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List of abstracts related to

Listed by Classification

6.1.2 Fluctuation, circadian rhythms (919 abstracts found)

94469 Short- and long-term agreement and reproducibility of 48-hours intraocular pressure measurements in glaucoma patients
Zimmermann M
BMC Ophthalmology 2021; 21: 262 (IGR: 22-2)

94619 Comparison of intraocular pressure variability detected by day diurnal variation to that evoked by water drinking
Kadambi SV; Balekudaru S
Indian Journal of Ophthalmology 2021; 69: 1414-1417 (IGR: 22-2)

94469 Short- and long-term agreement and reproducibility of 48-hours intraocular pressure measurements in glaucoma patients
Giers BC; Beck A
BMC Ophthalmology 2021; 21: 262 (IGR: 22-2)

94619 Comparison of intraocular pressure variability detected by day diurnal variation to that evoked by water drinking
Lingam V; George R
Indian Journal of Ophthalmology 2021; 69: 1414-1417 (IGR: 22-2)

94469 Short- and long-term agreement and reproducibility of 48-hours intraocular pressure measurements in glaucoma patients
Bell K; Zimmermann H; Hechtner M; Hoffmann EM; Pfeiffer N; Lorenz K
BMC Ophthalmology 2021; 21: 262 (IGR: 22-2)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Lee J
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Zhai RY
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Fang Z
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Goldberg JL
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Zhang X
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Martínez-Águila A
Biomolecules 2021; 11: (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Yang Z
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

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

92421 The effect of daily life activities on intraocular pressure related variations in open-angle glaucoma
Gillmann K
Scientific reports 2021; 11: 6598 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Xiao H
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Mansouri K
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Wang X
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

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

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Martín-Gil A
Biomolecules 2021; 11: (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Kong XM
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92421 The effect of daily life activities on intraocular pressure related variations in open-angle glaucoma
Weinreb RN
Scientific reports 2021; 11: 6598 (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Jiminez-Roman J
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Ahn EJ
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Liu C
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92421 The effect of daily life activities on intraocular pressure related variations in open-angle glaucoma
Mansouri K
Scientific reports 2021; 11: 6598 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Kim YW
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

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

92331 A new analysis method for 24-hour intraocular pressure data
Han SY
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Carpena-Torres C
Biomolecules 2021; 11: (IGR: 22-1)

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Hernandez-Oteyza A
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Qiu S
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Moghimi S
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

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

92311 Short-term Evaluation of Negative Pressure Applied by the Multi-Pressure Dial System to Lower Nocturnal IOP: A Prospective, Controlled, Intra-subject Study
Quiroz-Mercado H
Ophthalmology and therapy 2021; 10: 349-358 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Ha A
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Pastrana C
Biomolecules 2021; 11: (IGR: 22-1)

92241 Nocturnal Variability of Intraocular Pressure Monitored With Contact Lens Sensor Is Associated With Visual Field Loss in Glaucoma
Weinreb RN
Journal of Glaucoma 2021; 30: e56-e60 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Sun X
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Zhao L
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Xiao M
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Chen Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92525 Influence of Circadian Rhythm in the Eye: Significance of Melatonin in Glaucoma
Carracedo G
Biomolecules 2021; 11: (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Wang J
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92331 A new analysis method for 24-hour intraocular pressure data
Sun XH
Chinese Journal of Ophthalmology 2021; 57: 228-231 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Kim YK
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

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

92798 24-h intraocular pressure patterns measured by Icare PRO rebound in habitual position of open-angle glaucoma eyes
Xiao M
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 2327-2335 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Jeoung JW
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Li H
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

92840 Impact of myopia on the association of long-term intraocular pressure fluctuation with the rate of progression in normal-tension glaucoma
Park KH
British Journal of Ophthalmology 2021; 105: 653-660 (IGR: 22-1)

91926 Comparison of macular structural and vascular changes in neuromyelitis optica spectrum disorder and primary open angle glaucoma: a cross-sectional study
Wang R; Zhu Y; Chen C; Wu X; Lin D; Liu X; Qiu W; Yu-Wai-Man P; Ting DS; Lin H
British Journal of Ophthalmology 2021; 105: 354-360 (IGR: 22-1)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Chen X
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Neroev V
International journal of molecular sciences 2020; 22: (IGR: 21-4)

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

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Yang Y
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Faseeh AE
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Dubey S
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Qin J
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Terauchi R; Ogawa S
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Allam RS
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Wu X
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Wang X
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Ng TK
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Malishevskaya T
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Mittal D
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

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

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Wang L
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Weinert D
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Li M
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Shalash AB
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Noro T
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Lin X
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Mukherjee S
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

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

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Wu N
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Bhoot M
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

91731 Comparison between Latanoprost, Travoprost, and Tafluprost in reducing intraocular pressure fluctuations in patients with glaucoma
Abd Elmohsen MN
European Journal of Ophthalmology 2021; 0: 1120672121990540 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Ito K
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Astakhov S
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Wang J
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91323 Strategies for monitoring 24-hour intraocular pressure curve: 41 cases of prospective clinical study
Ren Z
Journal of Southern Medical University 2021; 41: 107-110 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Kolomeichuk S
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91235 Relationship between nocturnal intraocular pressure-related peak recorded by contact lens sensor and disease progression in treated glaucomatous eyes
Gupta YP
Indian Journal of Ophthalmology 2020; 68: 2427-2433 (IGR: 21-4)

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

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Kato T
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91652 Outcome, influence factor and development of CLS measurement in continuous IOP monitoring: A narrative review
Xu W
Contact Lens and Anterior Eye 2021; 44: 101376 (IGR: 21-4)

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Xiao M
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Tatemichi M
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Cornelissen G
International journal of molecular sciences 2020; 22: (IGR: 21-4)

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

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Sun X
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Kabitskaya Y
International journal of molecular sciences 2020; 22: (IGR: 21-4)

91626 Seasonal Fluctuation in Intraocular Pressure and Retinal Nerve Fiber Layer Thinning in Primary Open-Angle Glaucoma
Nakano T
Ophthalmology. Glaucoma 2021; 4: 373-381 (IGR: 21-4)

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

91576 Association of 24-Hour Intraocular Pressure Fluctuation With Corneal Hysteresis and Axial Length in Untreated Chinese Primary Open-Angle Glaucoma Patients
Chen Y
Translational vision science & technology 2020; 9: 25 (IGR: 21-4)

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

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Boiko E; Nemtsova I
International journal of molecular sciences 2020; 22: (IGR: 21-4)

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

91224 Disruption of 24-Hour Rhythm in Intraocular Pressure Correlates with Retinal Ganglion Cell Loss in Glaucoma
Gubin D
International journal of molecular sciences 2020; 22: (IGR: 21-4)

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)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Waibel S
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90231 Intereye Symmetry of 24-Hour Intraocular Pressure-related Patterns in Untreated Glaucoma Patients Using a Contact Lens Sensor
Mansouri K
Journal of Glaucoma 2020; 29: 666-670 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma
Mansouri K
Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Kuze M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90231 Intereye Symmetry of 24-Hour Intraocular Pressure-related Patterns in Untreated Glaucoma Patients Using a Contact Lens Sensor
Gillmann K
Journal of Glaucoma 2020; 29: 666-670 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma
Rao HL
Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Herber R
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Herber R
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

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)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Ayaki M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Yuki K
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Pillunat LE
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma
Weinreb RN
Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Veiga C
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90680 Comparison of the diurnal efficacy and safety of cyclocryocoagulation and cyclophotocoagulation in patients with refractory glaucoma
Pillunat KR
International Ophthalmology 2020; 40: 2191-2199 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Scarpelli G
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Kawashima M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90455 Short-Term and Long-Term Variability of Intraocular Pressure Measured with an Intraocular Telemetry Sensor in Patients with Glaucoma

Ophthalmology 2021; 128: 227-233 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Uchino M
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Sasso YC
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Tsubota K
Scientific reports 2020; 10: 13949 (IGR: 21-3)

90584 Correlation between retinal nerve fiber layer thickness and IOP variation in glaucoma suspects and patients with primary open-angle glaucoma
Merola RV
European Journal of Ophthalmology 2020; 0: 1120672120957584 (IGR: 21-3)

90069 Seasonal variation of intra-ocular pressure in glaucoma with and without dry eye
Negishi K
Scientific reports 2020; 10: 13949 (IGR: 21-3)

86820 Initial experience in self-monitoring of intraocular pressure
McGarva E
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Carnero E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Xu J
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Wasilewicz R
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86812 Device profile of the EYEMATE-IO™ system for intraocular pressure monitoring: overview of its safety and efficacy
Enders P
Expert Review of Medical Devices 2020; 17: 491-497 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Carnero E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Olatunji OP
Journal of Glaucoma 2020; 29: 498-503 (IGR: 21-2)

86838 Evaluation and treatment of glaucoma 24hours a day. Where are we and where are we going?
Perucho-González L
Archivos de la Sociedad Española de Oftalmologia 2020; 95: 345-352 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Hopf S
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Yang D
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Maeng B
Lab on a chip 2020; 20: 1740-1750 (IGR: 21-2)

86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Otsuka M
International Ophthalmology 2020; 40: 1963-1968 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Jasien JV
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Ikegami K
Investigative Ophthalmology and Visual Science 2020; 61: 26 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Ayaki M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Hui PC
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Shioya S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Shigeyoshi Y
Investigative Ophthalmology and Visual Science 2020; 61: 26 (IGR: 21-2)

86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Hayashi A
International Ophthalmology 2020; 40: 1963-1968 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Farr J
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Negishi K
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86812 Device profile of the EYEMATE-IO™ system for intraocular pressure monitoring: overview of its safety and efficacy
Cursiefen C
Expert Review of Medical Devices 2020; 17: 491-497 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Shtyrkova K
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Varidel T
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86838 Evaluation and treatment of glaucoma 24hours a day. Where are we and where are we going?
García-Feijoó J
Archivos de la Sociedad Española de Oftalmologia 2020; 95: 345-352 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Bragard J
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Liu JHK
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Higashide T
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Chang HK
Lab on a chip 2020; 20: 1740-1750 (IGR: 21-2)

86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Olawoye O
Journal of Glaucoma 2020; 29: 498-503 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Cui T
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Schwantuschke D
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Varidel T
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Samuels BC
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Urrestarazu E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Tsuchiya S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Yuki K
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Pfeiffer N
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Hirtz T
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Zhou C
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Wang N
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Park J
Lab on a chip 2020; 20: 1740-1750 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Simon-Zoula S
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Johnston JM
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Masubuchi S
Investigative Ophthalmology and Visual Science 2020; 61: 26 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Dabasia P
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Ajayi B
Journal of Glaucoma 2020; 29: 498-503 (IGR: 21-2)

86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Tojo N
International Ophthalmology 2020; 40: 1963-1968 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Koenig J
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Chen X
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Schlund M
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Downs JC
Investigative Ophthalmology and Visual Science 2020; 61: 37 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Rivas E
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Qiao Y
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Weinreb RN
American Journal of Ophthalmology 2020; 215: 112-117 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Kawashima M
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Simon-Zoula S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86820 Initial experience in self-monitoring of intraocular pressure
Lawrenson JG; Murdoch IE
European Journal of Ophthalmology 2020; 0: 1120672120920217 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Li X
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Varidel T
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Polo V
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Cerboni S
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Varidel T
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Chodosh J
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Bell K
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Cerboni S
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Uchino M; Tsubota K
Diagnostics (Basel, Switzerland) 2020; 10: (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Cerboni S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Larrosa JM
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Hoffmann EM
International Ophthalmology 2020; 40: 1403-1410 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Cerboni S
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Zhong F
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Mansouri K
British Journal of Ophthalmology 2020; 104: 1519-1523 (IGR: 21-2)

86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Dohlman CH; Paschalis EI
Journal of biophotonics 2020; 13: e202000031 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Mansouri K
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Antón V
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Han X
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Sugiyama K
Acta Ophthalmologica 2020; 98: e1017-e1023 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Peláez A
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Yang Y; Zhang S
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Moreno-Montañés J
PLoS ONE 2020; 15: e0229856 (IGR: 21-2)

86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Ren TL
ACS applied materials & interfaces 2020; 12: 18375-18384 (IGR: 21-2)

