Recent developments in the use of optical coherence tomography for glaucoma
Vazquez LE
Current Opinions in Ophthalmology 2021; 32: 98-104 (IGR: 22-1)


92544 Detection of Primary Angle Closure Glaucoma Progression by Optical Coherence Tomography
Kurysheva NI
Journal of Glaucoma 2021; 30: 410-420 (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Li F
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Sayed SY
International Ophthalmology 2021; 41: 2405-2415 (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 2021; 0: (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Mehta P
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wang YM
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Shah SN
Indian Journal of Ophthalmology 2021; 69: 603-610 (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)


92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Wanichwecharungruang B
Clinical Ophthalmology 2021; 15: 697-705 (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)


92493 Cut-Off Values of Foveal Vascular Indices in Exfoliation Glaucoma
Kocatürk T
Clinical Ophthalmology 2021; 15: 1453-1462 (IGR: 22-1)


92618 Rapid initial OCT RNFL thinning is predictive of faster visual field loss during extended follow-up in glaucoma
Swaminathan SS
American Journal of Ophthalmology 2021; 229: 100-107 (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Schargus M
Biology 2021; 10: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Christopher M
Ophthalmology 2021; 0: (IGR: 22-1)


92250 Systematic and Random Mapping Errors in Structure - Function Analysis of the Macula
Montesano G
Translational vision science & technology 2021; 10: 21 (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 2021; 0: (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Demirtaş AA
International Ophthalmology 2021; 41: 2249-2263 (IGR: 22-1)


92387 Evaluation of Retinal Nerve Fiber Layer, Ganglion Cell-Inner Plexiform Layer, and Optic Nerve Head in Glaucoma Suspects With Varying Myopia
Miller GD
Journal of Glaucoma 2021; 30: e213-e221 (IGR: 22-1)


92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Kılınç Hekimsoy H
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)


92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Andrade JCF
Survey of Ophthalmology 2021; 0: (IGR: 22-1)


92364 Automatic glaucoma detection based on transfer induced attention network
Xu X
Biomedical engineering online 2021; 20: 39 (IGR: 22-1)


92846 Detection of Progressive Glaucomatous Optic Nerve Damage on Fundus Photographs with Deep Learning
Medeiros FA
Ophthalmology 2021; 128: 383-392 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Rezapour J
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Li R
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92725 A simplified combined index of structure and function for detecting and staging glaucomatous damage
Wu Z
Scientific reports 2021; 11: 3172 (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; 0: (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)


92147 Glaucoma care in Germany-Results of a survey among German ophthalmologists-Part 1: diagnostics
Wolfram C
Ophthalmologe 2021; 0: (IGR: 22-1)


92005 Macular pigment optical density change analysis in primary open-angle glaucoma and pseudoexfoliation glaucoma
Zeki Fikret C
International Ophthalmology 2021; 41: 2235-2240 (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)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Kim H
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92142 Relative micro- and macrodiscs-a challenge in optical coherence tomography-based glaucoma diagnostics?
Mardin C
Ophthalmologe 2021; 118: 608-613 (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)


92396 Association between Topographic Features of the Retinal Nerve Fiber Bundle and Good Visual Acuity in Patients with Glaucoma
Omodaka K
Current Eye Research 2021; 0: 1-8 (IGR: 22-1)


92187 Comparison of diagnostic ability of standard automated perimetry, short wavelength automated perimetry, retinal nerve fiber layer thickness analysis and ganglion cell layer thickness analysis in early detection of glaucoma
Bharucha KM
Indian Journal of Ophthalmology 2021; 69: 1108-1112 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Moghimi S
American Journal of Ophthalmology 2021; 229: 8-17 (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; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Bowd C
Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Chua J
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92524 Comparison of the Humphrey Field Analyzer and Photopic Negative Response of Focal Macular Electroretinograms in the Evaluation of the Relationship Between Macula Structure and Function
Yokoyama K
Frontiers in medicine 2021; 8: 649971 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Moghimi S
Ophthalmology 2021; 0: (IGR: 22-1)


92250 Systematic and Random Mapping Errors in Structure - Function Analysis of the Macula
Rossetti LM
Translational vision science & technology 2021; 10: 21 (IGR: 22-1)


92387 Evaluation of Retinal Nerve Fiber Layer, Ganglion Cell-Inner Plexiform Layer, and Optic Nerve Head in Glaucoma Suspects With Varying Myopia
Abu-Qamar O
Journal of Glaucoma 2021; 30: e213-e221 (IGR: 22-1)


92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Kongthaworn A
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Bowd C
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Raafat KA
International Ophthalmology 2021; 41: 2405-2415 (IGR: 22-1)


92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
David RL
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)


92725 A simplified combined index of structure and function for detecting and staging glaucomatous damage
Medeiros FA
Scientific reports 2021; 11: 3172 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Tsamis E
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Vieira R
Clinical Ophthalmology 2021; 15: 1061-1071 (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)


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)


92005 Macular pigment optical density change analysis in primary open-angle glaucoma and pseudoexfoliation glaucoma
Ucgun NI
International Ophthalmology 2021; 41: 2235-2240 (IGR: 22-1)


92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Dubey S
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92544 Detection of Primary Angle Closure Glaucoma Progression by Optical Coherence Tomography
Lepeshkina LV
Journal of Glaucoma 2021; 30: 410-420 (IGR: 22-1)


92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Araie M
Scientific reports 2021; 11: 4176 (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)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Wang X
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92661 Explainable Machine Learning Model for Glaucoma Diagnosis and Its Interpretation
Park Y
Diagnostics (Basel, Switzerland) 2021; 11: (IGR: 22-1)


92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Tran TM
Journal of Glaucoma 2021; 30: e90-e98 (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)


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)


92054 Use of computerized campimetry and/or optical coherence tomography for glaucoma diagnosis by non-glaucoma specialists
Ávila MP
Arquivos Brasileiros de Oftalmologia 2021; 84: 113-120 (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)


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; 0: (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Su E
Translational vision science & technology 2021; 10: 15 (IGR: 22-1)


92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Vieira R
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)


92829 Did the OCT Show Progression Since the Last Visit?
Melchior B
Journal of Glaucoma 2021; 30: e134-e145 (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Petersen CA
American Journal of Ophthalmology 2021; 0: (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)


92618 Rapid initial OCT RNFL thinning is predictive of faster visual field loss during extended follow-up in glaucoma
Jammal AA
American Journal of Ophthalmology 2021; 229: 100-107 (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 2021; 0: (IGR: 22-1)


92180 The Paediatric Glaucoma Diagnostic Ability of Optical Coherence Tomography: A Comparison of Macular Segmentation and Peripapillary Retinal Nerve Fibre Layer Thickness
Halfwassen C
Biology 2021; 10: (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Chen Z
Translational vision science & technology 2021; 10: 26 (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Saeedi O
Investigative Ophthalmology and Visual Science 2021; 62: 34 (IGR: 22-1)


92364 Automatic glaucoma detection based on transfer induced attention network
Guan Y
Biomedical engineering online 2021; 20: 39 (IGR: 22-1)


92846 Detection of Progressive Glaucomatous Optic Nerve Damage on Fundus Photographs with Deep Learning
Jammal AA
Ophthalmology 2021; 128: 383-392 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Tsamis E
Optometry and Vision Science 2021; 98: 518-530 (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; 0: (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Karahan M
International Ophthalmology 2021; 41: 2249-2263 (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)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Takusagawa HL
Ophthalmology 2021; 0: (IGR: 22-1)


92147 Glaucoma care in Germany-Results of a survey among German ophthalmologists-Part 1: diagnostics
Schuster AK
Ophthalmologe 2021; 0: (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Köylü MT
Turkish journal of ophthalmology 2021; 51: 26-31 (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; 0: (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Asaoka R
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Şekeroğlu AM
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Lee JS
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Busch C
Biology 2021; 10: (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; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Lin F
British Journal of Ophthalmology 2021; 0: (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)


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 2021; 0: (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)


92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Shin JW
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92726 Use of the new MultiColour SPECTRALIS® software for identifying retinal nerve fibre layer defects
Bambo MP
Archivos de la Sociedad Espanola de Oftalmologia 2021; 96: 210-213 (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)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Hui VWK
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Barış M
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


91994 Ageing and glaucoma progression of the retinal nerve fibre layer using spectral-domain optical coherence tomography analysis
Heijl A
Acta Ophthalmologica 2021; 99: 260-268 (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 2021; 0: (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Tsamis E
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Tsikata E
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Guo Y
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92647 Hypotony maculopathy captured with vertical rasters on optical coherence tomography (OCT) imaging
Kahook MY
American journal of ophthalmology case reports 2021; 22: 101076 (IGR: 22-1)


92011 Longitudinal Macular Ganglion Cell-Inner Plexiform Layer Measurements to Detect Glaucoma Progression in High Myopia
Song MK
American Journal of Ophthalmology 2021; 223: 9-20 (IGR: 22-1)


92038 Recent developments in the use of optical coherence tomography for glaucoma
Bye A
Current Opinions in Ophthalmology 2021; 32: 98-104 (IGR: 22-1)


92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Kanadani FN
Survey of Ophthalmology 2021; 0: (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)


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 2021; 0: (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)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Shi J
Acta Ophthalmologica 2021; 0: (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)


92846 Detection of Progressive Glaucomatous Optic Nerve Damage on Fundus Photographs with Deep Learning
Mariottoni EB
Ophthalmology 2021; 128: 383-392 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Ekici E
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92829 Did the OCT Show Progression Since the Last Visit?
Tsamis E
Journal of Glaucoma 2021; 30: e134-e145 (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; 0: (IGR: 22-1)


91994 Ageing and glaucoma progression of the retinal nerve fibre layer using spectral-domain optical coherence tomography analysis
Bengtsson B
Acta Ophthalmologica 2021; 99: 260-268 (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Rehak M
Biology 2021; 10: (IGR: 22-1)


92180 The Paediatric Glaucoma Diagnostic Ability of Optical Coherence Tomography: A Comparison of Macular Segmentation and Peripapillary Retinal Nerve Fibre Layer Thickness
Unterlauft JD
Biology 2021; 10: (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Zuo C
Translational vision science & technology 2021; 10: 26 (IGR: 22-1)


92364 Automatic glaucoma detection based on transfer induced attention network
Li J
Biomedical engineering online 2021; 20: 39 (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 2021; 0: (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Wen JC
American Journal of Ophthalmology 2021; 0: (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; 0: (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; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Zemplenyi M
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Durmaz-Engin C
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


92038 Recent developments in the use of optical coherence tomography for glaucoma
Aref AA
Current Opinions in Ophthalmology 2021; 32: 98-104 (IGR: 22-1)


92618 Rapid initial OCT RNFL thinning is predictive of faster visual field loss during extended follow-up in glaucoma
Berchuck SI
American Journal of Ophthalmology 2021; 229: 100-107 (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Proudfoot JA
Ophthalmology 2021; 0: (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 2021; 0: (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)


