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6.9.2.2 Posterior (316)
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Display all abstracts in classification 6.9.2.2 Posterior
Search within classification 6.9.2.2 Posterior86532 Choroidal Microvasculature Dropout is Associated with Generalized Choroidal Vessel Loss within the β-Parapapillary Atrophy in Glaucoma
Jo YH
American Journal of Ophthalmology 2020; 215: 37-48
86425 The Diagnostic Ability of Ganglion Cell Complex Thickness-to-Total Retinal Thickness Ratio in Glaucoma in a Caucasian Population
Sarıgül Sezenöz A
Turkish journal of ophthalmology 2020; 50: 26-30
86484 Normative Database of Peripapillary Vessel Density Measured by Optical Coherence Tomography Angiography and Correlation Study
Fernández-Vigo JI
Current Eye Research 2020; 0: 1-8
86517 The Relationship Between Optic Nerve Cup-to-Disc Ratio and Retinal Nerve Fiber Layer Thickness in Suspected Pediatric Glaucoma
Mocan MC
Journal of Pediatric Ophthalmology & Strabismus 2020; 57: 90-96
86168 Diagnosing Glaucoma With Spectral-Domain Optical Coherence Tomography Using Deep Learning Classifier
Lee J
Journal of Glaucoma 2020; 29: 287-294
86503 Profiles of Ganglion Cell-Inner Plexiform Layer Thickness in a Multi-Ethnic Asian Population: The Singapore Epidemiology of Eye Diseases Study
Tham YC
Ophthalmology 2020; 127: 1064-1076
86064 Differences in swept-source OCT angiography of the macular capillary network in high tension and normal tension glaucoma
Mursch-Edlmayr AS
Current Eye Research 2020; 45: 1168-1172
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Verticchio Vercellin AC
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251
86466 Data on OCT and fundus images for the detection of glaucoma
Raja H
Data in brief 2020; 29: 105342
86744 The effect of topical tropicamide and phenylephrine on macular and peripapillary microvasculature: an optical coherence tomography angiography study
Özdemir HB
International Ophthalmology 2020; 40: 1969-1976
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Sawada Y
American Journal of Ophthalmology 2020; 216: 28-36
86306 Asymmetry analysis of macular optical coherence tomography angiography in patients with glaucoma and healthy subjects
Smith CA
British Journal of Ophthalmology 2020; 104: 1724-1729
86093 Angiographic biomarkers of filtering bleb function after XEN gel implantation for glaucoma: an optical coherence tomography-angiography study
Mastropasqua R
Acta Ophthalmologica 2020; 98: e761-e767
86225 Diagnostic ability of vessel density measured by spectral-domain optical coherence tomography angiography for glaucoma in patients with high myopia
Lee K
Scientific reports 2020; 10: 3027
86167 Optical Coherence Tomography Angiography in Glaucoma
Rao HL
Journal of Glaucoma 2020; 29: 312-321
86855 Trends in the Retinal Nerve Fiber Layer Thickness Changes with Different Degrees of Visual Field Defects
Geng W
Journal of Ophthalmology 2020; 2020: 4874876
86735 Interdigitation Zone Change According to Glaucoma-Stage Advancement
Ha A
Investigative Ophthalmology and Visual Science 2020; 61: 20
86667 Does the Foveal Avascular Zone Change in Glaucoma?
Lommatzsch C
Klinische Monatsblätter für Augenheilkunde 2020; 237: 879-888
86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Wang S
Current Eye Research 2020; 0: 1-9
86615 Relationship between nailfold capillary morphology and retinal thickness and retinal vessel density in primary open-angle and angle-closure glaucoma
Rong X
Acta Ophthalmologica 2020; 98: e882-e887
86770 Comparison of structural and functional tests in primary open angle glaucoma
Karaca U
Indian Journal of Ophthalmology 2020; 68: 805-811
86508 Macular imaging with optical coherence tomography in glaucoma
Mohammadzadeh V
Survey of Ophthalmology 2020; 65: 597-638
86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Lee SH
Scientific reports 2020; 10: 6761
86165 Assessment of a Segmentation-Free Deep Learning Algorithm for Diagnosing Glaucoma From Optical Coherence Tomography Scans
Thompson AC
JAMA ophthalmology 2020; 138: 333-339
86462 Microvascular damage assessed by optical coherence tomography angiography for glaucoma diagnosis: a systematic review of the most discriminative regions
Bekkers A
Acta Ophthalmologica 2020; 98: 537-558