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

84480 Circadian Rhythm and Glaucoma: What do We Know?
Ciulla L
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

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

84480 Circadian Rhythm and Glaucoma: What do We Know?
Moorthy M; Mathew S
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

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

84480 Circadian Rhythm and Glaucoma: What do We Know?
Siesky B
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

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

84480 Circadian Rhythm and Glaucoma: What do We Know?
Verticchio Vercellin AC
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

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

84480 Circadian Rhythm and Glaucoma: What do We Know?
Price D; Januleviciene I
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

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

84480 Circadian Rhythm and Glaucoma: What do We Know?
Harris A
Journal of Glaucoma 2020; 29: 127-132 (IGR: 21-1)

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

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Mansouri K
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Bhartiya S
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82714 Correlation between 24-h continuous intraocular pressure measurement with a contact lens sensor and visual field progression
Tojo N
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 175-182 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Bhartiya S
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

81896 Influence of Ocular Dimensional Change on 24-Hour Intraocular Pressure Measurement With Contact Lens Sensor
Tojo N
Journal of Glaucoma 2019; 28: 808-810 (IGR: 20-4)

82469 Diurnal variation of central corneal thickness and intraocular pressure in eyes with pseudoexfoliation
Syed Z
Indian Journal of Ophthalmology 2019; 67: 1607-1609 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Ostrin LA
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82684 Role of 24-Hour Intraocular Pressure Monitoring in Glaucoma Management
Ho CH
Journal of Ophthalmology 2019; 2019: 3632197 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Cheung CY
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Lazkani N
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82684 Role of 24-Hour Intraocular Pressure Monitoring in Glaucoma Management
Wong JKW
Journal of Ophthalmology 2019; 2019: 3632197 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Wadhwani M
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82469 Diurnal variation of central corneal thickness and intraocular pressure in eyes with pseudoexfoliation
Srikanth K
Indian Journal of Ophthalmology 2019; 67: 1607-1609 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Butler J
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Jnawali A
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82714 Correlation between 24-h continuous intraocular pressure measurement with a contact lens sensor and visual field progression
Hayashi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 175-182 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Gangwani M
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Li SL
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Tanna AP
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

81896 Influence of Ocular Dimensional Change on 24-Hour Intraocular Pressure Measurement With Contact Lens Sensor
Hayashi A
Journal of Glaucoma 2019; 28: 808-810 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Rai O
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Kalra RB
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Carkeet A
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Chan PP
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Rickard MJA
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
De Moraes CG
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Rai O
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82469 Diurnal variation of central corneal thickness and intraocular pressure in eyes with pseudoexfoliation
Nagarajan S
Indian Journal of Ophthalmology 2019; 67: 1607-1609 (IGR: 20-4)

82714 Correlation between 24-h continuous intraocular pressure measurement with a contact lens sensor and visual field progression
Otsuka M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 175-182 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Truitt S
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Camp AS
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Aggarwal A
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Chan NCY
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Patuel M
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82060 Twenty-four hour ocular and systemic diurnal rhythms in children
Patel NB
Ophthalmic and Physiological Optics 2019; 39: 358-369 (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Kawaguchi NK
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82645 Review of the measurement and management of 24-hour intraocular pressure in patients with glaucoma
Weinreb RN
Survey of Ophthalmology 2020; 65: 171-186 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Dorairaj S
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Tan S
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Gagrani M
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Man X
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
DeWolf AJ
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Sirish KN
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Sirish KN
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82756 Diurnal Variation of IOP in Angle Closure Disease: Are We Doing Enough?
Sirish KN
Romanian journal of ophthalmology 2019; 63: 208-216 (IGR: 20-4)

82849 24-hour Intraocular pressure monitoring: the way ahead
Sirish KN
Romanian journal of ophthalmology 2019; 63: 315-320 (IGR: 20-4)

82190 Intraocular pressure control and visual field changes in primary angle closure disease: the CUHK PACG Longitudinal (CUPAL) study
Tham CC
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)

82869 Development of a Nanofabricated Sensor for Monitoring Intraocular Pressure via Ocular Tissue Strain
Van Zant CA; Villegas JP; Hassel AR; Park JJ; Jones CF
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4363-4367 (IGR: 20-4)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Karadag R
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Tu S
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Jasien JV
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

80759 Chronotyping glaucoma patients with the Munich ChronoType Questionnaire: A case-control study
Bierings RAJM
PLoS ONE 2019; 14: e0214046 (IGR: 20-3)

80490 Fluctuations of the Intraocular Pressure in Medically Versus Surgically Treated Glaucoma Patients by a Contact Lens Sensor
Muniesa MJ
American Journal of Ophthalmology 2019; 203: 1-11 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Navarrete Argüello J
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

80490 Fluctuations of the Intraocular Pressure in Medically Versus Surgically Treated Glaucoma Patients by a Contact Lens Sensor
Ezpeleta J
American Journal of Ophthalmology 2019; 203: 1-11 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Turner DC
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

80759 Chronotyping glaucoma patients with the Munich ChronoType Questionnaire: A case-control study
Gordijn MCM
PLoS ONE 2019; 14: e0214046 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Li K
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Koyun E
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Bello López Portillo H
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Ozsoy I
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Cantero Vergara MA
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

80490 Fluctuations of the Intraocular Pressure in Medically Versus Surgically Treated Glaucoma Patients by a Contact Lens Sensor
Benítez I
American Journal of Ophthalmology 2019; 203: 1-11 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Girkin CA
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Hu D
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

80759 Chronotyping glaucoma patients with the Munich ChronoType Questionnaire: A case-control study
Jansonius NM
PLoS ONE 2019; 14: e0214046 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Sierra Acevedo GA
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81072 Evaluation of the 24-hour intraocular pressure and systemic blood pressure at the same time
Caliskan M
Journal Français d'Ophtalmologie 2019; 42: 739-745 (IGR: 20-3)

81217 Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry
Downs JC
Current Eye Research 2019; 0: 1-9 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Ruíz Salgado K
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

81419 Posture-Dependent 24-Hour Intraocular Pressure Fluctuation Patterns in an Intraocular Hypertension Monkey Model
Ge J
Translational vision science & technology 2019; 8: 63 (IGR: 20-3)

81397 Intraocular pressure fluctuations in patients implanted with an implantable collamer lens (ICL V4c). Three-month follow-up
Nieto Aguilar MV; Aguilar Pérez MA; Ramos Hernández SY; Zaragoza Herrera A; de la Torre Tovar JD
Archivos de la Sociedad Española de Oftalmologia 2019; 94: 367-376 (IGR: 20-3)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Weinreb RN
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Matlach J
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Cutolo CA; De Moraes CG
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Bacharach J
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Bender S; König J
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Fechtner RD
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Liebmann JM; Mansouri K
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Binder H
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Kahook MY; Wirta D
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Traverso CE
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79568 Investigation of intraocular pressure fluctuation as a risk factor of glaucoma progression
Pfeiffer N; Hoffmann EM
Clinical Ophthalmology 2019; 13: 9-16 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens
Ritch R
Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Burmaster S
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

79993 The Effect of Therapeutic IOP-lowering Interventions on the 24-hour Ocular Dimensional Profile Recorded With a Sensing Contact Lens

Journal of Glaucoma 2019; 28: 252-257 (IGR: 20-2)

79492 24-Hour Intraocular Pressure Control with Fixed-dose Combination Brinzolamide 1%/Brimonidine 0.2%: A Multicenter, Randomized Trial
Meng X; Hubatsch DA
Ophthalmology 2019; 126: 1095-1104 (IGR: 20-2)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Yaoeda K
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Tojo N
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Konstas AG
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Konstas AG
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Seibold LK
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Bennett A
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Fukushima A
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Wagner BD
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Otsuka M
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Kahook MY
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Katsanos A
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Araie M
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Athanasopoulos GP
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Shirakashi M
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Lynch AM
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Agdarov S
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Athanasopoulos GP
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

78851 Comparison of intraocular pressure fluctuation before and after cataract surgeries in normal-tension glaucoma patients
Hayashi A
European Journal of Ophthalmology 2018; 0: 1120672118801163 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Beiderman Y; Beiderman Y
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Voudouragkaki IC
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Katsanos A
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Miki A
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

78946 The Diurnal and Nocturnal Effects of Pilocarpine on Intraocular Pressure in Patients Receiving Prostaglandin Analog Monotherapy
Kahook MY
Journal of Ocular Pharmacology and Therapeutics 2018; 34: 590-595 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Panagiotou ES
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Ozana N
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

78406 Factors associated with fluctuations in repeated measurements of intraocular pressure using the Goldmann applanation tonometer in Japanese patients with primary open-angle glaucoma
Fukuchi T
Clinical Ophthalmology 2018; 12: 1473-1478 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Quaranta L; Rossetti L
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Belkin M
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Pagkalidou E; Haidich AB
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79102 Intraocular pressure remote photonic biomonitoring based on temporally encoded external sound wave stimulation
Zalevsky Z
Journal of biomedical Optics 2018; 23: 1-9 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Holló G
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Giannoulis DA
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Detorakis ET; Oddone F
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Spathi E
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Mikropoulos DG
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

79208 Preservative-free tafluprost/timolol fixed combination: comparative 24-h efficacy administered morning or evening in open-angle glaucoma patients
Giannopoulos T; Katz LJ
Expert Opinion in Pharmacotherapy 2018; 0: 1-8 (IGR: 20-1)

79188 Diurnal and 24-h Intraocular Pressures in Glaucoma: Monitoring Strategies and Impact on Prognosis and Treatment
Dutton GN
Advances in Therapy 2018; 35: 1775-1804 (IGR: 20-1)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Fu L
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Cheung CY
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Martin KR
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Lin Z; Huang S
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Lai JSM
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Li SL
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Mansouri K; Weinreb RN
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Lo ACY
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Huang P
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Chan N; Wong MO
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Wasilewicz R
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Li C
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

78188 Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion
Shih KC
International Journal of Ophthalmology 2018; 11: 1114-1119 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Gisler C
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Chen Z
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Chan PP; Lai I
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Hennebert J
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

78266 Concordance of 24-h intraocular pressure curve in patients with untreated unilateral primary open-angle glaucoma
Zhong Y
Experimental and therapeutic medicine 2018; 16: 1461-1469 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Baig N
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma
Genoud D
American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Tan S
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

78207 Use of Machine Learning on Contact Lens Sensor-Derived Parameters for the Diagnosis of Primary Open-angle Glaucoma

American Journal of Ophthalmology 2018; 194: 46-53 (IGR: 19-4)

77878 Factors Associated With Long-term Intraocular Pressure Fluctuation in Primary Angle Closure Disease: The CUHK PACG Longitudinal (CUPAL) Study
Man X; Tang F; Wang YM; Tham CC
Journal of Glaucoma 2018; 27: 703-710 (IGR: 19-4)

77034 Intraocular Pressure Fluctuation: Is It Important?
Kim JH
Journal of ophthalmic & vision research 2018; 13: 170-174 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
De Moraes CG
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

77110 Ocular coherence tomography-measured changes over time in anterior chamber angle and diurnal intraocular pressure after laser iridotomy: IMPACT study
Zhekov I
Clinical and Experimental Ophthalmology 2018; 0: (IGR: 19-3)

76280 Twenty-four hour intraocular pressure measurements and home tonometry
Meier-Gibbons F
Current Opinions in Ophthalmology 2018; 29: 111-115 (IGR: 19-3)

76600 Low nocturnal diastolic ocular perfusion pressure as a risk factor for NTG progression: a 5-year prospective study
Raman P
Eye 2018; 32: 1183-1189 (IGR: 19-3)

76280 Twenty-four hour intraocular pressure measurements and home tonometry
Berlin MS
Current Opinions in Ophthalmology 2018; 29: 111-115 (IGR: 19-3)

77110 Ocular coherence tomography-measured changes over time in anterior chamber angle and diurnal intraocular pressure after laser iridotomy: IMPACT study
Pardhan S
Clinical and Experimental Ophthalmology 2018; 0: (IGR: 19-3)

77034 Intraocular Pressure Fluctuation: Is It Important?
Caprioli J
Journal of ophthalmic & vision research 2018; 13: 170-174 (IGR: 19-3)