92846 Detection of Progressive Glaucomatous Optic Nerve Damage on Fundus Photographs with Deep Learning
Mariottoni EB
Ophthalmology 2021; 128: 383-392 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Dohleman J
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Zemborain ZZ
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92829 Did the OCT Show Progression Since the Last Visit?
Tsamis E
Journal of Glaucoma 2021; 30: e134-e145 (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)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Sit AJ
Ophthalmology 2021; 0: (IGR: 22-1)


92387 Evaluation of Retinal Nerve Fiber Layer, Ganglion Cell-Inner Plexiform Layer, and Optic Nerve Head in Glaucoma Suspects With Varying Myopia
Salim S
Journal of Glaucoma 2021; 30: e213-e221 (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Zhang F
Investigative Ophthalmology and Visual Science 2021; 62: 34 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Hou H
Ophthalmology 2021; 0: (IGR: 22-1)


92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Atwine D
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)


92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Furlanetto RL
Survey of Ophthalmology 2021; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Gao K
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Kiwaki T
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92396 Association between Topographic Features of the Retinal Nerve Fiber Bundle and Good Visual Acuity in Patients with Glaucoma
Kikawa T
Current Eye Research 2021; 0: 1-8 (IGR: 22-1)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Wei Y
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92187 Comparison of diagnostic ability of standard automated perimetry, short wavelength automated perimetry, retinal nerve fiber layer thickness analysis and ganglion cell layer thickness analysis in early detection of glaucoma
Goyal N
Indian Journal of Ophthalmology 2021; 69: 1108-1112 (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Baskaran M
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92726 Use of the new MultiColour SPECTRALIS® software for identifying retinal nerve fibre layer defects
Cameo B
Archivos de la Sociedad Espanola de Oftalmologia 2021; 96: 210-213 (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)


92011 Longitudinal Macular Ganglion Cell-Inner Plexiform Layer Measurements to Detect Glaucoma Progression in High Myopia
Sung KR
American Journal of Ophthalmology 2021; 223: 9-20 (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Erdem S
International Ophthalmology 2021; 41: 2249-2263 (IGR: 22-1)


92250 Systematic and Random Mapping Errors in Structure - Function Analysis of the Macula
Allegrini D
Translational vision science & technology 2021; 10: 21 (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; 0: (IGR: 22-1)


92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Koçer AM
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)


92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Wagner D
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Park HM
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92661 Explainable Machine Learning Model for Glaucoma Diagnosis and Its Interpretation
Cho KJ
Diagnostics (Basel, Switzerland) 2021; 11: (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)


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)


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)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Shi Y
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92647 Hypotony maculopathy captured with vertical rasters on optical coherence tomography (OCT) imaging
Seibold LK
American journal of ophthalmology case reports 2021; 22: 101076 (IGR: 22-1)


92054 Use of computerized campimetry and/or optical coherence tomography for glaucoma diagnosis by non-glaucoma specialists
Magacho L
Arquivos Brasileiros de Oftalmologia 2021; 84: 113-120 (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)


92441 OCT Angiography Artifacts in Glaucoma
Hou H
Ophthalmology 2021; 0: (IGR: 22-1)


92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Shibata H
Scientific reports 2021; 11: 4176 (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Heydar Zadeh S
Translational vision science & technology 2021; 10: 15 (IGR: 22-1)


92829 Did the OCT Show Progression Since the Last Visit?
Tsamis E
Journal of Glaucoma 2021; 30: e134-e145 (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; 0: (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Erdem S
International Ophthalmology 2021; 41: 2249-2263 (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)


92524 Comparison of the Humphrey Field Analyzer and Photopic Negative Response of Focal Macular Electroretinograms in the Evaluation of the Relationship Between Macula Structure and Function
Tokumo K
Frontiers in medicine 2021; 8: 649971 (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Yeşiltaş YS
Turkish journal of ophthalmology 2021; 51: 26-31 (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; 0: (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)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Ahmed RA
International Ophthalmology 2021; 41: 2405-2415 (IGR: 22-1)


92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Parivadhini A
Indian Journal of Ophthalmology 2021; 69: 603-610 (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)


92618 Rapid initial OCT RNFL thinning is predictive of faster visual field loss during extended follow-up in glaucoma
Berchuck SI
American Journal of Ophthalmology 2021; 229: 100-107 (IGR: 22-1)


92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Rao HL
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Hou H
Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92726 Use of the new MultiColour SPECTRALIS® software for identifying retinal nerve fibre layer defects
Ferrandez B
Archivos de la Sociedad Espanola de Oftalmologia 2021; 96: 210-213 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
La Bruna S
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wong MOM
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92618 Rapid initial OCT RNFL thinning is predictive of faster visual field loss during extended follow-up in glaucoma
Medeiros FA
American Journal of Ophthalmology 2021; 229: 100-107 (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Aslan Kaya A
International Ophthalmology 2021; 41: 2249-2263 (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 2021; 0: (IGR: 22-1)


92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Hekimsoy V
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)


92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Lopes FS
Survey of Ophthalmology 2021; 0: (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; 0: (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)


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)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Lee H
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Al-Aswad LA
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Akıncıoğlu D
Turkish journal of ophthalmology 2021; 51: 26-31 (IGR: 22-1)


92364 Automatic glaucoma detection based on transfer induced attention network
Ma Z
Biomedical engineering online 2021; 20: 39 (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Wong MOM
Acta Ophthalmologica 2021; 0: (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)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Belghith A
Ophthalmology 2021; 0: (IGR: 22-1)


92250 Systematic and Random Mapping Errors in Structure - Function Analysis of the Macula
Romano MR
Translational vision science & technology 2021; 10: 21 (IGR: 22-1)


92180 The Paediatric Glaucoma Diagnostic Ability of Optical Coherence Tomography: A Comparison of Macular Segmentation and Peripapillary Retinal Nerve Fibre Layer Thickness
Bechrakis NE
Biology 2021; 10: (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Yang Y
Translational vision science & technology 2021; 10: 26 (IGR: 22-1)


92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Ruamviboonsuk P
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Cho H
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92279 Evaluation of peripapillary atrophy in early open-angle glaucoma using autofluorescence combined with optical coherence tomography
Allam RSHM
International Ophthalmology 2021; 41: 2405-2415 (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)


92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Won HJ
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Do JL
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Li L
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Gandhi M
Journal of Glaucoma 2021; 0: (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)


92441 OCT Angiography Artifacts in Glaucoma
Penteado RC
Ophthalmology 2021; 0: (IGR: 22-1)


92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Iwase T
Scientific reports 2021; 11: 4176 (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Sugiura H
British Journal of Ophthalmology 2021; 105: 507-513 (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)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Fang Y
BMC Ophthalmology 2021; 21: 151 (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)


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; 0: (IGR: 22-1)


92524 Comparison of the Humphrey Field Analyzer and Photopic Negative Response of Focal Macular Electroretinograms in the Evaluation of the Relationship Between Macula Structure and Function
Kiuchi Y
Frontiers in medicine 2021; 8: 649971 (IGR: 22-1)


92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Chang RT
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)


92396 Association between Topographic Features of the Retinal Nerve Fiber Bundle and Good Visual Acuity in Patients with Glaucoma
Akiba M
Current Eye Research 2021; 0: 1-8 (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Villanueva R
Investigative Ophthalmology and Visual Science 2021; 62: 34 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Belghith A
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92187 Comparison of diagnostic ability of standard automated perimetry, short wavelength automated perimetry, retinal nerve fiber layer thickness analysis and ganglion cell layer thickness analysis in early detection of glaucoma
Deshpande MM
Indian Journal of Ophthalmology 2021; 69: 1108-1112 (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Banitt MR
American Journal of Ophthalmology 2021; 0: (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)


92479 Optical Coherence Tomography Angiography Vessel Density Changes in Normal-tension Glaucoma Treated with Carteolol, Brimonidine, or Dorzolamide
Chuang LH
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92661 Explainable Machine Learning Model for Glaucoma Diagnosis and Its Interpretation
Kim SJ
Diagnostics (Basel, Switzerland) 2021; 11: (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; 0: (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Law SK
Translational vision science & technology 2021; 10: 15 (IGR: 22-1)


92829 Did the OCT Show Progression Since the Last Visit?
Liebmann JM
Journal of Glaucoma 2021; 30: e134-e145 (IGR: 22-1)


92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Lingam V
Indian Journal of Ophthalmology 2021; 69: 603-610 (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)


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)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Tan B
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Rosdahl JA
Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Meng J
Biology 2021; 10: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Cheng W
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Asanad S
Investigative Ophthalmology and Visual Science 2021; 62: 34 (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Chen PP
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Sampaio I
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Asano S
British Journal of Ophthalmology 2021; 105: 507-513 (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)


92629 Baseline Choroidal Microvasculature Dropout as a Predictor of Subsequent Visual Field Progression in Open-Angle Glaucoma
Kook MS
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Hosari S
PLoS ONE 2021; 16: e0246469 (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Yalınbaş D
Turkish journal of ophthalmology 2021; 51: 26-31 (IGR: 22-1)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Lim HW
Translational vision science & technology 2021; 10: 7 (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)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Hou H
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92111 Sub-foveal choroidal thickness in both eyes of patients with unilateral primary open-angle glaucoma and related influencing factors
Wang NL
Chinese Journal of Ophthalmology 2021; 57: 194-200 (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Schmidt M
Biology 2021; 10: (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; 0: (IGR: 22-1)


92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Ritch R
Survey of Ophthalmology 2021; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Song Y
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Asanad S
Investigative Ophthalmology and Visual Science 2021; 62: 34 (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)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Tian T
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92726 Use of the new MultiColour SPECTRALIS® software for identifying retinal nerve fibre layer defects
Güerri N
Archivos de la Sociedad Espanola de Oftalmologia 2021; 96: 210-213 (IGR: 22-1)


92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Balekudaru S
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Blumberg DM
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


92321 Long-term effects of trabeculectomy in primary open-angle glaucoma on segmented macular ganglion cell complex alterations
Keklikçi U
International Ophthalmology 2021; 41: 2249-2263 (IGR: 22-1)


92569 OCT-angiography: Regional reduced macula microcirculation in ocular hypertensive and pre-perimetric glaucoma patients
Hosari S
PLoS ONE 2021; 16: e0246469 (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 2021; 0: (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; 0: (IGR: 22-1)


92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Akdoğan A
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)


92364 Automatic glaucoma detection based on transfer induced attention network
Zhang L
Biomedical engineering online 2021; 20: 39 (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Coleman AL
Translational vision science & technology 2021; 10: 15 (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)