76600 Low nocturnal diastolic ocular perfusion pressure as a risk factor for NTG progression: a 5-year prospective study
Suliman NB
Eye 2018; 32: 1183-1189 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
Mansouri K
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

76280 Twenty-four hour intraocular pressure measurements and home tonometry
Töteberg-Harms M
Current Opinions in Ophthalmology 2018; 29: 111-115 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
Liebmann JM
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

76600 Low nocturnal diastolic ocular perfusion pressure as a risk factor for NTG progression: a 5-year prospective study
Zahari M
Eye 2018; 32: 1183-1189 (IGR: 19-3)

77110 Ocular coherence tomography-measured changes over time in anterior chamber angle and diurnal intraocular pressure after laser iridotomy: IMPACT study
Bourne RR
Clinical and Experimental Ophthalmology 2018; 0: (IGR: 19-3)

76600 Low nocturnal diastolic ocular perfusion pressure as a risk factor for NTG progression: a 5-year prospective study
Kook M
Eye 2018; 32: 1183-1189 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma
Ritch R
JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

76600 Low nocturnal diastolic ocular perfusion pressure as a risk factor for NTG progression: a 5-year prospective study
Ramli N
Eye 2018; 32: 1183-1189 (IGR: 19-3)

77177 Association Between 24-Hour Intraocular Pressure Monitored With Contact Lens Sensor and Visual Field Progression in Older Adults With Glaucoma

JAMA ophthalmology 2018; 136: 779-785 (IGR: 19-3)

75758 Variation in Intraocular Pressure and the Risk of Developing Open-Angle Glaucoma: The Los Angeles Latino Eye Study
Jiang X
American Journal of Ophthalmology 2018; 188: 51-59 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Melgarejo JD; Lee JH
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75758 Variation in Intraocular Pressure and the Risk of Developing Open-Angle Glaucoma: The Los Angeles Latino Eye Study
Torres M
American Journal of Ophthalmology 2018; 188: 51-59 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Petitto M
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75758 Variation in Intraocular Pressure and the Risk of Developing Open-Angle Glaucoma: The Los Angeles Latino Eye Study
Varma R
American Journal of Ophthalmology 2018; 188: 51-59 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Yépez JB
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

75758 Variation in Intraocular Pressure and the Risk of Developing Open-Angle Glaucoma: The Los Angeles Latino Eye Study

American Journal of Ophthalmology 2018; 188: 51-59 (IGR: 19-2)

75672 Glaucomatous Optic Neuropathy Associated with Nocturnal Dip in Blood Pressure: Findings from the Maracaibo Aging Study
Murati FA; Jin Z; Chávez CA; Pirela RV; Calmón GE; Lee W; Johnson MP; Mena LJ; Al-Aswad LA; Terwilliger JD; Allikmets R; Maestre GE; De Moraes CG
Ophthalmology 2018; 125: 807-814 (IGR: 19-2)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Daher F
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Wasielica-Poslednik J
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Tojo N
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
de Crom RMPC
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74607 Clinical study of water drinking test and 24-hour intraocular pressure monitoring in patients with primary open angle glaucoma
Li T; Hao Y
Pakistan journal of pharmaceutical sciences 2017; 30: 1461-1465 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Schmeisser J
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Almeida I
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Abe S
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Webers CAB
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Miyakoshi M
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
van Kooten-Noordzij MAW
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74607 Clinical study of water drinking test and 24-hour intraocular pressure monitoring in patients with primary open angle glaucoma
Zhu Y
Pakistan journal of pharmaceutical sciences 2017; 30: 1461-1465 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Ushida M
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Hoffmann EM; Weyer-Elberich V
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Michiels AC
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Soares B
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74525 Comparison of intraocular pressure fluctuations before and after ab interno trabeculectomy in pseudoexfoliation glaucoma patients
Hayashi A
Clinical Ophthalmology 2017; 11: 1667-1675 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Schouten JSAG
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Dorairaj S
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Bell K
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Berendschot TTJM
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Lorenz K
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Kanadani FN; Paranhos A
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

74213 Intraocular Pressure Fluctuations and 24-Hour Continuous Monitoring for Glaucoma Risk in Wind Instrument Players
Beckers HJM
Journal of Glaucoma 2017; 26: 923-928 (IGR: 19-1)

74518 Fluctuation of intraocular pressure in glaucoma patients before and after trabeculectomy with mitomycin C
Pfeiffer N
PLoS ONE 2017; 12: e0185246 (IGR: 19-1)

74680 Intraocular Pressure Spikes within First Postoperative Hours following Standard Trabeculectomy: Incidence and Associated Factors
Gracitelli CPB; Prata TS
Ophthalmic Research 2018; 59: 142-147 (IGR: 19-1)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Chun YS
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Beltran-Agulló L
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

72642 Monitoring daily intraocular pressure fluctuations with self-tonometry in healthy subjects
Quérat L
Acta Ophthalmologica 2017; 95: 525-529 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Itoh Y
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Tan S
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

73074 The Sensimed Triggerfish contact lens sensor: efficacy, safety, and patient perspectives
Dunbar GE
Clinical Ophthalmology 2017; 11: 875-882 (IGR: 18-4)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Baig N
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

72642 Monitoring daily intraocular pressure fluctuations with self-tonometry in healthy subjects
Chen E
Acta Ophthalmologica 2017; 95: 525-529 (IGR: 18-4)

73074 The Sensimed Triggerfish contact lens sensor: efficacy, safety, and patient perspectives
Shen BY
Clinical Ophthalmology 2017; 11: 875-882 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Park IK
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Nakamoto K
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Buys YM
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73074 The Sensimed Triggerfish contact lens sensor: efficacy, safety, and patient perspectives
Aref AA
Clinical Ophthalmology 2017; 11: 875-882 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Horiguchi H
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Shin KU
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Hansapinyo L
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Jahan F
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Ogawa S
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Jhanji V
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

72758 Long-term Reliability of Diurnal Intraocular Pressure Patterns in Healthy Asians
Kim JM
Korean Journal of Ophthalmology 2017; 31: 132-137 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Shapiro CM
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Noro T
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Flanagan JG
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Wei S
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Cheng J
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Sato M
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

72705 Comparison of self-measured diurnal intraocular pressure profiles using rebound tonometry between primary angle closure glaucoma and primary open angle glaucoma patients
Tham CC
PLoS ONE 2017; 12: e0173905 (IGR: 18-4)

72600 Twenty-four hour intraocular pressure monitoring with the SENSIMED Triggerfish contact lens: effect of body posture during sleep
Trope GE
British Journal of Ophthalmology 2017; 101: 1323-1328 (IGR: 18-4)

73171 Twenty-Four-Hour Variation of Intraocular Pressure in Primary Open-Angle Glaucoma Treated with Triple Eye Drops
Nakano T; Tsuneoka H; Yasuda N
Journal of Ophthalmology 2017; 2017: 4398494 (IGR: 18-4)

71636 Exploration on the 24 hour intraocular pressure fluctuation in glaucoma patients
Yuan HP
Chinese Journal of Ophthalmology 2017; 53: 85-88 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Hoban K
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71469 The effects of selective laser trabeculoplasty and travoprost on circadian intraocular pressure fluctuations: A randomized clinical trial
Kiddee W
Medicine 2017; 96: e6047 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Mogil RS
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
Seibold LK
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Peden R
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
DeWitt PE
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71469 The effects of selective laser trabeculoplasty and travoprost on circadian intraocular pressure fluctuations: A randomized clinical trial
Atthavuttisilp S
Medicine 2017; 96: e6047 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Lee JM
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71636 Exploration on the 24 hour intraocular pressure fluctuation in glaucoma patients
Song WL
Chinese Journal of Ophthalmology 2017; 53: 85-88 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Tirsi A
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
Kroehl ME
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Megaw R
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71359 The 24-Hour Effects of Brinzolamide/Brimonidine Fixed Combination and Timolol on Intraocular Pressure and Ocular Perfusion Pressure
Kahook MY
Journal of Ocular Pharmacology and Therapeutics 2017; 33: 161-169 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Tello C
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Halpin P
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

71195 Iridocorneal Endothelial Syndrome Presenting With Large Diurnal Intraocular Pressure Fluctuation
Park SC
Journal of Glaucoma 2017; 26: e99-e100 (IGR: 18-3)

71462 24-Hour Contact Lens Sensor Monitoring of Intraocular Pressure-Related Profiles in Normal-Tension Glaucoma and Rates of Disease Progression
Tatham AJ
Ophthalmic Research 2017; 57: 208-215 (IGR: 18-3)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Aptel F
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Ittoop SM
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70692 Temporal ocular coherence tomography-measured changes in anterior chamber angle and diurnal intraocular pressure after laser iridoplasty: IMPACT study
Bourne RR
British Journal of Ophthalmology 2017; 101: 886-891 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Kim SH
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Miller S
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70483 The importance of and potential for continuous monitoring of intraocular pressure
McMonnies CW
Clinical and Experimental Optometry 2017; 100: 203-207 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Moon Y
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Poon YC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Gao Y
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Tojo N
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Musson C
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Abe S
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Leishman E
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Soohoo JR
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Wan B
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Teng MC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Lee EJ
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70692 Temporal ocular coherence tomography-measured changes in anterior chamber angle and diurnal intraocular pressure after laser iridoplasty: IMPACT study
Zhekov I
British Journal of Ophthalmology 2017; 101: 886-891 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Kwon J
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Lin PW
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Han JC
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70692 Temporal ocular coherence tomography-measured changes in anterior chamber angle and diurnal intraocular pressure after laser iridoplasty: IMPACT study
Pardhan S
British Journal of Ophthalmology 2017; 101: 886-891 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Jeong DW
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Seibold LK
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Miyakoshi M
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Oehler O
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Zhou T
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Li P
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Mansouri K
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Zhang Y
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Lesoin A
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70205 Correlation between short-term and long-term intraocular pressure fluctuation in glaucoma patients
Hayashi A
Clinical Ophthalmology 2016; 10: 1713-1717 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Sohn SW
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Daily L
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Tsai JC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Lee JY
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70027 Short-term reproducibility of intraocular pressure and ocular perfusion pressure measurements in Chinese volunteers and glaucoma patients
Tang X
BMC Ophthalmology 2016; 16: 145 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Lee JR
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70759 24-Hour Intraocular Pressure Rhythm in Patients With Untreated Primary Open Angle Glaucoma and Effects of Selective Laser Trabeculoplasty
Chiquet C
Journal of Glaucoma 2017; 26: 272-277 (IGR: 18-2)

70897 Intraocular pressure fluctuation after water drinking test in primary angle-closure glaucoma and primary open-angle glaucoma
Lai IC
Indian Journal of Ophthalmology 2016; 64: 919-923 (IGR: 18-2)

70004 Systematic Review of Current Devices for 24-h Intraocular Pressure Monitoring
Kahook MY
Advances in Therapy 2016; 33: 1679-1690 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Rhee T
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Murataeva N
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70416 The Effect of Diurnal Fluctuation in Intraocular Pressure on the Evaluation of Risk Factors of Progression in Normal Tension Glaucoma
Kee C
PLoS ONE 2016; 11: e0164876 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Wager-Miller J
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

70741 Circadian Patterns of Intraocular Pressure Fluctuation among Normal-Tension Glaucoma Optic Disc Phenotypes
Han S; Kook MS
PLoS ONE 2016; 11: e0168030 (IGR: 18-2)

70622 Evidence for a GPR18 Role in Diurnal Regulation of Intraocular Pressure
Bradshaw H; Straiker A
Investigative Ophthalmology and Visual Science 2016; 57: 6419-6426 (IGR: 18-2)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Kanadani FN
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69073 Factors Influencing the Placebo Effect in Patients with Primary Open-Angle Glaucoma or Ocular Hypertension: An Analysis of Two Randomized Clinical Trials
Kawamura T
PLoS ONE 2016; 11: e0156706 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Aptel F
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Mariacher S
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69462 The Application of a Contact Lens Sensor in Detecting 24-Hour Intraocular Pressure-Related Patterns
Xu SC
Journal of Ophthalmology 2016; 2016: 4727423 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Quaranta L
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Gao Y
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Lee NY
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69026 Self-tonometry as a complement in the investigation of glaucoma patients
Chen E
Acta Ophthalmologica 2016; 94: 788-792 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Marjanović I
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Katsanos A
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Weinreb RN
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Li W
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69026 Self-tonometry as a complement in the investigation of glaucoma patients
Quérat L
Acta Ophthalmologica 2016; 94: 788-792 (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Park HY
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69073 Factors Influencing the Placebo Effect in Patients with Primary Open-Angle Glaucoma or Ocular Hypertension: An Analysis of Two Randomized Clinical Trials
Sato I
PLoS ONE 2016; 11: e0156706 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Marjanović M
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Ebner M
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69462 The Application of a Contact Lens Sensor in Detecting 24-Hour Intraocular Pressure-Related Patterns
Gauthier AC
Journal of Ophthalmology 2016; 2016: 4727423 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Moreira T
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69462 The Application of a Contact Lens Sensor in Detecting 24-Hour Intraocular Pressure-Related Patterns
Liu J
Journal of Ophthalmology 2016; 2016: 4727423 (IGR: 18-1)