92396 Association between Topographic Features of the Retinal Nerve Fiber Bundle and Good Visual Acuity in Patients with Glaucoma
Nakazawa T
Current Eye Research 2021; 0: 1-8 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Proudfoot JA
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Hou H
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92829 Did the OCT Show Progression Since the Last Visit?
De Moraes CG
Journal of Glaucoma 2021; 30: e134-e145 (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Margeta MA
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Yao X
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92250 Systematic and Random Mapping Errors in Structure - Function Analysis of the Macula
Garway-Heath DF
Translational vision science & technology 2021; 10: 21 (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; 0: (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Xu J
Translational vision science & technology 2021; 10: 26 (IGR: 22-1)


92627 The Role of Multimodal Approach in the Assessment of Glaucomatous Damage in High Myopes
Sampaio I
Clinical Ophthalmology 2021; 15: 1061-1071 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Eguia M
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92591 Predictors of Peripapillary and Macular Optical Microangiography Measurements in Healthy Eyes
Pegu J
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Radhakrishnan S
Ophthalmology 2021; 0: (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Oh WH
Ophthalmology 2021; 0: (IGR: 22-1)


92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Seresirikachorn K
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)


92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Myung D
Journal of Glaucoma 2021; 30: e90-e98 (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)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Chan PP
Acta Ophthalmologica 2021; 0: (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)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Hou H
American Journal of Ophthalmology 2021; 229: 8-17 (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; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Goldbaum MH
Ophthalmology 2021; 0: (IGR: 22-1)


92180 The Paediatric Glaucoma Diagnostic Ability of Optical Coherence Tomography: A Comparison of Macular Segmentation and Peripapillary Retinal Nerve Fibre Layer Thickness
Manthey A
Biology 2021; 10: (IGR: 22-1)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Kang L
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Proudfoot JA
Ophthalmology 2021; 0: (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Christopher M
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
George RJ
Indian Journal of Ophthalmology 2021; 69: 603-610 (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)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Seong M
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Proudfoot JA
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Chan S
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Bormann C
Biology 2021; 10: (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)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Joiner D
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Bojikian KD
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Chan N
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Ondeck CL
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Rezapour J
Ophthalmology 2021; 0: (IGR: 22-1)


92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Onyango J
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Caprioli J
Translational vision science & technology 2021; 10: 15 (IGR: 22-1)


92726 Use of the new MultiColour SPECTRALIS® software for identifying retinal nerve fibre layer defects
Pablo LE
Archivos de la Sociedad Espanola de Oftalmologia 2021; 96: 210-213 (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Cioffi GA
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Prata TS
Survey of Ophthalmology 2021; 0: (IGR: 22-1)


92364 Automatic glaucoma detection based on transfer induced attention network
Li L
Biomedical engineering online 2021; 20: 39 (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; 0: (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Kong Y
Translational vision science & technology 2021; 10: 26 (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)


92078 Investigation of the Peripapillary Choriocapillaris in Normal Tension Glaucoma, Primary Open Angle Glaucoma, and Control Eyes
Navajas EV
Journal of Glaucoma 2021; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Liu Y
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92180 The Paediatric Glaucoma Diagnostic Ability of Optical Coherence Tomography: A Comparison of Macular Segmentation and Peripapillary Retinal Nerve Fibre Layer Thickness
Böhm MRR
Biology 2021; 10: (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Murata H
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Agrawal A
Investigative Ophthalmology and Visual Science 2021; 62: 34 (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)


92250 Systematic and Random Mapping Errors in Structure - Function Analysis of the Macula
Crabb DP
Translational vision science & technology 2021; 10: 21 (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Gedik Oğuz Y
Turkish journal of ophthalmology 2021; 51: 26-31 (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Cheng H
Translational vision science & technology 2021; 10: 26 (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)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Hyman L
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Weiss RE
Translational vision science & technology 2021; 10: 15 (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Egan C
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Fazio MA
Ophthalmology 2021; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Wang YM
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Fujino Y
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Lai I
Acta Ophthalmologica 2021; 0: (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)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Tham YC
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Han Y
Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Kim J
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Park J
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92649 Functional Monitoring after Trabeculectomy or XEN Microstent Implantation Using Spectral Domain Optical Coherence Tomography and Visual Field Indices-A Retrospective Comparative Cohort Study
Unterlauft JD
Biology 2021; 10: (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
El-Nimri N
Ophthalmology 2021; 0: (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; 0: (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)


92110 Quantification of Retinal Ganglion Cell Morphology in Human Glaucomatous Eyes
Hammer DX
Investigative Ophthalmology and Visual Science 2021; 62: 34 (IGR: 22-1)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Li M
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
De Moraes CG
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Kamalipour A
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Bayer A
Turkish journal of ophthalmology 2021; 51: 26-31 (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Liebmann JM
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Cai Y
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92761 Detecting Progression in Advanced Glaucoma: Are Optical Coherence Tomography Global Metrics Viable Measures?
Hood DC
Optometry and Vision Science 2021; 98: 518-530 (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Tezel TH
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


92194 Estimating Ganglion Cell Complex Rates of Change With Bayesian Hierarchical Models
Nouri-Mahdavi K
Translational vision science & technology 2021; 10: 15 (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Lam A
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92076 OCT Angiography for the Diagnosis of Glaucoma: A Report by the American Academy of Ophthalmology
Chen TC
Ophthalmology 2021; 0: (IGR: 22-1)


92755 Alterations in the Retinal Nerve Fiber Layer Thickness Color Map in Non-Glaucomatous Eyes with Myopia
Mutlu FM
Turkish journal of ophthalmology 2021; 51: 26-31 (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; 0: (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; 0: (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)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Chong R
British Journal of Ophthalmology 2021; 105: 397-402 (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)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Cheung CY
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Nishida T
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Lee SI
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Girkin CA
Ophthalmology 2021; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Pan BX
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92206 High-Pass Visual Acuity Loss and Macular Structure-Function Relationship in Patients With Primary Open-Angle Glaucoma
Yu M
Translational vision science & technology 2021; 10: 26 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Jonas JB
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Lee WJ
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Ekici E
Ophthalmology 2021; 0: (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Matsuura M
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Tham CC
British Journal of Ophthalmology 2021; 0: (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; 0: (IGR: 22-1)


92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Pan Y
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)


92836 Characterization of macular choroid in normal-tension glaucoma: a swept-source optical coherence tomography study
Tham CC
Acta Ophthalmologica 2021; 0: (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Rezapour J
Ophthalmology 2021; 0: (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Balazinska M
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Petrakos P
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Fazio MA
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92499 Early localized alterations of the retinal inner plexiform layer in association with visual field worsening in glaucoma patients
Tezel G
PLoS ONE 2021; 16: e0247401 (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Aung T
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Girkin CA
American Journal of Ophthalmology 2021; 229: 8-17 (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)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Miki A
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
De Moraes G
Ophthalmology 2021; 0: (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Weinreb RN
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Liebmann JM
American Journal of Ophthalmology 2021; 229: 8-17 (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)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Mori K
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Coleman AL
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Zangwill LM
Ophthalmology 2021; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Liebmann JM
Ophthalmology 2021; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Cheung C
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Lee AY
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Lamoureux EL
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Yu F
Ophthalmology. Glaucoma 2021; 0: (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)


92367 Automated detection of glaucoma with interpretable machine learning using clinical data and multi-modal retinal images
Rokem A
American Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Weinreb RN
Ophthalmology 2021; 0: (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Ikeda Y
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Zangwill LM
Scientific reports 2021; 11: 8854 (IGR: 22-1)


92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Weinreb RN
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Zhang X
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Vithana EN
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Bowd C
Ophthalmology 2021; 0: (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Cheng CY
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Kanamoto T
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


92441 OCT Angiography Artifacts in Glaucoma
Weinreb RN
Ophthalmology 2021; 0: (IGR: 22-1)


92677 Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT
Zangwill LM
Ophthalmology 2021; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
de Boer JF
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


92520 Association of foveal avascular zone area withstructural and functional progression in glaucoma patients
Zangwill LM
British Journal of Ophthalmology 2021; 0: (IGR: 22-1)


92217 Earlier Detection of Glaucoma Progression Using High-Density 3-Dimensional Spectral-Domain OCT Optic Nerve Volume Scans
Chen TC
Ophthalmology. Glaucoma 2021; 0: (IGR: 22-1)


91965 Factors affecting the diagnostic performance of circumpapillary retinal nerve fibre layer measurement in glaucoma
Schmetterer L
British Journal of Ophthalmology 2021; 105: 397-402 (IGR: 22-1)


92001 Deep learning model to predict visual field in central 10° from optical coherence tomography measurement in glaucoma
Yamagami J; Inoue K; Tanito M; Yamanishi K
British Journal of Ophthalmology 2021; 105: 507-513 (IGR: 22-1)


91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Lommatzsch C
Ocular Immunology and Inflammation 2020; 0: 1-7 (IGR: 21-4)


91608 Functional characteristics of glaucoma related arcuate defects seen on OCT en face visualisation of the retinal nerve fibre layer
Ashimatey BS
Ophthalmic and Physiological Optics 2021; 41: 437-446 (IGR: 21-4)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Lazaridis G
Medical Image Analysis 2021; 68: 101906 (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)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Uzair N
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (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)


91335 A software for quantification of vessel density in glaucoma: An OCT-Angiography study
Miguel A
Journal Français d'Ophtalmologie 2021; 44: 376-381 (IGR: 21-4)


91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Al-Nosairy KO
Translational vision science & technology 2020; 9: 7 (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)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Miguel A
British Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91802 Association of Patterns of Glaucomatous Macular Damage With Contrast Sensitivity and Facial Recognition in Patients With Glaucoma
Hirji SH
JAMA ophthalmology 2021; 139: 27-32 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Kim HM
Journal of Glaucoma 2020; 29: 857-863 (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; 0: (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Lazaridis G
Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Cazana IM
BMC Ophthalmology 2021; 21: 31 (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)


91335 A software for quantification of vessel density in glaucoma: An OCT-Angiography study
Miguel A
Journal Français d'Ophtalmologie 2021; 44: 376-381 (IGR: 21-4)


91549 Combined Multi-Modal Assessment of Glaucomatous Damage With Electroretinography and Optical Coherence Tomography/Angiography
Al-Nosairy KO
Translational vision science & technology 2020; 9: 7 (IGR: 21-4)


91014 Study of correlation between stereopsis and retinal nerve fiber layer thickness in cases of glaucoma
Dhar SK
Medical Journal Armed Forces India 2021; 77: 63-69 (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)


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)


91487 The effects of ocular surface disease on optical coherence tomography test results in patients with glaucoma
Oktay Ö
European Journal of Ophthalmology 2021; 0: 1120672121991395 (IGR: 21-4)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Ramyashri S
American Journal of Ophthalmology 2020; 224: 163-171 (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Miguel A
British Journal of Ophthalmology 2021; 0: (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)


91838 Digital Image Analysis of the Angle and Optic Nerve: A Simple, Fast, and Low-Cost Method for Glaucoma Assessment
Russell G
Journal of Ophthalmology 2020; 2020: 3595610 (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Chiou CA
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Jammal AA
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91534 Attention-Guided 3D-CNN Framework for Glaucoma Detection and Structural-Functional Association Using Volumetric Images
George Y
IEEE journal of biomedical and health informatics 2020; 24: 3421-3430 (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Shoji T
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Lazaridis G
Ophthalmology. Glaucoma 2021; 4: 295-304 (IGR: 21-4)


91641 Evaluation of Lamina Cribrosa by Using Enhanced Depth Imaging Optical Coherence Tomography in Ocular Sarcoidosis during Quiescent Phase
Balci S
Optometry and Vision Science 2021; 98: 137-142 (IGR: 21-4)


91547 Prediction of Visual Field Progression from OCT Structural Measures in Moderate to Advanced Glaucoma
Nouri-Mahdavi K
American Journal of Ophthalmology 2021; 0: (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)


91406 Can We Corroborate Peripapillary RNFL Analysis with Macular GCIPL Analysis? Our 2-Year Experience at a Single-Centre Tertiary Healthcare Hospital Using Two OCT Machines and a Review of Literature
Abrol S
Clinical Ophthalmology 2020; 14: 3763-3774 (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)


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)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Lazaridis G
Medical Image Analysis 2021; 68: 101906 (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)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Wang X
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91776 Retinal layer thicknesses retrieved with different segmentation algorithms from optical coherence tomography scans acquired under different signal-to-noise ratio conditions
Heikka T
Biomedical optics express 2020; 11: 7079-7095 (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)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Lopes FSS
Ophthalmic Research 2021; 64: 108-115 (IGR: 21-4)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Ran AR
Eye 2021; 35: 188-201 (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 2020; 0: (IGR: 21-4)


91658 Choroidal alterations of Sturge-Weber syndrome secondary glaucoma and non-glaucoma port-wine stain patients distinguished by enhanced depth imaging optical coherence tomography
Wu Y
BMC Ophthalmology 2020; 20: 477 (IGR: 21-4)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Swaminathan SS
American Journal of Ophthalmology 2020; 0: (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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Liu X
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91421 Glaucoma Detection from Raw SD-OCT Volumes: A Novel Approach Focused on Spatial Dependencies
García G
Computer Methods and Programs in Biomedicine 2021; 200: 105855 (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)


91584 Optical coherence tomography indices in the diagnosis and discrimination of stages of primary open-angle glaucoma in an African population
Kyei S
International Ophthalmology 2021; 41: 981-990 (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Silva A
British Journal of Ophthalmology 2021; 0: (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; 0: (IGR: 21-4)


91776 Retinal layer thicknesses retrieved with different segmentation algorithms from optical coherence tomography scans acquired under different signal-to-noise ratio conditions
Cense B
Biomedical optics express 2020; 11: 7079-7095 (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)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
McKee WE
Journal of Glaucoma 2020; 29: 857-863 (IGR: 21-4)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Kunkler AL
American Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Lorenzi M
Ophthalmology. Glaucoma 2021; 4: 295-304 (IGR: 21-4)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Tun TA
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Matsubara I
Ophthalmic Research 2021; 64: 108-115 (IGR: 21-4)


91802 Association of Patterns of Glaucomatous Macular Damage With Contrast Sensitivity and Facial Recognition in Patients With Glaucoma
Hood DC
JAMA ophthalmology 2021; 139: 27-32 (IGR: 21-4)


91838 Digital Image Analysis of the Angle and Optic Nerve: A Simple, Fast, and Low-Cost Method for Glaucoma Assessment
Hertzberg SNW
Journal of Ophthalmology 2020; 2020: 3595610 (IGR: 21-4)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Lorenzi M
Medical Image Analysis 2021; 68: 101906 (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)


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)


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)


91406 Can We Corroborate Peripapillary RNFL Analysis with Macular GCIPL Analysis? Our 2-Year Experience at a Single-Centre Tertiary Healthcare Hospital Using Two OCT Machines and a Review of Literature
Gupta S
Clinical Ophthalmology 2020; 14: 3763-3774 (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Wang M
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91014 Study of correlation between stereopsis and retinal nerve fiber layer thickness in cases of glaucoma
Raji K
Medical Journal Armed Forces India 2021; 77: 63-69 (IGR: 21-4)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Tham CC
Eye 2021; 35: 188-201 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Lau A
Ophthalmology. Glaucoma 2021; 0: (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)


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)


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)


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)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Shamim M
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (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)


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)


91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Bauermann P
Ocular Immunology and Inflammation 2020; 0: 1-7 (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 2020; 0: (IGR: 21-4)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Lorenzi M
Medical Image Analysis 2021; 68: 101906 (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Kanno J
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Böhringer D
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91547 Prediction of Visual Field Progression from OCT Structural Measures in Moderate to Advanced Glaucoma
Mohammadzadeh V
American Journal of Ophthalmology 2021; 0: (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)


91658 Choroidal alterations of Sturge-Weber syndrome secondary glaucoma and non-glaucoma port-wine stain patients distinguished by enhanced depth imaging optical coherence tomography
Huang L
BMC Ophthalmology 2020; 20: 477 (IGR: 21-4)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Rao HL
American Journal of Ophthalmology 2020; 224: 163-171 (IGR: 21-4)


91584 Optical coherence tomography indices in the diagnosis and discrimination of stages of primary open-angle glaucoma in an African population
Aberor J
International Ophthalmology 2021; 41: 981-990 (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)


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)


91608 Functional characteristics of glaucoma related arcuate defects seen on OCT en face visualisation of the retinal nerve fibre layer
King BJ
Ophthalmic and Physiological Optics 2021; 41: 437-446 (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)


91421 Glaucoma Detection from Raw SD-OCT Volumes: A Novel Approach Focused on Spatial Dependencies
Colomer A
Computer Methods and Programs in Biomedicine 2021; 200: 105855 (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Lorenzi M
Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


91487 The effects of ocular surface disease on optical coherence tomography test results in patients with glaucoma
Dursun Ö
European Journal of Ophthalmology 2021; 0: 1120672121991395 (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)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Thompson AC
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91534 Attention-Guided 3D-CNN Framework for Glaucoma Detection and Structural-Functional Association Using Volumetric Images
Antony BJ
IEEE journal of biomedical and health informatics 2020; 24: 3421-3430 (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)


91641 Evaluation of Lamina Cribrosa by Using Enhanced Depth Imaging Optical Coherence Tomography in Ocular Sarcoidosis during Quiescent Phase
Turan-Vural E
Optometry and Vision Science 2021; 98: 137-142 (IGR: 21-4)


91014 Study of correlation between stereopsis and retinal nerve fiber layer thickness in cases of glaucoma
Sandeep S
Medical Journal Armed Forces India 2021; 77: 63-69 (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)


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)


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)


91658 Choroidal alterations of Sturge-Weber syndrome secondary glaucoma and non-glaucoma port-wine stain patients distinguished by enhanced depth imaging optical coherence tomography
Liu Y
BMC Ophthalmology 2020; 20: 477 (IGR: 21-4)


91584 Optical coherence tomography indices in the diagnosis and discrimination of stages of primary open-angle glaucoma in an African population
Assiamah F
International Ophthalmology 2021; 41: 981-990 (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)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Chan PP
Eye 2021; 35: 188-201 (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Mohamed-Noriega J
Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


91421 Glaucoma Detection from Raw SD-OCT Volumes: A Novel Approach Focused on Spatial Dependencies
Naranjo V
Computer Methods and Programs in Biomedicine 2021; 200: 105855 (IGR: 21-4)


91487 The effects of ocular surface disease on optical coherence tomography test results in patients with glaucoma
Yılmaz A
European Journal of Ophthalmology 2021; 0: 1120672121991395 (IGR: 21-4)


91608 Functional characteristics of glaucoma related arcuate defects seen on OCT en face visualisation of the retinal nerve fibre layer
Swanson WH
Ophthalmic and Physiological Optics 2021; 41: 437-446 (IGR: 21-4)


91776 Retinal layer thicknesses retrieved with different segmentation algorithms from optical coherence tomography scans acquired under different signal-to-noise ratio conditions
Jansonius NM
Biomedical optics express 2020; 11: 7079-7095 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Malendowicz KB
Journal of Glaucoma 2020; 29: 857-863 (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)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Nongpiur ME
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Jonnadula GB
American Journal of Ophthalmology 2020; 224: 163-171 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Hou H
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91584 Optical coherence tomography indices in the diagnosis and discrimination of stages of primary open-angle glaucoma in an African population
Assiamah F
International Ophthalmology 2021; 41: 981-990 (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)


91534 Attention-Guided 3D-CNN Framework for Glaucoma Detection and Structural-Functional Association Using Volumetric Images
Ishikawa H
IEEE journal of biomedical and health informatics 2020; 24: 3421-3430 (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Weinreb RN
British Journal of Ophthalmology 2020; 0: (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)


91421 Glaucoma Detection from Raw SD-OCT Volumes: A Novel Approach Focused on Spatial Dependencies
Naranjo V
Computer Methods and Programs in Biomedicine 2021; 200: 105855 (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)


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 2020; 0: (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; 0: (IGR: 21-4)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Ourselin S
Medical Image Analysis 2021; 68: 101906 (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)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Quan AV
American Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Mariottoni EB
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Mamoon SA
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Almeida I
Ophthalmic Research 2021; 64: 108-115 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Hou H
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Barbosa-Breda J
British Journal of Ophthalmology 2021; 0: (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)


91838 Digital Image Analysis of the Angle and Optic Nerve: A Simple, Fast, and Low-Cost Method for Glaucoma Assessment
Anisimova N
Journal of Ophthalmology 2020; 2020: 3595610 (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)


91115 Peripapillary perfused capillary density in true versus pseudoexfoliation syndrome: An OCTA study
Supakonatanasan W
PLoS ONE 2020; 15: e0239109 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Reinhard T
BMC Ophthalmology 2021; 21: 31 (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)


91547 Prediction of Visual Field Progression from OCT Structural Measures in Moderate to Advanced Glaucoma
Rabiolo A
American Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91802 Association of Patterns of Glaucomatous Macular Damage With Contrast Sensitivity and Facial Recognition in Patients With Glaucoma
Liebmann JM
JAMA ophthalmology 2021; 139: 27-32 (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)


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)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Taniguchi EV
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Ourselin S
Medical Image Analysis 2021; 68: 101906 (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Mariottoni EB
American Journal of Ophthalmology 2021; 222: 238-247 (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)


91406 Can We Corroborate Peripapillary RNFL Analysis with Macular GCIPL Analysis? Our 2-Year Experience at a Single-Centre Tertiary Healthcare Hospital Using Two OCT Machines and a Review of Literature
Naik M
Clinical Ophthalmology 2020; 14: 3763-3774 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Hou H
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Cheng CY
Eye 2021; 35: 188-201 (IGR: 21-4)