69176 Effects of a dorzolamide/timolol fixed combination on diurnal intraocular pressure, heart rate, blood pressure, and ocular perfusion pressure in normal-tension glaucoma
Park CK
Japanese Journal of Ophthalmology 2016; 60: 377-382 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Januschowski K
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Bezerra B
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Yin Z
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Martinez A
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Chiquet C
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69026 Self-tonometry as a complement in the investigation of glaucoma patients
Ã…kerstedt C
Acta Ophthalmologica 2016; 94: 788-792 (IGR: 18-1)

69073 Factors Influencing the Placebo Effect in Patients with Primary Open-Angle Glaucoma or Ocular Hypertension: An Analysis of Two Randomized Clinical Trials
Kawakami K
PLoS ONE 2016; 11: e0156706 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Riva I
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Ma Y
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Marković V
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Dastiridou A
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Vianello MP
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69428 24-h monitoring devices and nyctohemeral rhythms of intraocular pressure
Mansouri K
Progress in Retinal and Eye Research 2016; 55: 108-148 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Hurst J
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Corradi J
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Cai H
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Božić M
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Oddone F
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Schnichels S
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69209 Relationship between blood pressure and retrobulbar blood flow in dipper and nondipper primary open-angle glaucoma patients
Stojanov V
European Journal of Ophthalmology 2016; 0: 0 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Roberti G
Eye 2016; 30: 1481-1489 (IGR: 18-1)

69008 Association between Genetic Polymorphisms of the Beta Adrenergic Receptor and Diurnal Intraocular Pressure in Chinese Volunteers and Glaucoma Patients
Tang X
Current Eye Research 2016; 0: 1-8 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Dorairaj SK
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69389 Investigation of a novel implantable suprachoroidal pressure transducer for telemetric intraocular pressure monitoring
Szurman P
Experimental Eye Research 2016; 151: 54-60 (IGR: 18-1)

69041 Diurnal Curve of the Ocular Perfusion Pressure
Prata TS
Journal of Current Glaucoma Practice 2016; 10: 4-6 (IGR: 18-1)

69418 Twenty-four-hour intraocular pressure and ocular perfusion pressure characteristics in newly diagnosed patients with normal tension glaucoma
Konstas AG
Eye 2016; 30: 1481-1489 (IGR: 18-1)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Cheng J
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

66660 Detecting IOP Fluctuations in Glaucoma Patients
Nuyen B
Open Ophthalmology Journal 2016; 10: 44-55 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Rekas M
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Shinmei Y
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Konstas AG
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Kong X
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Nitta T
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Danielewska ME
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66660 Detecting IOP Fluctuations in Glaucoma Patients
Mansouri K
Open Ophthalmology Journal 2016; 10: 44-55 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Quaranta L
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Byszewska A
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Saito H
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Xiao M
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Bozkurt B; Katsanos A
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

66838 Twenty-four-hour pattern of intra-ocular pressure in untreated patients with primary open-angle glaucoma
Sun X
Acta Ophthalmologica 2016; 94: e460-e467 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Ohguchi T
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Petz K
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Kijima R
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Garcia-Feijoo J
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Wierzbowska J
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Rossetti L
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Chin S
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Wierzbowski R
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Shaarawy T
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

67426 Continuous Intraocular Pressure Monitoring During Nocturnal Sleep in Patients With Obstructive Sleep Apnea Syndrome
Ishida S
Investigative Ophthalmology and Visual Science 2016; 57: 2824-2830 (IGR: 17-4)

67452 Assessing Efficacy of Canaloplasty Using Continuous 24-Hour Monitoring of Ocular Dimensional Changes
Iskander DR
Investigative Ophthalmology and Visual Science 2016; 57: 2533-2542 (IGR: 17-4)

66744 24-h Efficacy of Glaucoma Treatment Options
Pfeiffer N; Miglior S
Advances in Therapy 2016; 33: 481-517 (IGR: 17-4)

66216 Personalizing Intraocular Pressure: Target Intraocular Pressure in the Setting of 24-Hour Intraocular Pressure Monitoring
Sit AJ
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 17-22 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Liang YB
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Srinivasan S
Eye 2016; 30: 362-368 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Wang NL
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Colombo L
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Donida A
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Ansari-Mood M
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
De Moraes CG
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Zhou Q
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Hao J
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Di Dato G
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Mehdi-Rajaei S
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Fogagnolo P
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Choudhari NS
Eye 2016; 30: 362-368 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Jasien JV
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66216 Personalizing Intraocular Pressure: Target Intraocular Pressure in the Setting of 24-Hour Intraocular Pressure Monitoring
Pruet CM
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 17-22 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Montesano G
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Sadjadi R
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Cunzolo P
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Simon-Zoula S
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Baskaran M
Eye 2016; 30: 362-368 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Friedman DS
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Zhen Y
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Sala M
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
George RJ
Eye 2016; 30: 362-368 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Liebmann JM
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
De Cillà S
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Guo LX
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Liu JH
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Selk-Ghaffari M
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Piffaretti F
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66245 Twenty-four-Hour Measurement of Intraocular Pressure in Guinea Pigs (Cavia porcellus)
Williams DL
Journal of the American Association for Laboratory Animal Science : JAALAS 2016; 55: 95-97 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Orzalesi N
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Li SZ
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66229 Visual Field Change and 24-Hour IOP-Related Profile with a Contact Lens Sensor in Treated Glaucoma Patients
Ritch R
Ophthalmology 2016; 123: 744-753 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Sun LP
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Shantha B
Eye 2016; 30: 362-368 (IGR: 17-3)

66517 Strategies to estimate the characteristics of 24-hour IOP curves of treated glaucoma patients during office hours
Rossetti L
BMC Ophthalmology 2016; 16: 15 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Zong QF
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Orsatti P
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Wang H
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

65930 Diurnal intraocular pressure fluctuation and its risk factors in angle-closure and open-angle glaucoma
Vijaya L
Eye 2016; 30: 362-368 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Yang XD
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Chen H
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

65786 A Circadian and Cardiac Intraocular Pressure Sensor for Smart Implantable Lens
Barrettino D
IEEE transactions on biomedical circuits and systems 2015; 9: 777-789 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Peng XX
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

66576 A Population-Based Assessment of 24-Hour Ocular Perfusion Pressure Among Patients With Primary Open Angle Glaucoma: The Handan Eye Study
Wang NL
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 127-132 (IGR: 17-3)

66385 A Population-based Investigation of Circadian Rhythm of Intraocular Pressure in Habitual Position Among Healthy Subjects: The Handan Eye Study
Han W; Fan SJ; Weinreb RN
Journal of Glaucoma 2016; 25: 584-589 (IGR: 17-3)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Pillunat KR
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Panagiotou ES
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Moon Y
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61603 Effect of glaucoma medications on 24-h intraocular pressure-related patterns using a contact lens sensor
Mansouri K
Clinical and Experimental Ophthalmology 2015; 43: 787-795 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Tan S
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Tojo N
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

61386 Estimation of 24-Hour Intraocular Pressure Peak Timing and Variation Using a Contact Lens Sensor
Liu JH
PLoS ONE 2015; 10: e0129529 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim YW
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61162 Efficacy of a contact lens sensor for monitoring 24-h intraocular pressure related patterns
Mansouri K
PLoS ONE 2015; 10: e0125530 (IGR: 17-1)

60960 Twenty-four hour pattern of intraocular pressure and ocular perfusion pressure in night shift workers
Kara N
Seminars in Ophthalmology 2015; 30: 188-192 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Hayashi A
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Spoerl E
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim MJ
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61386 Estimation of 24-Hour Intraocular Pressure Peak Timing and Variation Using a Contact Lens Sensor
Mansouri K
PLoS ONE 2015; 10: e0129529 (IGR: 17-1)

61162 Efficacy of a contact lens sensor for monitoring 24-h intraocular pressure related patterns
Weinreb RN
PLoS ONE 2015; 10: e0125530 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Yu M
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Liakopoulos V
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

60960 Twenty-four hour pattern of intraocular pressure and ocular perfusion pressure in night shift workers
Yilmaz T
Seminars in Ophthalmology 2015; 30: 188-192 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Lee JY
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61603 Effect of glaucoma medications on 24-h intraocular pressure-related patterns using a contact lens sensor
Medeiros FA
Clinical and Experimental Ophthalmology 2015; 43: 787-795 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Baig N
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Giannopoulos T
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61162 Efficacy of a contact lens sensor for monitoring 24-h intraocular pressure related patterns
Liu JH
PLoS ONE 2015; 10: e0125530 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Otsuka M
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Park KH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Jasper C
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61603 Effect of glaucoma medications on 24-h intraocular pressure-related patterns using a contact lens sensor
Weinreb RN
Clinical and Experimental Ophthalmology 2015; 43: 787-795 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Jeong da W
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61386 Estimation of 24-Hour Intraocular Pressure Peak Timing and Variation Using a Contact Lens Sensor
Weinreb RN
PLoS ONE 2015; 10: e0129529 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Furashova O
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Kim S
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Voudouragkaki IC
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Jeoung JW
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Chan PP
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61400 Fluctuations of the Intraocular Pressure in Pseudoexfoliation Syndrome and Normal Eyes Measured by a Contact Lens Sensor
Miyakoshi A
Journal of Glaucoma 2016; 25: e463-e468 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Tang FY
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Demirtzi P
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Hermann C
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Han S
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim SH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61479 Relationship Between Nocturnal Intraocular Pressure Elevation and Diurnal Intraocular Pressure Level in Normal-Tension Glaucoma Patients
Kook MS
Investigative Ophthalmology and Visual Science 2015; 56: 5271-5279 (IGR: 17-1)

61262 Circadian Intraocular Pressure Fluctuation and Disease Progression in Primary Angle Closure Glaucoma
Tham CC
Investigative Ophthalmology and Visual Science 2015; 56: 4994-5005 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Jang CI
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Borrmann A
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Paschalinou E; Nikitidou O
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Lee SH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Passauer J; Middeke M
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kim JH
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Kapis PV
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Lee S
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

61584 Twenty-four-hour intraocular pressure monitoring in normotensive patients undergoing chronic hemodialysis
Konstas AG
European Journal of Ophthalmology 2015; 0: 0 (IGR: 17-1)

61757 Nocturnal blood pressure in primary open-angle glaucoma
Pillunat LE
Acta Ophthalmologica 2015; 93: e621-e626 (IGR: 17-1)

61608 Preliminary study on implantable inductive-type sensor for continuous monitoring of intraocular pressure
Kang JY
Clinical and Experimental Ophthalmology 2015; 43: 830-837 (IGR: 17-1)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Lee JW
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60822 Distribution of peak intraocular pressure in 24-hour and correlation between peak nocturnal intraocular pressure with diurnal intraocular pressure level in primary open angle glaucoma patients
Cheng J
Chinese Journal of Ophthalmology 2015; 51: 103-108 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Gye HJ
Optometry and Vision Science 2014; 0: (IGR: 16-4)

59985 Intraocular pressure variations: causes and clinical significance
Sit AJ
Canadian Journal of Ophthalmology 2014; 49: 484-488 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Gisler C
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Lee JW
Medicine 2014; 93: e238 (IGR: 16-4)

60688 Circadian rhythm of intraocular pressure in the adult rat
Lozano DC
Chronobiology International 2015; 0: 1-11 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Ridi A
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60688 Circadian rhythm of intraocular pressure in the adult rat
Hartwick AT
Chronobiology International 2015; 0: 1-11 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Fu L
Medicine 2014; 93: e238 (IGR: 16-4)

60822 Distribution of peak intraocular pressure in 24-hour and correlation between peak nocturnal intraocular pressure with diurnal intraocular pressure level in primary open angle glaucoma patients
Sun X
Chinese Journal of Ophthalmology 2015; 51: 103-108 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Shim SH
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Fu L
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Chan JC
Medicine 2014; 93: e238 (IGR: 16-4)

60688 Circadian rhythm of intraocular pressure in the adult rat
Twa MD
Chronobiology International 2015; 0: 1-11 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Kim JM
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Hennebert J
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Shum JW
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Weinreb RN
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60107 Twenty-four-hour intraocular pressure related changes following adjuvant selective laser trabeculoplasty for normal tension glaucoma
Lai JS
Medicine 2014; 93: e238 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Bae JH
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Chan JCH
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Choi CY
Optometry and Vision Science 2014; 0: (IGR: 16-4)

60465 Continuous 24-hour ocular dimensional profile recording in medically treated normal-tension glaucoma
Lai JS
Clinical Ophthalmology 2015; 9: 197-202 (IGR: 16-4)

60367 Automated Detection and Quantification of Circadian Eye Blinks Using a Contact Lens Sensor
Mansouri K
Translational vision science & technology 2015; 4: 4 (IGR: 16-4)

60195 Effect of Axial Length on Diurnal IOP in Cataract Patients without Glaucoma
Kim CY; Park KH
Optometry and Vision Science 2014; 0: (IGR: 16-4)

58780 Soft wearable contact lens sensor for continuous intraocular pressure monitoring
Chen GZ; Chan IS; Leung LK; Lam DC
Medical Engineering and Physics 2014; 36: 1134-1139 (IGR: 16-3)

59076 An examination of the hypothesis that intraocular pressure elevation episodes can have prognostic significance in glaucoma suspects
McMonnies C
Journal of optometry 2015; 8: 223-231 (IGR: 16-3)

59135 Optimal Sampling Scheme for Estimation of Intraocular Pressure Diurnal Curves in Glaucoma Trials
Durairaj C
Clinical Pharmacokinetics 2015; 54: 95-105 (IGR: 16-3)

59651 Intraocular pressure fluctuation in healthy and glaucomatous eyes: a comparative analysis between diurnal curves in supine and sitting positions and the water drinking test
Caiado RR; Badaró E; Kasahara N
Arquivos Brasileiros de Oftalmologia 2014; 77: 288-292 (IGR: 16-3)

58964 Alterations of intraocular pressure in comparison of self- and external-administered topical antiglaucomatosa during diurnal intraocular pressure measurements
Böhm MR; Lill TM; Eter N; Prokosch-Willing V
Klinische Monatsblätter für Augenheilkunde 2014; 231: 810-817 (IGR: 16-3)

58958 Twenty-four-hour intraocular pressure patterns in patients with thyroid eye disease
Parekh AS; Mansouri K; Weinreb RN; Tafreshi A; Korn BS; Kikkawa DO
Clinical and Experimental Ophthalmology 2015; 43: 108-114 (IGR: 16-3)

59528 Twenty-four-hour intraocular pressure patterns in a symptomatic patient after ab interno trabeculotomy surgery
Mansouri K; Medeiros FA; Weinreb RN
Clinical Ophthalmology 2014; 8: 2195-2197 (IGR: 16-3)

58616 Single vs multiple intraocular pressure measurements in glaucoma surgical trials
Zhang ML; Chon BH; Wang J; Smits G; Lin SC; Ianchulev T; Jampel HD
JAMA ophthalmology 2014; 132: 956-962 (IGR: 16-3)

59459 Instability of 24-hour intraocular pressure fluctuation in healthy young subjects: a prospective, cross-sectional study
Song YK; Lee CK; Kim J; Hong S; Kim CY; Seong GJ
BMC Ophthalmology 2014; 14: 127 (IGR: 16-3)

59560 Correlation of intraocular pressure variation after visual field examination with 24-hour intraocular pressure variations in primary open-angle glaucoma
Noro T; Nakamoto K; Sato M; Yasuda N; Ito Y; Ogawa S; Nakano T; Tsuneoka H
Nippon Ganka Gakkai Zasshi 2014; 118: 831-837 (IGR: 16-3)

59370 Asymmetry of habitual 24-hour intraocular pressure rhythm in glaucoma patients
Liu JH; Weinreb RN
Investigative Ophthalmology and Visual Science 2014; 55: 7398-7402 (IGR: 16-3)

59346 Longitudinal stability of the diurnal rhythm of intraocular pressure in subjects with healthy eyes, ocular hypertension and pigment dispersion syndrome
Huchzermeyer C; Reulbach U; Horn F; Lämmer R; Mardin CY; Jünemann AG
BMC Ophthalmology 2014; 14: 122 (IGR: 16-3)

59648 Diurnal variation in central corneal thickness and intraocular pressure in eyes with pseudoexfoliation syndrome without glaucoma
Keel S; Malesic L; Chan SP
Indian Journal of Ophthalmology 2014; 62: 1072-1076 (IGR: 16-3)

59337 Short-term fluctuation of intraocular pressure is higher in patients with pseudoexfoliation syndrome despite similar mean intraocular pressure: a retrospective case-control study
Huchzermeyer C; Horn F; Lämmer R; Mardin CY; Jünemann AG
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 107-114 (IGR: 16-3)

59577 Late-day intraocular pressure-lowering efficacy and tolerability of travoprost 0.004% versus bimatoprost 0.01% in patients with open-angle glaucoma or ocular hypertension: a randomized trial
Dubiner HB; Hubatsch DA
BMC Ophthalmology 2014; 14: 151 (IGR: 16-3)

57330 An overview of home tonometry and telemetry for intraocular pressure monitoring in humans
Yung E; Trubnik V; Katz LJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1179-1188 (IGR: 16-2)

57418 Long-Term Reproducibility of Diurnal Intraocular Pressure Patterns in Patients with Glaucoma
Aptel F; Lesoin A; Chiquet C; Aryal-Charles N; Noel C; Romanet JP
Ophthalmology 2014; 121: 1998-2003 (IGR: 16-2)

56888 Circadian pattern of intraocular pressure fluctuations in young myopic eyes with open-angle glaucoma
Jeong da W; Kook MS; Lee KS; Lee JR; Han S
Investigative Ophthalmology and Visual Science 2014; 55: 2148-2156 (IGR: 16-2)

57023 Circadian intraocular pressure patterns in healthy subjects, primary open angle and normal tension glaucoma patients with a contact lens sensor
Agnifili L; Mastropasqua R; Frezzotti P; Fasanella V; Motolese I; Pedrotti E; Iorio AD; Mattei PA; Motolese E; Mastropasqua L
Acta Ophthalmologica 2015; 93: e14-e21 (IGR: 16-2)

57262 Improvement of fluctuations of intraocular pressure after cataract surgery in primary angle closure glaucoma patients
Tojo N; Otsuka M; Miyakoshi A; Fujita K; Hayashi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 1463-1468 (IGR: 16-2)

57108 Four Measures of Intraocular Pressure Fluctuation: Which Correlates Most Optimally With Actual Office-hour Readings?
Huang R; Ge J; Chen G; Gao X; Laties AM; Zhang X
Journal of Glaucoma 2015; 24: 550-555 (IGR: 16-2)

57524 New perspectives on target intraocular pressure
Clement CI; Bhartiya S; Shaarawy T
Survey of Ophthalmology 2014; 59: 615-626 (IGR: 16-2)

57380 Functional analysis of glaucoma data
Hosseini-Nasab M; Mirzaei K Z
Statistics in Medicine 2014; 33: 2077-2102 (IGR: 16-2)

57126 Long-term 24-hour Intraocular Pressure Control With Travoprost Monotherapy in Patients With Primary Open-angle Glaucoma
Riva I; Katsanos A; Floriani I; Biagioli E; Konstas AG; Centofanti M; Quaranta L
Journal of Glaucoma 2014; 23: 535-540 (IGR: 16-2)

56120 Dynamics, alterations, and consequences of minimally invasive intraocular pressure elevation in rats
Gramlich OW; Lueckner TC; Kriechbaum M; Teister J; Tao X; von Pein HD; Pfeiffer N; Grus FH
Investigative Ophthalmology and Visual Science 2014; 55: 600-611 (IGR: 16-1)

56436 Intraocular pressure fluctuation and glaucoma progression: what do we know?
Leidl MC; Choi CJ; Syed ZA; Melki SA
British Journal of Ophthalmology 2014; 98: 1315-1319 (IGR: 16-1)

55430 Effects of several anti-glaucoma medications on the circadian intraocular pressure fluctuations in patients with primary open-angle glaucoma
Tanaka S; Watanabe M; Inatomi S; Umeda K; Yoshida K; Ohguro I; Ohguro H
Journal of Ocular Pharmacology and Therapeutics 2014; 30: 12-20 (IGR: 15-4)

55392 Comparison of Fluctuations of Intraocular Pressure Before and After Selective Laser Trabeculoplasty in Normal-tension Glaucoma Patients
Tojo N; Oka M; Miyakoshi A; Ozaki H; Hayashi A
Journal of Glaucoma 2014; 23: e138-e143 (IGR: 15-4)

55207 Pattern of intraocular pressure fluctuation in uveitic eyes treated with corticosteroids
Shrestha S; Thapa M; Shah DN
Ocular Immunology and Inflammation 2014; 22: 110-115 (IGR: 15-4)

54445 Presentation of software for collation of inpatient diurnal pressure profiles in glaucoma patients
Christmann S; Leisser C; Schrage N
Ophthalmologe 2014; 111: 135-143 (IGR: 15-3)

54376 Intraocular pressure change over a habitual 24-hour period after changing posture or drinking water and related factors in normal tension glaucoma
Sakata R; Aihara M; Murata H; Saito H; Iwase A; Yasuda N; Araie M
Investigative Ophthalmology and Visual Science 2013; 54: 5313-5320 (IGR: 15-3)

54602 Relationship between 24-hour mean ocular perfusion pressure fluctuation and rate of paracentral visual field progression in normal-tension glaucoma
Choi J; Lee JR; Lee Y; Lee KS; Na JH; Han S; Kook MS
Investigative Ophthalmology and Visual Science 2013; 54: 6150-6157 (IGR: 15-3)

53589 The dark phase intraocular pressure elevation and retinal ganglion cell degeneration in a rat model of experimental glaucoma
Kwong JM; Vo N; Quan A; Nam M; Kyung H; Yu F; Piri N; Caprioli J
Experimental Eye Research 2013; 112: 21-28 (IGR: 15-2)

53767 Is 24-hour intraocular pressure monitoring necessary in glaucoma?
Mansouri K; Weinreb RN; Medeiros FA
Seminars in Ophthalmology 2013; 28: 157-164 (IGR: 15-2)

53959 Short- and Long-Term Phasing of Intraocular Pressure in Stable and Progressive Glaucoma
Fogagnolo P; Orzalesi N; Centofanti M; Oddone F; Manni G; Rossetti L
Ophthalmologica 2013; 0: (IGR: 15-2)

53962 Ocular pulse amplitude as a dynamic parameter and its relationship with 24-h intraocular pressure and blood pressure in glaucoma
Kim YJ; Lee KS; Lee JR; Na JH; Choi J; Han S; Kook MS
Experimental Eye Research 2013; 115: 65-72 (IGR: 15-2)

53747 Daytime fluctuation of intraocular pressure in patients with primary angle-closure glaucoma after trabeculectomy
Liang YB; Xie C; Meng HL; Feng MY; Fan SJ; Liu LR; Xie LL; Chao J; Wang X; Wang NL; Thomas R
Journal of Glaucoma 2013; 22: 349-354 (IGR: 15-2)

53713 Lower Limits of Intraocular Pressure in Glaucoma Clinical Trials
Stewart WC; Limtong AC; Magrath GN; Rembold JC; Nelson LA; Stewart JA
Journal of Glaucoma 2014; 23: e105-e107 (IGR: 15-2)