91534 Attention-Guided 3D-CNN Framework for Glaucoma Detection and Structural-Functional Association Using Volumetric Images
Wollstein G
IEEE journal of biomedical and health informatics 2020; 24: 3421-3430 (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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Moghimi S
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Addepalli UK
American Journal of Ophthalmology 2020; 224: 163-171 (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Azevedo L
British Journal of Ophthalmology 2021; 0: (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)


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)


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 2020; 0: (IGR: 21-4)


91547 Prediction of Visual Field Progression from OCT Structural Measures in Moderate to Advanced Glaucoma
Edalati K
American Journal of Ophthalmology 2021; 0: (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)


91709 Improving statistical power of glaucoma clinical trials using an ensemble of cyclical generative adversarial networks
Garway-Heath D
Medical Image Analysis 2021; 68: 101906 (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)


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)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Nascimento E Silva R
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Urata CN
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Yoshikawa Y
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Medert CM
American Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91658 Choroidal alterations of Sturge-Weber syndrome secondary glaucoma and non-glaucoma port-wine stain patients distinguished by enhanced depth imaging optical coherence tomography
Xu L
BMC Ophthalmology 2020; 20: 477 (IGR: 21-4)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Gracitelli CPB
Ophthalmic Research 2021; 64: 108-115 (IGR: 21-4)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Naz S
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91838 Digital Image Analysis of the Angle and Optic Nerve: A Simple, Fast, and Low-Cost Method for Glaucoma Assessment
Gavrilova N
Journal of Ophthalmology 2020; 2020: 3595610 (IGR: 21-4)


91406 Can We Corroborate Peripapillary RNFL Analysis with Macular GCIPL Analysis? Our 2-Year Experience at a Single-Centre Tertiary Healthcare Hospital Using Two OCT Machines and a Review of Literature
Agarwal S
Clinical Ophthalmology 2020; 14: 3763-3774 (IGR: 21-4)


91584 Optical coherence tomography indices in the diagnosis and discrimination of stages of primary open-angle glaucoma in an African population
Kwarteng MA
International Ophthalmology 2021; 41: 981-990 (IGR: 21-4)


91802 Association of Patterns of Glaucomatous Macular Damage With Contrast Sensitivity and Facial Recognition in Patients With Glaucoma
Blumberg DM
JAMA ophthalmology 2021; 139: 27-32 (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)


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)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Evers C
BMC Ophthalmology 2021; 21: 31 (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)


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)


91338 Effect of retinal protective therapy on optical coherence tomography angiography (pilot study)
Solovieva AB
Vestnik Oftalmologii 2021; 137: 60-67 (IGR: 21-4)


91014 Study of correlation between stereopsis and retinal nerve fiber layer thickness in cases of glaucoma
Abhijit
Medical Journal Armed Forces India 2021; 77: 63-69 (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)


91584 Optical coherence tomography indices in the diagnosis and discrimination of stages of primary open-angle glaucoma in an African population
Kwarteng MA
International Ophthalmology 2021; 41: 981-990 (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)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Thenappan AA
Journal of Glaucoma 2020; 29: 857-863 (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Aguilar-Munoa S
Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Htoon HM
British Journal of Ophthalmology 2020; 0: (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)


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)


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)


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)


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)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Khoroshilov A
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Suzuki K
Ophthalmology. Glaucoma 2021; 4: 295-304 (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Mine I
British Journal of Ophthalmology 2020; 0: (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)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Feroz L
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Proudfoot JA
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Tsamis E
Journal of Glaucoma 2020; 29: 857-863 (IGR: 21-4)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Vanner EA
American Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Estrela T
American Journal of Ophthalmology 2021; 222: 238-247 (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)


91100 Optical Coherence Tomography Angiography in Uveitic Glaucoma - A Pilot Study
Heinz C
Ocular Immunology and Inflammation 2020; 0: 1-7 (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)


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)


91658 Choroidal alterations of Sturge-Weber syndrome secondary glaucoma and non-glaucoma port-wine stain patients distinguished by enhanced depth imaging optical coherence tomography
Guo W
BMC Ophthalmology 2020; 20: 477 (IGR: 21-4)


91547 Prediction of Visual Field Progression from OCT Structural Measures in Moderate to Advanced Glaucoma
Caprioli J
American Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Abdulrahman A
British Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Tham YC
Eye 2021; 35: 188-201 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Tsamis E
Journal of Glaucoma 2020; 29: 857-863 (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Estrela T
American Journal of Ophthalmology 2021; 222: 238-247 (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)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Dorairaj SK
Ophthalmic Research 2021; 64: 108-115 (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)


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)


91534 Attention-Guided 3D-CNN Framework for Glaucoma Detection and Structural-Functional Association Using Volumetric Images
Schuman JS
IEEE journal of biomedical and health informatics 2020; 24: 3421-3430 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Tsamis E
Journal of Glaucoma 2020; 29: 857-863 (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)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Tham YC
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Choudhari N
American Journal of Ophthalmology 2020; 224: 163-171 (IGR: 21-4)


91838 Digital Image Analysis of the Angle and Optic Nerve: A Simple, Fast, and Low-Cost Method for Glaucoma Assessment
Petrovski BÉ
Journal of Ophthalmology 2020; 2020: 3595610 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Engesser D
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91838 Digital Image Analysis of the Angle and Optic Nerve: A Simple, Fast, and Low-Cost Method for Glaucoma Assessment
Petrovski G
Journal of Ophthalmology 2020; 2020: 3595610 (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Berchuck SI
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Anton A
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91547 Prediction of Visual Field Progression from OCT Structural Measures in Moderate to Advanced Glaucoma
Yousefi S
American Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91534 Attention-Guided 3D-CNN Framework for Glaucoma Detection and Structural-Functional Association Using Volumetric Images
Garnavi R
IEEE journal of biomedical and health informatics 2020; 24: 3421-3430 (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)


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)


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)


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)


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)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Feuer W
American Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Strouthidis NG
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Li D
Current Eye Research 2020; 0: 1-8 (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)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Rim TH
Eye 2021; 35: 188-201 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Eguia MD
Journal of Glaucoma 2020; 29: 857-863 (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)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Berchuck SI
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Nomoto H
Ophthalmology. Glaucoma 2021; 4: 295-304 (IGR: 21-4)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Vessani RM
Ophthalmic Research 2021; 64: 108-115 (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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Chan E
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Kumari K
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Hereth E
British Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Ishii H
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Senthil S
American Journal of Ophthalmology 2020; 224: 163-171 (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Wang H
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
De Moraes CG
Journal of Glaucoma 2020; 29: 857-863 (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)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Aung T
British Journal of Ophthalmology 2020; 0: (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)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Tseng HC
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Paranhos A
Ophthalmic Research 2021; 64: 108-115 (IGR: 21-4)


91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Lübke J
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)


91853 OCT Signal Enhancement with Deep Learning
Ourselin S
Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


91787 Determinants of Optical Coherence Tomography Parameters in a Population-based Study
Garudadri C
American Journal of Ophthalmology 2020; 224: 163-171 (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)


91853 OCT Signal Enhancement with Deep Learning
Ourselin S
Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


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)


91791 Deep learning in glaucoma with optical coherence tomography: a review
Cheung CY
Eye 2021; 35: 188-201 (IGR: 21-4)


91377 Rates of RNFL Thinning in Patients with Suspected or Confirmed Glaucoma Receiving Unilateral Intravitreal Injections for Exudative AMD
Chang TC
American Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Ibuki H
British Journal of Ophthalmology 2020; 0: (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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Do J
Ophthalmology. Glaucoma 2021; 0: (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)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Abegão Pinto L
British Journal of Ophthalmology 2021; 0: (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)


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)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Greenstein SH
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91354 OCT angiography measured changes in the foveal avascular zone area after glaucoma surgery
Shinoda K
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Cheng CY
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Camp A
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Lachkar Y
British Journal of Ophthalmology 2021; 0: (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)


91853 OCT Signal Enhancement with Deep Learning
Garway-Heath DF
Ophthalmology. Glaucoma 2021; 4: 295-304 (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Asrani S
American Journal of Ophthalmology 2021; 222: 238-247 (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)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Ritch R
Journal of Glaucoma 2020; 29: 857-863 (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)


91174 Using Enhanced Depth Imaging Optical Coherence Tomography-Derived Parameters to Discriminate between Eyes with and without Glaucoma: A Cross-Sectional Comparative Study
Prata TS
Ophthalmic Research 2021; 64: 108-115 (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)


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)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Brauner SC
Current Eye Research 2020; 0: 1-8 (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)


91853 OCT Signal Enhancement with Deep Learning

Ophthalmology. Glaucoma 2021; 4: 295-304 (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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Welsbie D
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91253 OCT-angiography detects longitudinal microvascular changes in glaucoma: a systematic review
Stalmans I
British Journal of Ophthalmology 2021; 0: (IGR: 21-4)


91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Girard MJ
British Journal of Ophthalmology 2020; 0: (IGR: 21-4)


91108 Rates of Glaucomatous Structural and Functional Change From a Large Clinical Population: The Duke Glaucoma Registry Study
Medeiros FA
American Journal of Ophthalmology 2021; 222: 238-247 (IGR: 21-4)


91165 Local Glaucomatous Defects of the Circumpapillary Retinal Nerve Fiber Layer Show a Variety of Patterns of Progression
Hood DC
Journal of Glaucoma 2020; 29: 857-863 (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)


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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Gustavo de Moraes C
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Turalba AV
Current Eye Research 2020; 0: 1-8 (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)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Girkin CA
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Pasquale LR
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Liebmann JM
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


91865 Characterization of Prelaminar Wedge-Shaped Defects in Primary Open-Angle Glaucoma
Shen LQ
Current Eye Research 2020; 0: 1-8 (IGR: 21-4)


91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Weinreb RN
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)


90059 Development and Validation of a Deep Learning System for Diagnosing Glaucoma Using Optical Coherence Tomography
Kim KE
Journal of clinical medicine 2020; 9: (IGR: 21-3)


90578 Determination of retinal nerve fibre layer and ganglion cell/inner plexiform layers progression rates using two optical coherence tomography systems: The PROGRESSA study
Saks D
Clinical and Experimental Ophthalmology 2020; 48: 915-926 (IGR: 21-3)


90410 Estimating Global Visual Field Indices in Glaucoma by Combining Macula and Optic Disc OCT Scans Using 3-Dimensional Convolutional Neural Networks
Yu HH
Ophthalmology. Glaucoma 2021; 4: 102-112 (IGR: 21-3)


90266 Diagnostic Accuracy of Wide-Field Map from Swept-Source Optical Coherence Tomography for Primary Open-Angle Glaucoma in Myopic Eyes
Kim YW
American Journal of Ophthalmology 2020; 218: 182-191 (IGR: 21-3)


90534 The Trajectory of Glaucoma Progression in 2-Dimensional Structural-Functional Space
de Gainza A
Ophthalmology. Glaucoma 2020; 3: 466-474 (IGR: 21-3)


90173 Laminar and Prelaminar Tissue Characteristics of Glaucomatous Eyes Using Enhanced Depth Imaging OCT
Yazdani S
Ophthalmology. Glaucoma 2021; 4: 95-101 (IGR: 21-3)


89905 Temporal Raphe Sign in Elderly Patients With Large Optic Disc Cupping: Its Evaluation as a Predictive Factor for Glaucoma Conversion
Ha A
American Journal of Ophthalmology 2020; 219: 205-214 (IGR: 21-3)


90740 Angular Location of Retinal Nerve Fiber Layer Defect: Association With Myopia and Open-Angle Glaucoma
Bak E
Investigative Ophthalmology and Visual Science 2020; 61: 13 (IGR: 21-3)


90117 A comparative evaluation of segmental analysis of macular layers in patients with early glaucoma, ocular hypertension, and healthy eyes
Aksoy FE
Journal Français d'Ophtalmologie 2020; 0: (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)


90374 An Adoptive Threshold-Based Multi-Level Deep Convolutional Neural Network for Glaucoma Eye Disease Detection and Classification
Aamir M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-3)


90593 Associations of Ganglion Cell-Inner Plexiform Layer and Optic Nerve Head Parameters with Visual Field Sensitivity in Advanced Glaucoma
Hu H
Ophthalmic Research 2021; 64: 310-320 (IGR: 21-3)


90519 Longitudinal Evaluation of the Structural and Functional Changes Associated with Glaucoma in Myopia
Biswas S
Optometry and Vision Science 2020; 97: 448-456 (IGR: 21-3)


90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Pazos M
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)


90464 Glaucoma classification based on intra-class and extra-class discriminative correlation and consensus ensemble classifier
Kishore B
Genomics 2020; 112: 3089-3096 (IGR: 21-3)


90563 Reliability and Recommended Settings for Pediatric Circumpapillary Retinal Nerve Fiber Layer Imaging Using Hand-Held Optical Coherence Tomography
Shah SD
Translational vision science & technology 2020; 9: 43 (IGR: 21-3)


90566 Point-wise correlations between 10-2 Humphrey visual field and OCT data in open angle glaucoma
Cirafici P
Eye 2021; 35: 868-876 (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)


90183 The Evaluation of Retinal Nerve Fiber Layer and Ganglion Cell Complex Thickness in Adult Offspring of Primary Open-angle Glaucoma Patients
Bilgin S
Journal of Glaucoma 2020; 29: 819-822 (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
Demirtaş AA
Current Eye Research 2020; 0: 1-11 (IGR: 21-3)


90281 Long-term morphologic fundus and optic nerve head pattern of progressive myopia in congenital glaucoma distinguished by age at first surgery
Lee EJ
Scientific reports 2020; 10: 10041 (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)


90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Iyer JV
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


90145 Predicting the Glaucomatous Central 10-Degree Visual Field From Optical Coherence Tomography Using Deep Learning and Tensor Regression
Xu L
American Journal of Ophthalmology 2020; 218: 304-313 (IGR: 21-3)


90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
La Bruna S
Journal of Glaucoma 2020; 29: 671-680 (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)


90120 Diagnostic performance of multifocal photopic negative response, pattern electroretinogram and optical coherence tomography in glaucoma
Al-Nosairy KO
Experimental Eye Research 2020; 200: 108242 (IGR: 21-3)


90552 Individual Macular Layer Evaluation with Spectral Domain Optical Coherence Tomography in Normal and Glaucomatous Eyes
Fujihara FMF
Clinical Ophthalmology 2020; 14: 1591-1599 (IGR: 21-3)


90740 Angular Location of Retinal Nerve Fiber Layer Defect: Association With Myopia and Open-Angle Glaucoma
Bak E
Investigative Ophthalmology and Visual Science 2020; 61: 13 (IGR: 21-3)


90654 Increased Equivalent Input Noise in Glaucomatous Central Vision: Is it Due to Undersampling of Retinal Ganglion Cells?
Liu R
Investigative Ophthalmology and Visual Science 2020; 61: 10 (IGR: 21-3)


90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Park CK
Eye 2020; 0: (IGR: 21-3)


90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Song MK
British Journal of Ophthalmology 2020; 0: (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)


90212 WGAN domain adaptation for the joint optic disc-and-cup segmentation in fundus images
Kadambi S
International journal of computer assisted radiology and surgery 2020; 15: 1205-1213 (IGR: 21-3)


90646 Optical coherence tomography indices for diagnosis of chronic glaucoma in patients with diabetes mellitus: a pilot study
Hassan FK
International Ophthalmology 2021; 41: 409-420 (IGR: 21-3)


90299 Wide-field Trend-based Progression Analysis of Combined Retinal Nerve Fiber Layer and Ganglion Cell Inner Plexiform Layer Thickness: A New Paradigm to Improve Glaucoma Progression Detection
Wu K
Ophthalmology 2020; 127: 1322-1330 (IGR: 21-3)


90077 Association Between Structure-function Characteristics and Visual Field Outcomes in Glaucoma Subjects With Intraocular Pressure Reduction After Trabeculectomy
Kadziauskienė A
Journal of Glaucoma 2020; 29: 648-655 (IGR: 21-3)


90270 The Relationship Between Corneal Hysteresis and Retinal Ganglion Cells - A Step Forward in Early Glaucoma Diagnosis
Potop V
Medical Science Monitor 2020; 26: e924672 (IGR: 21-3)


90657 Detection of Glaucoma Deterioration in the Macular Region with Optical Coherence Tomography: Challenges and Solutions
Nouri-Mahdavi K
American Journal of Ophthalmology 2020; 222: 277-284 (IGR: 21-3)


90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Demirtaş AA
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)


90508 Impact of Artifacts From Optical Coherence Tomography Retinal Nerve Fiber Layer and Macula Scans on Detection of Glaucoma Progression
Li A
American Journal of Ophthalmology 2021; 221: 235-245 (IGR: 21-3)


90566 Point-wise correlations between 10-2 Humphrey visual field and OCT data in open angle glaucoma
Cirafici P
Eye 2021; 35: 868-876 (IGR: 21-3)


90411 The Shape of Posterior Sclera as a Biometric Signature in Open-angle Glaucoma: An Intereye Comparison Study
Kim YC
Journal of Glaucoma 2020; 29: 890-898 (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)


90802 Improving Visual Field Trend Analysis with OCT and Deeply Regularized Latent-Space Linear Regression
Xu L
Ophthalmology. Glaucoma 2021; 4: 78-88 (IGR: 21-3)


90577 Frequency of hypotonic maculopathy observed by spectral domain optical coherence tomography in post glaucoma filtration surgery eyes
Azuma K
American journal of ophthalmology case reports 2020; 19: 100786 (IGR: 21-3)


90834 An Evaluation of a New 24-2 Metric for Detecting Early Central Glaucomatous Damage
Hood DC
American Journal of Ophthalmology 2020; 223: 119-128 (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)


90377 Overhead Mounted Optical Coherence Tomography in Childhood Glaucoma Evaluation
Go MS
Journal of Glaucoma 2020; 29: 742-749 (IGR: 21-3)


90132 Fourier analysis of circumpapillary retinal nerve fiber layer thickness in optical coherence tomography for differentiating myopia and glaucoma
Hsieh MH
Scientific reports 2020; 10: 10509 (IGR: 21-3)


90837 Local Macular Thickness Relationships between 2 OCT Devices
Mahmoudinezhad G
Ophthalmology. Glaucoma 2021; 4: 209-215 (IGR: 21-3)


90591 Optical Coherence Tomography Can Be Used to Assess Glaucomatous Optic Nerve Damage in Most Eyes With High Myopia
Zemborain ZZ
Journal of Glaucoma 2020; 29: 833-845 (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)


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)


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)


90265 Joint disc and cup segmentation based on recurrent fully convolutional network
Gao J
PLoS ONE 2020; 15: e0238983 (IGR: 21-3)


90112 Diagnostic Ability of Individual Macular Layers by Spectral-Domain OCT in Different Stages of Glaucoma
Chua J
Ophthalmology. Glaucoma 2020; 3: 314-326 (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)


90572 Referenced scans improve the repeatability of optical coherence tomography angiography measurements in normal and glaucoma eyes
Rao HL
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


90120 Diagnostic performance of multifocal photopic negative response, pattern electroretinogram and optical coherence tomography in glaucoma
Al-Nosairy KO
Experimental Eye Research 2020; 200: 108242 (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)


90740 Angular Location of Retinal Nerve Fiber Layer Defect: Association With Myopia and Open-Angle Glaucoma
Bak E
Investigative Ophthalmology and Visual Science 2020; 61: 13 (IGR: 21-3)


90775 Comparing the Rule of 5 to Trend-based Analysis for Detecting Glaucoma Progression on OCT
Thompson AC
Ophthalmology. Glaucoma 2020; 3: 414-420 (IGR: 21-3)


90588 Ethnicity-Specific Database Improves the Diagnostic Ability of Peripapillary Retinal Nerve Fiber Layer Thickness to Detect Glaucoma
Perez CI
American Journal of Ophthalmology 2021; 221: 311-322 (IGR: 21-3)


90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Demirtaş AA
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)


89987 Optical coherence tomography angiography in glaucoma
Aghsaei Fard M
Annals of translational medicine 2020; 8: 1204 (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)


89992 Improving the Detection of Glaucoma and Its Progression: A Topographical Approach
Hood DC
Journal of Glaucoma 2020; 29: 613-621 (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)


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)


90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Park EA
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)


90740 Angular Location of Retinal Nerve Fiber Layer Defect: Association With Myopia and Open-Angle Glaucoma
Bak E
Investigative Ophthalmology and Visual Science 2020; 61: 13 (IGR: 21-3)


90049 Dual-input convolutional neural network for glaucoma diagnosis using spectral-domain optical coherence tomography
Sun S
British Journal of Ophthalmology 2020; 0: (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)


89957 Ability of 24-2C and 24-2 Grids to Identify Central Visual Field Defects and Structure-Function Concordance in Glaucoma and Suspects
Phu J
American Journal of Ophthalmology 2020; 219: 317-331 (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)


90748 Effect of baseline test selection on glaucoma progression detection by optical coherence tomography-guided progression analysis
Kang DH
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Chan ASY
Scientific reports 2020; 10: 14709 (IGR: 21-3)


90408 Towards multi-center glaucoma OCT image screening with semi-supervised joint structure and function multi-task learning
Wang X
Medical Image Analysis 2020; 63: 101695 (IGR: 21-3)


90485 Diagnostic ability of OCT parameters and retinal ganglion cells count in identification of glaucoma in myopic preperimetric eyes
Rolle T
BMC Ophthalmology 2020; 20: 373 (IGR: 21-3)


90669 Different damage patterns of retinal nerve fiber layer and ganglion cell-inner plexiform layer between early glaucoma and non-glaucomatous optic neuropathy
Xiao H
International Journal of Ophthalmology 2020; 13: 893-901 (IGR: 21-3)