52883 Tolerability of 24-hour intraocular pressure monitoring of a pressure-sensitive contact lens
Lorenz K; Korb C; Herzog N; Vetter JM; Elflein H; Keilani MM; Pfeiffer N
Journal of Glaucoma 2013; 22: 311-316 (IGR: 15-1)

53015 Twenty-four-hour pattern of intraocular pressure in untreated patients with ocular hypertension
Grippo TM; Liu JH; Zebardast N; Arnold TB; Moore GH; Weinreb RN
Investigative Ophthalmology and Visual Science 2013; 54: 512-517 (IGR: 15-1)

52599 Switching prostaglandin analogues and 24-hour iop fluctuations
Gil-Carrasco F; Turati-Acosta M; Albis-Donado O; Bello-López-Portillo H; Sánchez-Noguera C; Soto-Ortiz K
Archivos de la Sociedad Española de Oftalmologia 2013; 88: 130-133 (IGR: 15-1)

52407 Are diurnal and nocturnal intraocular pressure measurements over 48 h justified?
Fischer N; Weinand F; Kügler MU; Scheel S; Lorenz B
Ophthalmologe 2013; 110: 755-758, 760 (IGR: 15-1)

51907 24-hour intraocular pressure and ocular perfusion pressure in glaucoma
Quaranta L; Katsanos A; Russo A; Riva I
Survey of Ophthalmology 2013; 58: 26-41 (IGR: 14-4)

51788 Average versus highest intraocular pressure analyses in glaucoma clinical trials
Demill DL; Wirostko BM; Nelson LA; Stewart JA; Stewart WC
Ophthalmic Research 2013; 49: 49-51 (IGR: 14-4)

51806 Analysis of continuous 24-hour intraocular pressure patterns in glaucoma
Mansouri K; Liu JH; Weinreb RN; Tafreshi A; Medeiros FA
Investigative Ophthalmology and Visual Science 2012; 53: 8050-8056 (IGR: 14-4)

51565 Comparison of the iCare tonometer with the Goldmann tonometer in Malawi
Hohmann J; Schulze-Schwering M; Chirambo Nyaka T; Moyo V; Kayange PC; Doycheva D; Batumba NH; Spitzer MS
Ophthalmologe 2012; 109: 1098-1102 (IGR: 14-4)

51641 Dorsomedial/Perifornical hypothalamic stimulation increases intraocular pressure, intracranial pressure, and the translaminar pressure gradient
Samuels BC; Hammes NM; Johnson PL; Shekhar A; McKinnon SJ; Allingham RR
Investigative Ophthalmology and Visual Science 2012; 53: 7328-7335 (IGR: 14-4)

51780 Relationship between intraocular pressure and glaucoma onset and progression
Miglior S; Bertuzzi F
Current opinion in pharmacology 2013; 13: 32-35 (IGR: 14-4)

51648 The effect of changes in intraocular pressure on the risk of primary open-angle glaucoma in patients with ocular hypertension: an application of latent class analysis
Gao F; Miller JP; Miglior S; Beiser JA; Torri V; Kass MA; Gordon MO
BMC medical research methodology 2012; 12: 151 (IGR: 14-4)

51991 What happens to glaucoma patients during sleep?
Aref AA
Current Opinions in Ophthalmology 2013; 24: 162-166 (IGR: 14-4)

51236 Intraocular pressure magnitude and variability as predictors of rates of structural change in non-human primate experimental glaucoma
Gardiner SK; Fortune B; Wang L; Downs JC; Burgoyne CF
Experimental Eye Research 2012; 103: 1-8 (IGR: 14-3)

51075 A new strategy for diurnal intraocular pressure curve
Borrone R
European Journal of Ophthalmology 2012; 22: 964-971 (IGR: 14-3)

50682 24-hour intraocular pressure fluctuation monitoring using an ocular telemetry Sensor: tolerability and functionality in healthy subjects
de Smedt S; Mermoud A; Schnyder C
Journal of Glaucoma 2012; 21: 539-544 (IGR: 14-3)

51115 Continuous 24-Hour Monitoring of Intraocular Pressure Patterns With a Contact Lens Sensor: Safety, Tolerability, and Reproducibility in Patients With Glaucoma
Mansouri K; Medeiros FA; Tafreshi A; Weinreb RN
Archives of Ophthalmology 2012; 0: 1-6 (IGR: 14-3)

50704 Circadian intraocular pressure and blood pressure reduction with timolol 0.5% solution and timogel 0.1% in patients with primary open-angle glaucoma
Quaranta L; Katsanos A; Floriani I; Riva I; Russo A; Konstas AG
Journal of Clinical Pharmacology 2012; 52: 1552-1557 (IGR: 14-3)

51290 Repeatability of measurements of effectiveness of glaucoma medication
Rotchford AP; King AJ
British Journal of Ophthalmology 2012; 96: 1494-1497 (IGR: 14-3)

51158 Twenty-four-hour effects of bimatoprost 0.01% monotherapy on intraocular pressure and ocular perfusion pressure
Tung JD; Tafreshi A; Weinreb RN; Slight JR; Medeiros FA; Liu JH
BMJ open 2012; 2: (IGR: 14-3)

50545 Meeting an unmet need in glaucoma: continuous 24-h monitoring of intraocular pressure
Mansouri K; Weinreb RN
Expert Review of Medical Devices 2012; 9: 225-231 (IGR: 14-2)

50421 Effect of high myopia on 24-hour intraocular pressure in patients with primary open-angle glaucoma
Yang YX; Wang NL; Wu L; Zhen Y; Wang T; Ren CX; Peng XX; Hao J; Xia YT
Chinese Medical Journal 2012; 125: 1282-1286 (IGR: 14-2)

50233 Day-to-day variability in intraocular pressure in glaucoma and ocular hypertension
Rotchford AP; Uppal S; Lakshmanan A; King AJ
British Journal of Ophthalmology 2012; 96: 967-970 (IGR: 14-2)

50480 Intraocular Pressure Fluctuation in Patients With Primary Open-angle Glaucoma Combined With High Myopia
Yang Y; Li Z; Wang N; Wu L; Zhen Y; Wang T; Ren C; Peng X; Hao J; Xia Y
Journal of Glaucoma 2014; 23: 19-22 (IGR: 14-2)

50430 Ocular clinical profile of patients with pseudoexfoliation syndrome in a tertiary eye care center in South India
Philip SS; John SS; Simha AR; Jasper S; Braganza AD
Middle East African Journal of Ophthalmology 2012; 19: 231-236 (IGR: 14-2)

48630 Peak intraocular pressure and glaucomatous progression in primary open-angle glaucoma
Konstas AG; Quaranta L; Mikropoulos DG; Nasr MB; Russo A; Jaffee HA; Stewart JA; Stewart WC
Journal of Ocular Pharmacology and Therapeutics 2012; 28: 26-32 (IGR: 14-1)

48953 Dampening of Diurnal Intraocular Pressure Fluctuation by Combined Trabeculotomy and Sinusotomy in Eyes With Open-angle Glaucoma
Matsuoka M; Ando A; Minamino K; Matsuyama K; Shima C; Matsumura M; Nishimura T
Journal of Glaucoma 2013; 22: 290-293 (IGR: 14-1)

49157 Damping of intraocular pressure fluctuations
Cringle SJ; Yu DY
Clinical and Experimental Ophthalmology 2012; 40: 881-887 (IGR: 14-1)

48954 Reproducibility of the Mean, Fluctuation, and IOP Peak in the Diurnal Tension Curve
Hatanaka M; Babic M; Susanna R
Journal of Glaucoma 2013; 22: 390-392 (IGR: 14-1)

49015 Comparison of Dorzolamide/Timolol and Latanoprost/Timolol Fixed Combinations on Diurnal Intraocular Pressure Control in Primary Open-Angle Glaucoma
Eren MH; Gungel H; Altan C; Pasaoglu IB; Sabanci S
Journal of Ocular Pharmacology and Therapeutics 2012; 28: 381-386 (IGR: 14-1)

48772 Effects of aging on 24-hour intraocular pressure measurements in sitting and supine body positions
Mansouri K; Weinreb RN; Liu JH
Investigative Ophthalmology and Visual Science 2012; 53: 112-116 (IGR: 14-1)

49268 Continuous 24-hour intraocular pressure monitoring for glaucoma--time for a paradigm change
Mansouri K; Weinreb R
Swiss Medical Weekly 2012; 142: w13545 (IGR: 14-1)

48938 Circadian (24-hour) pattern of intraocular pressure and visual field damage in eyes with normal-tension glaucoma
Lee YR; Kook MS; Joe SG; Na JH; Han S; Kim S; Shin CJ
Investigative Ophthalmology and Visual Science 2012; 53: 881-887 (IGR: 14-1)

49356 Sustained intraocular pressure reduction throughout the day with travoprost ophthalmic solution 0.004%
Dubiner HB; Noecker R
Clinical Ophthalmology 2012; 6: 525-531 (IGR: 14-1)

48590 Twenty-four hour efficacy with the dorzolamide/timolol-fixed combination compared with the brimonidine/timolol-fixed combination in primary open-angle glaucoma
Konstas AG; Quaranta L; Yan DB; Mikropoulos DG; Riva I; Gill NK; Barton K; Haidich AB
Eye 2012; 26: 80-87 (IGR: 14-1)

48269 Diurnal pattern of intraocular pressure is affected by microgravity when measured in space with the pressure phosphene tonometer (PPT)
Chung KY; Woo SJ; Yi S; Choi GH; Ahn CH; Hur GC; Lim JG; Kim TW
Journal of Glaucoma 2011; 20: 488-491 (IGR: 13-4)

47672 Long-term intraocular pressure fluctuation of primary angle closure disease following laser peripheral iridotomy/iridoplasty
Chen Y-Y; Sun L-P; Thomas R; Liang Y-B; Fan S-J; Sun X; Li S-Z; Zhang S-D; Wang N-L
Chinese Medical Journal 2011; 124: 3066-3069 (IGR: 13-4)

47677 Study on changes of intraocular pressure within 24 hours in primary open angle glaucoma and normal eyes
Xiao M; Sun XH; Meng FR; Fang ZB; Qiu SY; Guo WY; Qian SH; Wang JY
Zhonghua Yi Xue Za Zhi 2011; 91: 441-444 (IGR: 13-4)

48335 Continuous IOP fluctuation recording in normal tension glaucoma patients
Pajic B; Pajic-Eggspuchler B; Haefliger I
Current Eye Research 2011; 36: 1129-1138 (IGR: 13-4)

48140 A population-based assessment of 24-hour intraocular pressure among subjects with primary open-angle glaucoma: the handan eye study
Wang NL; Friedman DS; Zhou Q; Guo L; Zhu D; Peng Y; Chang D; Sun LP; Liang YB
Investigative Ophthalmology and Visual Science 2011; 52: 7817-7821 (IGR: 13-4)

47597 Diurnal and Nocturnal Intraocular Pressure Fluctuations after Trabeculectomy
Klink T; Praetorius S; Leippi S; Klink J; Grehn FJ
Ophthalmologica 2011; (IGR: 13-4)

46850 Characterization of intraocular pressure responses of the Tibetan monkey (Macaca Thibetana)
Liu G; Zeng T; Yu W; Yan N; Wang H; Cai S-P; Pang I-H; Liu X
Molecular Vision 2011; 17: 1405-1413 (IGR: 13-3)

46545 Improved prediction of fellow-eye response in one-eye trials using multiple intraocular pressure measurements
Wakabayashi Y; Higashide T; Sugiyama K
Japanese Journal of Ophthalmology 2011; 55: 480-485 (IGR: 13-3)

46328 Risk factors of glaucoma progression: intraocular pressure fluctuations
Aptel F; Denis P
Journal Français d'Ophtalmologie 2011; 34: 400-402 (IGR: 13-3)

46413 Diurnal variations in axial length, choroidal thickness, intraocular pressure, and ocular biometrics
Chakraborty R; Read SA; Collins MJ
Investigative Ophthalmology and Visual Science 2011; 52: 5121-5129 (IGR: 13-3)

46605 24-Hour intraocular pressure control between travoprost/timolol fixed combination, latanoprost/ timolol fixed combination and standard timolol in primary open angle glaucoma and ocular hypertension
Pachimkul P; Yuttitham K; Thoophom P
Journal of the Medical Association of Thailand 2011; 94: 81-87 (IGR: 13-3)