90146 Accuracy of optical coherence tomography for diagnosing glaucoma: an overview of systematic reviews
Michelessi M
British Journal of Ophthalmology 2021; 105: 490-495 (IGR: 21-3)


90785 Analysis of retinal nerve fiber layer birefringence in patients with glaucoma and diabetic retinopathy by polarization sensitive OCT
Desissaire S
Biomedical optics express 2020; 11: 5488-5505 (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)


90612 The role of the disc damage likelihood scale in glaucoma detection by community optometrists
Formichella P
Ophthalmic and Physiological Optics 2020; 40: 752-759 (IGR: 21-3)


90197 A deep learning approach to predict visual field using optical coherence tomography
Park K
PLoS ONE 2020; 15: e0234902 (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
Demirtaş AA
Current Eye Research 2020; 0: 1-11 (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 2020; 0: (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)


90592 Presumed activated retinal astrocytes and Müller cells in healthy and glaucomatous eyes detected by spectral domain optical coherence tomography
Cheung H
Ophthalmic and Physiological Optics 2020; 40: 738-751 (IGR: 21-3)


90765 Uveitis as a Confounding Factor in Retinal Nerve Fiber Layer Analysis Using Optical Coherence Tomography
Yilmaz H
Ocular Immunology and Inflammation 2020; 0: 1-6 (IGR: 21-3)


90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Usui S
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)


90317 Effects of axial length on retinal nerve fiber layer and macular ganglion cell-inner plexiform layer measured by spectral-domain OCT
Francisconi CLM
Arquivos Brasileiros de Oftalmologia 2020; 83: 269-276 (IGR: 21-3)


90771 Cognitive Impairment and Lamina Cribrosa Thickness in Primary Open-Angle Glaucoma
Lee SH
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)


90002 A framework for assessing glaucoma progression using structural and functional indices jointly
Abu SL
PLoS ONE 2020; 15: e0235255 (IGR: 21-3)


89991 Comparison of Peripapillary Retinal Nerve Fiber Layer Thickness, Functional Subzones, and Macular Ganglion Cell-Inner Plexiform Layer in Differentiating Patients With Mild, Moderate, and Severe Open-angle Glaucoma
Huo YJ
Journal of Glaucoma 2020; 29: 761-766 (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)


90363 Extraction of Retinal Layers Through Convolution Neural Network (CNN) in an OCT Image for Glaucoma Diagnosis
Raja H
Journal of digital imaging 2020; 33: 1428-1442 (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)


90654 Increased Equivalent Input Noise in Glaucomatous Central Vision: Is it Due to Undersampling of Retinal Ganglion Cells?
Kwon M
Investigative Ophthalmology and Visual Science 2020; 61: 10 (IGR: 21-3)


89957 Ability of 24-2C and 24-2 Grids to Identify Central Visual Field Defects and Structure-Function Concordance in Glaucoma and Suspects
Kalloniatis M
American Journal of Ophthalmology 2020; 219: 317-331 (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)


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)


90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Tsamis E
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)


90837 Local Macular Thickness Relationships between 2 OCT Devices
Mohammadzadeh V
Ophthalmology. Glaucoma 2021; 4: 209-215 (IGR: 21-3)


90748 Effect of baseline test selection on glaucoma progression detection by optical coherence tomography-guided progression analysis
Hwang YH
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


89991 Comparison of Peripapillary Retinal Nerve Fiber Layer Thickness, Functional Subzones, and Macular Ganglion Cell-Inner Plexiform Layer in Differentiating Patients With Mild, Moderate, and Severe Open-angle Glaucoma
Thomas R
Journal of Glaucoma 2020; 29: 761-766 (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)


90317 Effects of axial length on retinal nerve fiber layer and macular ganglion cell-inner plexiform layer measured by spectral-domain OCT
Wagner MB
Arquivos Brasileiros de Oftalmologia 2020; 83: 269-276 (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)


90669 Different damage patterns of retinal nerve fiber layer and ganglion cell-inner plexiform layer between early glaucoma and non-glaucomatous optic neuropathy
Liu X
International Journal of Ophthalmology 2020; 13: 893-901 (IGR: 21-3)


90120 Diagnostic performance of multifocal photopic negative response, pattern electroretinogram and optical coherence tomography in glaucoma
Thieme H
Experimental Eye Research 2020; 200: 108242 (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)


90657 Detection of Glaucoma Deterioration in the Macular Region with Optical Coherence Tomography: Challenges and Solutions
Weiss RE
American Journal of Ophthalmology 2020; 222: 277-284 (IGR: 21-3)


90508 Impact of Artifacts From Optical Coherence Tomography Retinal Nerve Fiber Layer and Macula Scans on Detection of Glaucoma Progression
Thompson AC
American Journal of Ophthalmology 2021; 221: 235-245 (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)


90411 The Shape of Posterior Sclera as a Biometric Signature in Open-angle Glaucoma: An Intereye Comparison Study
Koo YH
Journal of Glaucoma 2020; 29: 890-898 (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)


90612 The role of the disc damage likelihood scale in glaucoma detection by community optometrists
Annoh R
Ophthalmic and Physiological Optics 2020; 40: 752-759 (IGR: 21-3)


90802 Improving Visual Field Trend Analysis with OCT and Deeply Regularized Latent-Space Linear Regression
Asaoka R
Ophthalmology. Glaucoma 2021; 4: 78-88 (IGR: 21-3)


90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Lee K
Eye 2020; 0: (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)


90592 Presumed activated retinal astrocytes and Müller cells in healthy and glaucomatous eyes detected by spectral domain optical coherence tomography
King BJ
Ophthalmic and Physiological Optics 2020; 40: 738-751 (IGR: 21-3)


90513 Relationship between peripapillary vessel density and visual field in glaucoma: a broken-stick model
Shin JW
British Journal of Ophthalmology 2020; 0: (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)


90002 A framework for assessing glaucoma progression using structural and functional indices jointly
Marín-Franch I
PLoS ONE 2020; 15: e0235255 (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)


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)


90485 Diagnostic ability of OCT parameters and retinal ganglion cells count in identification of glaucoma in myopic preperimetric eyes
Bonetti B
BMC Ophthalmology 2020; 20: 373 (IGR: 21-3)


89992 Improving the Detection of Glaucoma and Its Progression: A Topographical Approach
Zemborain ZZ
Journal of Glaucoma 2020; 29: 613-621 (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)


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)


90578 Determination of retinal nerve fibre layer and ganglion cell/inner plexiform layers progression rates using two optical coherence tomography systems: The PROGRESSA study
Schulz A
Clinical and Experimental Ophthalmology 2020; 48: 915-926 (IGR: 21-3)


90410 Estimating Global Visual Field Indices in Glaucoma by Combining Macula and Optic Disc OCT Scans Using 3-Dimensional Convolutional Neural Networks
Maetschke SR
Ophthalmology. Glaucoma 2021; 4: 102-112 (IGR: 21-3)


90266 Diagnostic Accuracy of Wide-Field Map from Swept-Source Optical Coherence Tomography for Primary Open-Angle Glaucoma in Myopic Eyes
Lee J
American Journal of Ophthalmology 2020; 218: 182-191 (IGR: 21-3)


89905 Temporal Raphe Sign in Elderly Patients With Large Optic Disc Cupping: Its Evaluation as a Predictive Factor for Glaucoma Conversion
Kim YK
American Journal of Ophthalmology 2020; 219: 205-214 (IGR: 21-3)


90785 Analysis of retinal nerve fiber layer birefringence in patients with glaucoma and diabetic retinopathy by polarization sensitive OCT
Pollreisz A
Biomedical optics express 2020; 11: 5488-5505 (IGR: 21-3)


90577 Frequency of hypotonic maculopathy observed by spectral domain optical coherence tomography in post glaucoma filtration surgery eyes
Saito H
American journal of ophthalmology case reports 2020; 19: 100786 (IGR: 21-3)


90588 Ethnicity-Specific Database Improves the Diagnostic Ability of Peripapillary Retinal Nerve Fiber Layer Thickness to Detect Glaucoma
Chansangpetch S
American Journal of Ophthalmology 2021; 221: 311-322 (IGR: 21-3)


90145 Predicting the Glaucomatous Central 10-Degree Visual Field From Optical Coherence Tomography Using Deep Learning and Tensor Regression
Asaoka R
American Journal of Ophthalmology 2020; 218: 304-313 (IGR: 21-3)


90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Tsamis E
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)


90771 Cognitive Impairment and Lamina Cribrosa Thickness in Primary Open-Angle Glaucoma
Han JW
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)


90563 Reliability and Recommended Settings for Pediatric Circumpapillary Retinal Nerve Fiber Layer Imaging Using Hand-Held Optical Coherence Tomography
Haq A
Translational vision science & technology 2020; 9: 43 (IGR: 21-3)


90077 Association Between Structure-function Characteristics and Visual Field Outcomes in Glaucoma Subjects With Intraocular Pressure Reduction After Trabeculectomy
Chua J
Journal of Glaucoma 2020; 29: 648-655 (IGR: 21-3)


90464 Glaucoma classification based on intra-class and extra-class discriminative correlation and consensus ensemble classifier
Ananthamoorthy NP
Genomics 2020; 112: 3089-3096 (IGR: 21-3)


90112 Diagnostic Ability of Individual Macular Layers by Spectral-Domain OCT in Different Stages of Glaucoma
Tan B
Ophthalmology. Glaucoma 2020; 3: 314-326 (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)


90173 Laminar and Prelaminar Tissue Characteristics of Glaucomatous Eyes Using Enhanced Depth Imaging OCT
Naderi Beni A
Ophthalmology. Glaucoma 2021; 4: 95-101 (IGR: 21-3)


90059 Development and Validation of a Deep Learning System for Diagnosing Glaucoma Using Optical Coherence Tomography
Kim JM
Journal of clinical medicine 2020; 9: (IGR: 21-3)


90593 Associations of Ganglion Cell-Inner Plexiform Layer and Optic Nerve Head Parameters with Visual Field Sensitivity in Advanced Glaucoma
Li P
Ophthalmic Research 2021; 64: 310-320 (IGR: 21-3)


90408 Towards multi-center glaucoma OCT image screening with semi-supervised joint structure and function multi-task learning
Chen H
Medical Image Analysis 2020; 63: 101695 (IGR: 21-3)


90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Tsikata E
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)


90552 Individual Macular Layer Evaluation with Spectral Domain Optical Coherence Tomography in Normal and Glaucomatous Eyes
de Arruda Mello PA
Clinical Ophthalmology 2020; 14: 1591-1599 (IGR: 21-3)


90534 The Trajectory of Glaucoma Progression in 2-Dimensional Structural-Functional Space
Morales E
Ophthalmology. Glaucoma 2020; 3: 466-474 (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)


90117 A comparative evaluation of segmental analysis of macular layers in patients with early glaucoma, ocular hypertension, and healthy eyes
Altan C
Journal Français d'Ophtalmologie 2020; 0: (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)