46486 Importance of intraocular pressure measurement at 6:00 a.m. in bed and in darkness in suspected and glaucomatous patients
Cronemberger S; Da Silva ACL; Calixto N
Arquivos Brasileiros de Oftalmologia 2010; 73: 346-349 (IGR: 13-3)

46559 Investigation of the correlation between the right-left differences of visual field defects and the right-left differences of ocular anatomical factors in patients with normal-tension glaucoma
Hayamizu F; Yamazaki Y; Nakagami T
Nippon Ganka Gakkai Zasshi 2011; 115: 362-367 (IGR: 13-3)

45899 Continuous 24 h monitoring of changes in intraocular pressure with the wireless contact lens sensor Triggerfish(trademark).First results in patients
Faschinger C; Mossbock G
Ophthalmologe 2010; 107: 918-922 (IGR: 13-2)

46262 Control of intraocular pressure fluctuation: Are combination drugs more effective?
Feldman RM; Bell NP; Nagi KS
Expert Review of Ophthalmology 2011; 6: 151-154 (IGR: 13-2)

45511 Asymmetry of diurnal intraocular pressure fluctuation between right and left eyes
Kim MS; Kim JM; Park KH; Choi CY
Acta Ophthalmologica 2011; 89: 352-357 (IGR: 13-2)

46099 Analysis of the diurnal intraocular pressure profile pre and post trabeculectomy using 24-hour monitoring of intraocular pressure
Ross AH; Jackson TE; Wertheim MS; Spry PGD; Sparrow JM; Diamond JP
European Journal of Ophthalmology 2011; 21: 400-403 (IGR: 13-2)

27886 Physiology of aqueous humor formation, diurnal fluctuation of intraocular pressure and its significance for glaucoma
Gobel K; Rufer F; Erb C
Klinische Monatsblätter für Augenheilkunde 2011; 228: 104-108 (IGR: 13-1)

28005 The role of melatonin in glaucoma: Implications concerning pathophysiological relevance and therapeutic potential
Agorastos A; Huber CG
Journal of Pineal Research 2011; 50: 1-7 (IGR: 13-1)

28080 The association between diurnal variation of optic nerve head topography and intraocular pressure and ocular perfusion pressure in untreated primary open-angle glaucoma
Sehi M; Flanagan JG; Zeng L; Cook RJ; Trope GE
Journal of Glaucoma 2011; 20: 44-50 (IGR: 13-1)

27790 Aqueous Humor Dynamics During the Day and Night in Healthy Mature Volunteers
Liu H; Fan S; Gulati V; Camras L J; Zhan G; Ghate D; Camras CB; Toris CB
Archives of Ophthalmology 2011; 129: 269-275 (IGR: 13-1)

27929 Short-term repeatability of diurnal intraocular pressure patterns in glaucomatous individuals
Realini T; Weinreb N; Wisniewski S
Ophthalmology 2011; 118: 47-51 (IGR: 13-1)

27697 Dynamic association between intraocular pressure and spontaneous pulsations of retinal veins
Golzan SM; Graham SL; Leaney J; Avolio A
Current Eye Research 2011; 36: 53-59 (IGR: 13-1)

27802 Control of intraocular pressure and fluctuation with fixed-combination brimonidinetimolol versus brimonidine or timolol monotherapy
Spaeth GL; Bernstein P; Caprioli J; Schiffman RM
American Journal of Ophthalmology 2011; 151: 93-99 (IGR: 13-1)

27947 Effect of selective laser trabeculoplasty on diurnal fluctuations of intraocular pressure in patients receiving secondary and repeat therapy
Jindra LF; Donnelly J; Miglino EM
Lasers in Surgery and Medicine 2009; 41: 69-70 (IGR: 13-1)

26962 Circadian variations in intracranial pressure and translaminar pressure difference in Sprague-Dawley rats.
Lin JS; Liu JH
Investigative Ophthalmology and Visual Science 2010; 51: 5739-5743 (IGR: 12-4)

27111 Twenty-four-hour ocular perfusion pressure in primary open-angle glaucoma
Costa VP; Jimenez-Roman J; Carrasco FG; Lupinacci A; Harris A
British Journal of Ophthalmology 2010; 94: 1291-1294 (IGR: 12-4)

27497 Selective laser trabeculoplasty reduces mean IOP and IOP variation in normal tension glaucoma patients
El Mallah MK; Walsh MM; Stinnett SS; Asrani SG
Clinical Ophthalmology 2010; 4: 889-893 (IGR: 12-4)

27330 24-h Intraocular pressure control with evening-dosed travoprost/timolol, compared with latanoprost/timolol, fixed combinations in exfoliative glaucoma
Konstas AGP; Mikropoulos DG; Embeslidis TA; Dimopoulos AT; Papanastasiou A; Haidich A-B; Stewart WC
Eye 2010; 24: 1606-1613 (IGR: 12-4)

27196 Diurnal and nocturnal effects of brimonidine monotherapy on intraocular pressure
Liu JHK; Medeiros FA; Slight JR; Weinreb RN
Ophthalmology 2010; 117: 2075-2079 (IGR: 12-4)

27031 Meta-analysis of timolol on diurnal and nighttime intraocular pressure and blood pressure.
Lee PW; Doyle A; Stewart JA; Kristoffersen CJ; Stewart WC
European Journal of Ophthalmology 2010; 20: 1035-1041 (IGR: 12-4)

27394 Twenty-four-hour intraocular pressure control with latanoprost-timolol-fixed combination versus bimatoprost in patients who switched from Timolol
Mesci C; Aydin N; Erbil HH
Journal of Glaucoma 2010; (IGR: 12-4)

26386 In vivo real-time intraocular pressure variations during LASIK flap creation
Chaurasia SS; Luengo Gimeno F; Tan K; Yu S; Tan DT; Beuerman RW; Mehta JS
Investigative Ophthalmology and Visual Science 2010; 51: 4641-4645 (IGR: 12-3)

26606 Untreated 24-h intraocular pressures measured with Goldmann applanation tonometry vs nighttime supine pressures with Perkins applanation tonometry
Quaranta L; Konstas AGP; Rossetti L; Garcia-Feijoo J; O'Brien C; Nasr MB; Fogagnolo P; Demos CM; Stewart JA; Stewart WC
Eye 2010; 24: 1252-1258 (IGR: 12-3)

26328 Diurnal Intraocular Pressure Patterns are Not Repeatable in the Short Term in Healthy Individuals
Realini T; Weinreb RN; Wisniewski SR
Ophthalmology 2010; 117: 1700-1704 (IGR: 12-3)

26579 The diurnal variation of intraocular pressure-the most important symptom for early detection and follow-up of the glaucomas
Draeger J
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1367-1370 (IGR: 12-3)

26758 Effect of different diurnal blood pressure profiles on severity of the open-angle glaucoma in treated hypertensive patients
Krasinska B; Karolczak-Kulesza M; Tykarski A; Pawlaczyk-Gabriel K; Niklas A; Krasinski Z; Gluszek J
Nadcisnienie Tetnicze 2010; 14: 128-141 (IGR: 12-3)

26652 Can mean central corneal thickness and its 24-hour fluctuation influence fluctuation of intraocular pressure?
Fogagnolo P; Capizzi F; Orzalesi N; Figus M; Ferreras A; Rossetti L
Journal of Glaucoma 2010; 19: 418-423 (IGR: 12-3)

26430 24-hour versus daytime intraocular pressure phasing in the management of patients with treated glaucoma
Moodie J; Wilde C; Rotchford AP; Vernon SA; King AJ
British Journal of Ophthalmology 2010; 94: 999-1002 (IGR: 12-3)

26310 Twenty-four-hour ocular hypotensive effects of 0.0015% tafluprost and 0.005% latanoprost in healthy subjects
Mochizuki H; Itakura H; Yokoyama T; Takamatsu M; Kiuchi Y
Japanese Journal of Ophthalmology 2010; 54: 286-290 (IGR: 12-3)

25668 The use of mice in glaucoma research --to clarify the mechanism of intraocular pressure regulation and retinal ganglion cell damage
Aihara M
Nippon Ganka Gakkai Zasshi 2010; 114: 217-246 (IGR: 12-2)

26143 Assessing the Importance of IOP Variables in Glaucoma Using a Modified Delphi Process
Lee PP; Sultan MB; Grunden JW; Cioffi GA; for the IOP Consensus Panel
Journal of Glaucoma 2010; 19: 281-287 (IGR: 12-2)

26291 Comparing the measurement of diurnal fluctuations in intraocular pressure in the same day versus over different days in glaucoma
Magacho L; Toscano DA; Freire G; Shetty RK; Ávila MP
European Journal of Ophthalmology 2010; 20: 542-545 (IGR: 12-2)

26130 Effect of carteolol hydrochloride on 24-hour variation of intraocular pressure in normal-tension glaucoma
Nakamoto K; Yasuda N
Japanese Journal of Ophthalmology 2010; 54: 140-143 (IGR: 12-2)

25836 Meta-analysis of 24-h intraocular pressure fluctuation studies and the efficacy of glaucoma medicines
Stewart WC; Konstas AGP; Kruft B; Mathis HM; Stewart JA
Journal of Ocular Pharmacology and Therapeutics 2010; 26: 175-180 (IGR: 12-2)

26102 Aqueous humor dynamics during the day and night in juvenile and adult rabbits
Zhao M; Hejkal JJ; Camras CB; Toris CB
Investigative Ophthalmology and Visual Science 2010; 51: 3145-3151 (IGR: 12-2)

25796 Comparison of ability to find abnormal IOP between diurnal and circadian IOP curve
Zhen Y; Wang N; Guo Y; Zhang X
Chinese Ophthalmic Research 2010; 28: 360-364 (IGR: 12-2)

26306 Effect of sleeping in a head-up position on intraocular pressure in patients with glaucoma
Buys YM; Alasbali T; Jin YP; Smith M; Gouws P; Geffen N; Flanagan JG; Shapiro CM; Trope GE
Ophthalmology 2010; 117: 1348-1351 (IGR: 12-2)

25977 Influence of selective laser trabeculoplasty on 24-hour diurnal intraocular pressure fluctuation in primary open-angle glaucoma: A pilot study
Kothy P; Toth M; Hollo G
Ophthalmic Surgery Lasers and Imaging 2010; 41: 342-347 (IGR: 12-2)

25169 Increased 24-hour variation of human intraocular pressure with short axial length
Loewen NA; Liu JH; Weinreb RN
Investigative Ophthalmology and Visual Science 2010; 51: 933-937 (IGR: 12-1)

25457 Effects of brinzolamide vs timolol as an adjunctive medication to latanoprost on circadian intraocular pressure control in primary open-angle glaucoma Japanese patients
Ishikawa M; Yoshitomi T
Clinical Ophthalmology 2009; 3: 493-500 (IGR: 12-1)

25447 24-hour intraocular pressure in glaucoma patients randomized to receive dorzolamide or brinzolamide in combination with latanoprost
Ishikawa S; Nakamura Y; Sakai H; Henzan I; Sawaguchi S
Clinical Ophthalmology 2009; 3: 395-400 (IGR: 12-1)

25036 Twenty-four hour (Nyctohemeral) rhythm of intraocular pressure and ocular perfusion pressure in normal-tension glaucoma
Renard E; Palombi K; Gronfier C; Pepin JL; Noel C; Chiquet C; Romanet JP
Investigative Ophthalmology and Visual Science 2010; 51: 882-889 (IGR: 12-1)

25265 A Model-Based Meta-Analysis of the Effect of Latanoprost Chronotherapy on the Circadian Intraocular Pressure of Patients With Glaucoma or Ocular Hypertension
Luu K T; Raber S R; Nickens D J; Vicini P
Clinical Pharmacology and Therapeutics 2010; 87:421-425 (IGR: 12-1)

25185 The effect of trabeculectomy on ocular pulse amplitude
Breusegem C; Fieuws S; Zeyen T; Stalmans I
Investigative Ophthalmology and Visual Science 2010; 51: 231-235 (IGR: 12-1)

24754 Correlation between diurnal variation of intraocular pressure, ocular pulse amplitude and corneal structural properties
Villas-Boas FS; Doi LM; Sousa AK; Melo Jr LA
Arquivos Brasileiros de Oftalmologia 2009; 72: 296-301 (IGR: 11-4)