90197 A deep learning approach to predict visual field using optical coherence tomography
Kim J
PLoS ONE 2020; 15: e0234902 (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)


90281 Long-term morphologic fundus and optic nerve head pattern of progressive myopia in congenital glaucoma distinguished by age at first surgery
Han JC
Scientific reports 2020; 10: 10041 (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 2020; 0: (IGR: 21-3)


90049 Dual-input convolutional neural network for glaucoma diagnosis using spectral-domain optical coherence tomography
Ha A
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


90591 Optical Coherence Tomography Can Be Used to Assess Glaucomatous Optic Nerve Damage in Most Eyes With High Myopia
Jarukasetphon R
Journal of Glaucoma 2020; 29: 833-845 (IGR: 21-3)


90765 Uveitis as a Confounding Factor in Retinal Nerve Fiber Layer Analysis Using Optical Coherence Tomography
Koylu MT
Ocular Immunology and Inflammation 2020; 0: 1-6 (IGR: 21-3)


90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Ikuno Y
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)


90212 WGAN domain adaptation for the joint optic disc-and-cup segmentation in fundus images
Wang Z
International journal of computer assisted radiology and surgery 2020; 15: 1205-1213 (IGR: 21-3)


90299 Wide-field Trend-based Progression Analysis of Combined Retinal Nerve Fiber Layer and Ganglion Cell Inner Plexiform Layer Thickness: A New Paradigm to Improve Glaucoma Progression Detection
Lin C
Ophthalmology 2020; 127: 1322-1330 (IGR: 21-3)


90146 Accuracy of optical coherence tomography for diagnosing glaucoma: an overview of systematic reviews
Li T
British Journal of Ophthalmology 2021; 105: 490-495 (IGR: 21-3)


90270 The Relationship Between Corneal Hysteresis and Retinal Ganglion Cells - A Step Forward in Early Glaucoma Diagnosis
Coviltir V
Medical Science Monitor 2020; 26: e924672 (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)


90775 Comparing the Rule of 5 to Trend-based Analysis for Detecting Glaucoma Progression on OCT
Jammal AA
Ophthalmology. Glaucoma 2020; 3: 414-420 (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
European Journal of Ophthalmology 2020; 0: 1120672120957584 (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)


90377 Overhead Mounted Optical Coherence Tomography in Childhood Glaucoma Evaluation
Barman NR
Journal of Glaucoma 2020; 29: 742-749 (IGR: 21-3)


90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Boland MV
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


90132 Fourier analysis of circumpapillary retinal nerve fiber layer thickness in optical coherence tomography for differentiating myopia and glaucoma
Chang YF
Scientific reports 2020; 10: 10509 (IGR: 21-3)


90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Tsamis E
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)


90834 An Evaluation of a New 24-2 Metric for Detecting Early Central Glaucomatous Damage
Thenappan AA
American Journal of Ophthalmology 2020; 223: 119-128 (IGR: 21-3)


90519 Longitudinal Evaluation of the Structural and Functional Changes Associated with Glaucoma in Myopia
Biswas P
Optometry and Vision Science 2020; 97: 448-456 (IGR: 21-3)


90363 Extraction of Retinal Layers Through Convolution Neural Network (CNN) in an OCT Image for Glaucoma Diagnosis
Akram MU
Journal of digital imaging 2020; 33: 1428-1442 (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)


90740 Angular Location of Retinal Nerve Fiber Layer Defect: Association With Myopia and Open-Angle Glaucoma
Lee KM
Investigative Ophthalmology and Visual Science 2020; 61: 13 (IGR: 21-3)


90566 Point-wise correlations between 10-2 Humphrey visual field and OCT data in open angle glaucoma
Maiello G
Eye 2021; 35: 868-876 (IGR: 21-3)


90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Duru Z
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)


89987 Optical coherence tomography angiography in glaucoma
Ritch R
Annals of translational medicine 2020; 8: 1204 (IGR: 21-3)


90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Tun TA
Scientific reports 2020; 10: 14709 (IGR: 21-3)


90374 An Adoptive Threshold-Based Multi-Level Deep Convolutional Neural Network for Glaucoma Eye Disease Detection and Classification
Irfan M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-3)


90646 Optical coherence tomography indices for diagnosis of chronic glaucoma in patients with diabetes mellitus: a pilot study
Raafat KA
International Ophthalmology 2021; 41: 409-420 (IGR: 21-3)


90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Biarnés M
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)


90265 Joint disc and cup segmentation based on recurrent fully convolutional network
Jiang Y
PLoS ONE 2020; 15: e0238983 (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 2020; 0: (IGR: 21-3)


90785 Analysis of retinal nerve fiber layer birefringence in patients with glaucoma and diabetic retinopathy by polarization sensitive OCT
Sedova A
Biomedical optics express 2020; 11: 5488-5505 (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)


90588 Ethnicity-Specific Database Improves the Diagnostic Ability of Peripapillary Retinal Nerve Fiber Layer Thickness to Detect Glaucoma
Mora M
American Journal of Ophthalmology 2021; 221: 311-322 (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)


90802 Improving Visual Field Trend Analysis with OCT and Deeply Regularized Latent-Space Linear Regression
Murata H
Ophthalmology. Glaucoma 2021; 4: 78-88 (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 2020; 0: (IGR: 21-3)


90834 An Evaluation of a New 24-2 Metric for Detecting Early Central Glaucomatous Damage
Tsamis E
American Journal of Ophthalmology 2020; 223: 119-128 (IGR: 21-3)


90591 Optical Coherence Tomography Can Be Used to Assess Glaucomatous Optic Nerve Damage in Most Eyes With High Myopia
Tsamis E
Journal of Glaucoma 2020; 29: 833-845 (IGR: 21-3)


90145 Predicting the Glaucomatous Central 10-Degree Visual Field From Optical Coherence Tomography Using Deep Learning and Tensor Regression
Kiwaki T
American Journal of Ophthalmology 2020; 218: 304-313 (IGR: 21-3)


90212 WGAN domain adaptation for the joint optic disc-and-cup segmentation in fundus images
Xing E
International journal of computer assisted radiology and surgery 2020; 15: 1205-1213 (IGR: 21-3)


89992 Improving the Detection of Glaucoma and Its Progression: A Topographical Approach
Tsamis E
Journal of Glaucoma 2020; 29: 613-621 (IGR: 21-3)


90363 Extraction of Retinal Layers Through Convolution Neural Network (CNN) in an OCT Image for Glaucoma Diagnosis
Shaukat A
Journal of digital imaging 2020; 33: 1428-1442 (IGR: 21-3)


90740 Angular Location of Retinal Nerve Fiber Layer Defect: Association With Myopia and Open-Angle Glaucoma
Kim M
Investigative Ophthalmology and Visual Science 2020; 61: 13 (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)


90578 Determination of retinal nerve fibre layer and ganglion cell/inner plexiform layers progression rates using two optical coherence tomography systems: The PROGRESSA study
Craig J
Clinical and Experimental Ophthalmology 2020; 48: 915-926 (IGR: 21-3)


90059 Development and Validation of a Deep Learning System for Diagnosing Glaucoma Using Optical Coherence Tomography
Song JE
Journal of clinical medicine 2020; 9: (IGR: 21-3)


90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Duru N
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)


90049 Dual-input convolutional neural network for glaucoma diagnosis using spectral-domain optical coherence tomography
Kim YK
British Journal of Ophthalmology 2020; 0: (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)


90775 Comparing the Rule of 5 to Trend-based Analysis for Detecting Glaucoma Progression on OCT
Berchuck SI
Ophthalmology. Glaucoma 2020; 3: 414-420 (IGR: 21-3)


90374 An Adoptive Threshold-Based Multi-Level Deep Convolutional Neural Network for Glaucoma Eye Disease Detection and Classification
Ali T
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Hou H
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Asai T
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)


90669 Different damage patterns of retinal nerve fiber layer and ganglion cell-inner plexiform layer between early glaucoma and non-glaucomatous optic neuropathy
Lian P
International Journal of Ophthalmology 2020; 13: 893-901 (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)


90197 A deep learning approach to predict visual field using optical coherence tomography
Lee J
PLoS ONE 2020; 15: e0234902 (IGR: 21-3)


90132 Fourier analysis of circumpapillary retinal nerve fiber layer thickness in optical coherence tomography for differentiating myopia and glaucoma
Liu CJ
Scientific reports 2020; 10: 10509 (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)


90731 Effect of systemic blood pressure on optical coherence tomography angiography in glaucoma patients
Kim EW
Eye 2020; 0: (IGR: 21-3)


90834 An Evaluation of a New 24-2 Metric for Detecting Early Central Glaucomatous Damage
Tsamis E
American Journal of Ophthalmology 2020; 223: 119-128 (IGR: 21-3)


90591 Optical Coherence Tomography Can Be Used to Assess Glaucomatous Optic Nerve Damage in Most Eyes With High Myopia
Tsamis E
Journal of Glaucoma 2020; 29: 833-845 (IGR: 21-3)


89991 Comparison of Peripapillary Retinal Nerve Fiber Layer Thickness, Functional Subzones, and Macular Ganglion Cell-Inner Plexiform Layer in Differentiating Patients With Mild, Moderate, and Severe Open-angle Glaucoma
Li L
Journal of Glaucoma 2020; 29: 761-766 (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)


90765 Uveitis as a Confounding Factor in Retinal Nerve Fiber Layer Analysis Using Optical Coherence Tomography
Çakır BA
Ocular Immunology and Inflammation 2020; 0: 1-6 (IGR: 21-3)


90317 Effects of axial length on retinal nerve fiber layer and macular ganglion cell-inner plexiform layer measured by spectral-domain OCT
Ribeiro RVP
Arquivos Brasileiros de Oftalmologia 2020; 83: 269-276 (IGR: 21-3)


90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Blasco-Alberto A
British Journal of Ophthalmology 2021; 105: 496-501 (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)


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)


90592 Presumed activated retinal astrocytes and Müller cells in healthy and glaucomatous eyes detected by spectral domain optical coherence tomography
Gast TJ
Ophthalmic and Physiological Optics 2020; 40: 738-751 (IGR: 21-3)


90257 Defining glaucomatous optic neuropathy using objective criteria from structural and functional testing
Jefferys J
British Journal of Ophthalmology 2020; 0: (IGR: 21-3)


90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Zemborain ZZ
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)


90002 A framework for assessing glaucoma progression using structural and functional indices jointly
Racette L
PLoS ONE 2020; 15: e0235255 (IGR: 21-3)


90035 Comparison of Peripapillary Capillary Density in Glaucoma Patients of African and European Descent
Hou H
Ophthalmology. Glaucoma 2021; 4: 51-62 (IGR: 21-3)


89992 Improving the Detection of Glaucoma and Its Progression: A Topographical Approach
Tsamis E
Journal of Glaucoma 2020; 29: 613-621 (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)