24998 Diurnal intraocular pressure fluctuation and associated risk factors in eyes with angle closure
Baskaran M; Kumar RS; Govindasamy CV; Htoon HM; Wong CY; Perera SA; Wong TT; Aung T
Ophthalmology 2009; 116: 2300-2304 (IGR: 11-4)

24934 Ocular rigidity, ocular pulse amplitude, and pulsatile ocular blood flow: the effect of intraocular pressure
Dastiridou AI; Ginis HS; De Brouwere D; Tsilimbaris MK; Pallikaris IG
Investigative Ophthalmology and Visual Science 2009; 50: 5718-5722 (IGR: 11-4)

24614 Current study on diurnal fluctuation of intraocular pressure
Fu F; Chen X
Chinese Ophthalmic Research 2009; 27: 629-632 (IGR: 11-4)

24787 Diurnal variation of corneal biomechanics and intraocular pressure in normal subjects
Oncel B; Dinc UA; Gorgun E; Yalvaç BI
European Journal of Ophthalmology 2009; 9: 798-803 (IGR: 11-4)

24819 Twenty-four hour ocular perfusion pressure fluctuation and risk of normal-tension glaucoma progression
Sung KR; Lee S; Park SB; Choi J; Kim ST; Yun SC; Kang SY; Cho JW; Kook MS
Investigative Ophthalmology and Visual Science 2009; 50: 5266-5274 (IGR: 11-4)

24483 Intraocular pressure profile during the modified diurnal tension curve using Goldman applanation tonometry and dynamic contour tonometry
Vasconcelos De Moraes CG; Castro Reis AS; Sano ME; Barreira AK; Vessani RM; Jr Susanna R
Journal of Ocular Biology, Diseases, and Informatics 2009; 2: 29-32 (IGR: 11-3)

24496 Glaucoma: an area of darkness
Hitchings RA
Eye 2009; 23: 1764-1774 (IGR: 11-3)

24163 The relationship between diurnal variations in intraocular pressure measurements and central corneal thickness and corneal hysteresis
Kotecha A; Crabb DP; Spratt A; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2009; 50: 4229-4236 (IGR: 11-3)

24021 Assessing the efficacy of latanoprost vs timolol using an alternate efficacy parameter: the intervisit intraocular pressure range
Varma R; Hwang LJ; Grunden JW; Bean GW; Sultan MB
American Journal of Ophthalmology 2009; 148: 221-226 (IGR: 11-3)

23611 Research on dynamic contour tonometer and non-contact tonometer intraocular pressure in normal young people sitting day and night fluctuations trend
Cao R-D; Zhang Y-P; Geng J; Sheng J-J; Zhang Z-M
International Journal of Ophthalmology 2009; 9: 498-501 (IGR: 11-2)

23598 Pathophysiology of glaucoma and continuous measurements of intraocular pressure
Sit AJ; Liu JH
Molecular & cellular biomechanics : MCB 2009; 6: 57-69 (IGR: 11-2)

24001 The effect of cataract surgery on diurnal intraocular pressure fluctuation
Kim KS; Kim JM; Park KH; Choi CY; Chang HR
Journal of Glaucoma 2009; 18: 399-402 (IGR: 11-2)

23801 Twenty-four-hour intraocular pressure control with the travoprost/timolol maleate fixed combination compared with travoprost when both are dosed in the evening in primary open-angle glaucoma
Konstas AG; Mikropoulos D; Haidich AB; Ntampos KS; Stewart WC
British Journal of Ophthalmology 2009; 93: 481-485 (IGR: 11-2)

23820 Continuous monitoring of intraocular pressure: rationale and progress toward a clinical device
Sit AJ
Journal of Glaucoma 2009; 18: 272-279 (IGR: 11-2)

23665 24-hour intraocular pressure and blood pressure levels with latanoprost/timolol fixed combination versus timolol
Konstas AG; Pikilidou MI; Tsironi S; Mikropoulos D; Kozobolis VP; Sarafidis PA; Lasaridis AN; Nelson LA; Stewart WC
Current Eye Research 2009; 34: 369-377 (IGR: 11-2)

23965 The circadian curve of intraocular pressure: can we estimate its characteristics during office hours?
Fogagnolo P; Orzalesi N; Ferreras A; Rossetti L
Investigative Ophthalmology and Visual Science 2009; 50: 2209-2215 (IGR: 11-2)

23699 Agreement between stress intraocular pressure and long-term intraocular pressure measurements in primary open angle glaucoma
De Moraes CG; Furlanetto RL; Reis AS; Vegini F; Cavalcanti NF; Susanna R Jr
Clinical and Experimental Ophthalmology 2009; 37: 270-274 (IGR: 11-2)

23503 Intraocular pressure fluctuations: How much do they matter?
Singh K; Shrivastava A
Current Opinions in Ophthalmology 2009; 20: 84-87 (IGR: 11-2)

23552 Concordance of nictemeral IOP variations between fellow eyes in glaucoma and non glaucoma patients
Chiselita D; Motoc I; Danielescu C
Oftalmologia 2008; 52: 102-109 (IGR: 11-2)

23860 Relationship of the 24-hour pattern of intraocular pressure with optic disc appearance in primary open-angle glaucoma
Deokule SP; Doshi A; Vizzeri G; Medeiros FA; Liu JH; Bowd C; Zangwill L; Weinreb RN
Ophthalmology 2009; 116: 833-839 (IGR: 11-2)

23844 Diurnal variation of ocular pressure in open-angle glaucoma with telemonitoring
Antal S; Jürgens C; Grossjohann R; Tost FH
Klinische Monatsblätter für Augenheilkunde 2009; 226: 168-175 (IGR: 11-2)

23814 Intraocular pressure control and fluctuation: the effect of treatment with selective laser trabeculoplasty
Nagar M; Luhishi E; Shah N
British Journal of Ophthalmology 2009; 93: 497-501 (IGR: 11-2)

22559 Intraocular pressure measurements throughout the 24 h
Bagga H; Liu JH; Weinreb RN
Current Opinions in Ophthalmology 2009; 20: 79-83 (IGR: 11-1)

22577 Intraocular pressure control over 24 hours using travoprost and timolol fixed combination administered in the morning or evening in primary open-angle and exfoliative glaucoma
Konstas AG; Tsironi S; Vakalis AN; Nasr MB; Stewart JA; Nelson LA; Stewart WC
Acta Ophthalmologica 2009; 87: 71-76 (IGR: 11-1)

22950 Daily and nightly fluctuation of intraocular pressure and blood pressure in glaucoma and non-glaucoma patients
Chiselita D; Motoc I; Danielescu C
Oftalmologia 2008; 52: 119-125 (IGR: 11-1)

22661 Fluctuation of intraocular pressure in 24-hour telemonitoring compared to tonometry during normal office hours
Jürgens C; Antal S; Henrici K; Grossjohann R; Tost FH
Klinische Monatsblätter für Augenheilkunde 2009; 226: 54-59 (IGR: 11-1)

22640 A comparison of the intervisit intraocular pressure fluctuation after 180 and 360° of selective laser trabeculoplasty (SLT) as a primary therapy in primary open angle glaucoma and ocular hypertension
Prasad N; Murthy S; Dagianis JJ; Latina MA
Journal of Glaucoma 2009; 18: 157-160 (IGR: 11-1)

21720 Intraocular pressure fluctuation a risk factor for visual field progression at low intraocular pressures in the advanced glaucoma intervention study
Caprioli J; Coleman AL
Ophthalmology 2008; 115: 1123-1129 (IGR: 10-3)

21474 The importance of diurnal pressure curve in evaluation of glaucoma patients
Constantin C; Costin D
Revista medico-chirurgical?? a Societ????ii de Medici ??i Naturali??ti din Ia??I 2007; 111: 946-952 (IGR: 10-3)

21820 Latent asymmetric intraocular pressure as a predictor of visual field defects
Hong S; Kang SY; Ma KT; Seong GJ; Kim CY
Archives of Ophthalmology 2008; 126: 1211-1215 (IGR: 10-3)

21758 Diurnal variation of axial length, intraocular pressure, and anterior eye biometrics
Read SA; Collins MJ; Iskander DR
Investigative Ophthalmology and Visual Science 2008; 49: 2911-2918 (IGR: 10-3)

21683 Meta-analysis of 24-hour intraocular pressure studies evaluating the efficacy of glaucoma medicines
Stewart WC; Konstas AG; Nelson LA; Kruft B
Ophthalmology 2008; 115: 1117-1122 (IGR: 10-3)

21839 Does peak intraocular pressure measured by water drinking test reflect peak circadian levels? A pilot study
Kumar RS; de Guzman MH; Ong PY; Goldberg I
Clinical and Experimental Ophthalmology 2008; 36: 312-315 (IGR: 10-3)

21847 Twenty-four-hour intraocular pressure and blood pressure levels with bimatoprost versus latanoprost in patients with normal-tension glaucoma
Quaranta L; Pizzolante T; Riva I; Haidich AB; Konstas AG; Stewart WC
British Journal of Ophthalmology 2008; 92: 1227-1231 (IGR: 10-3)

21444 Currents on target intraocular pressure and intraocular pressure fluctuations in glaucoma management
Detry-Morel M
Bulletin de la Société Belge d'Ophtalmologie 2008; 35-43 (IGR: 10-3)

21014 Circadian variation of aqueous dynamics in young healthy adults
Sit AJ; Nau CB; McLaren JW; Johnson DH; Hodge D
Investigative Ophthalmology and Visual Science 2008; 49: 1473-1479 (IGR: 10-2)

21114 Evaluation of circadian control of intraocular pressure after a single drop of bimatoprost 0.03% or travoprost 0.004%
Frenkel RE; Noecker RJ; Craven ER
Current Medical Research and Opinion 2008; 24: 919-923 (IGR: 10-2)

21293 Circadian rhythm dysfunction in glaucoma: A hypothesis
Jean-Louis G; Zizi F; Lazzaro DR; Wolintz AH
Journal of Circadian Rhythms 2008; 6: 1 (IGR: 10-2)

21401 Long-term intraocular pressure fluctuations and risk of conversion from ocular hypertension to glaucoma
Medeiros FA; Weinreb RN; Zangwill LM; Alencar LM; Sample PA; Vasile C; Bowd C
Ophthalmology 2008; 115: 934-940 (IGR: 10-2)

20512 Physiological diurnal variability and characteristics of the ocular pulse amplitude (OPA) with the dynamic contour tonometer (DCT-Pascal(registered trademark))
Pourjavan S; Boelle P-Y; Detry-Morel M; De Potter P
International Ophthalmology 2007; 27: 357-360 (IGR: 10-1)

20445 The Effect of Latanoprost, Bimatoprost, and Travoprost on Circadian Variation of Intraocular Pressure in Patients With Open-angle Glaucoma
Yildirim N; Sahin A; Gultekin S
Journal of Glaucoma 2008; 17: 36-39 (IGR: 10-1)

20405 Circadian changes of intraocular pressure and ocular perfusion pressure after timolol or latanoprost in Caucasians with normal-tension glaucoma
Costagliola C; Parmeggiani F; Virgili G; Lamberti G; Incorvaia C; Perri P; Campa C; Sebastiani A
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 389-396 (IGR: 10-1)

20855 Association of Central Corneal Thickness and 24-hour Intraocular Pressure Fluctuation
Mosaed S; Chamberlain WD; Liu JHK; Medeiros FA; Weinreb RN
Journal of Glaucoma 2008; 17: 85-88 (IGR: 10-1)

20464 Comparative study between diurnal intraocular pressure curve and the association of ambulatory intraocular pressure curve with the water-drinking test in open angle glaucoma, normal tension glaucoma and normal eyes
Meirelles SHS; Yamane R; Alvares RM; Botelho PB; Morais FB; Moreira PB; Dantas AM; de Moraes Jr HV
Arquivos Brasileiros de Oftalmologia 2007; 70: 471-479 (IGR: 10-1)

20828 Effect on Diurnal Intraocular Pressure Variation of Eliminating the α-2 Adrenergic Receptor Subtypes in the Mouse
Aihara M; Lindsey JD; Weinreb RN
Investigative Ophthalmology and Visual Science 2008; 49: 929-933 (IGR: 10-1)