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List of abstracts related to
Coops A; Henson DB; Kwartz AJ; Artes PH
Investigative Ophthalmology and Visual Science 2006; 47: 5348-5355
Listed by Classification
6.9.1 Laser scanning (387 abstracts found)
20907 Retinal imaging with adaptive optics scanning laser ophthalmoscopy in unexplained central ring scotoma
Joeres S; Jones SM; Chen DC; Silva D; Olivier S; Fawzi A; Castellarin A; Sadda SR
Archives of Ophthalmology 2008; 126: 543-547 (IGR: 10-2)
20040 Optic nerve head and retinal nerve fiber layer analysis: a report by the American Academy of Ophthalmology
Lin SC; Singh K; Jampel HD; Hodapp EA; Smith SD; Francis BA; Dueker DK; Fechtner RD; Samples JS; Schuman JS
Ophthalmology 2007; 114: 1937-1949 (IGR: 9-4)
16780 Accuracy of GDx VCC, HRT I, and clinical assessment of stereoscopic optic nerve head photographs for diagnosing glaucoma
Reus NJ; de Graaf M; Lemij HG
British Journal of Ophthalmology 2007; 91: 313-318 (IGR: 9-1)
15206 Relationship between central corneal thickness and changes of optic nerve head topography and blood flow after intraocular pressure reduction in open-angle glaucoma and ocular hypertension
Lesk MR; Hafez AS; Descovich D
Archives of Ophthalmology 2006; 124: 1568-1572 (IGR: 8-4)
15169 Scanning laser polarimetry with variable corneal compensation in the area of apparently normal hemifield in eyes with normal-tension glaucoma
Choi J; Cho HS; Lee CH; Kook MS
Ophthalmology 2006; 113: 1954-1960 (IGR: 8-4)
15141 Thermal injury induces heat shock protein in the optic nerve head in vivo
Kim JM; Park KH; Kim YJ; Park HJ; Kim DM
Investigative Ophthalmology and Visual Science 2006; 47: 4888-4894 (IGR: 8-4)
15172 Comparison of the Moorfields classification using confocal scanning laser ophthalmoscopy and subjective optic disc classification in detecting glaucoma in blacks and whites
Girkin CA; Deleon-Ortega JE; Xie A; McGwin G; Arthur SN; Monheit BE
Ophthalmology 2006; 113: 2144-2149 (IGR: 8-4)
15151 In vivo confocal microscopy of failing and functioning filtering blebs: Results and clinical correlations
Guthoff R; Klink T; Schlunck G; Grehn F
Journal of Glaucoma 2006; 15: 552-558 (IGR: 8-4)
15226 Detection of glaucoma using operator-dependent versus operator-independent classification in the Heidelberg retinal tomograph-III
Harizman N; Zelefsky JR; Ilitchev E; Tello C; Ritch R; Liebmann JM
British Journal of Ophthalmology 2006; 90: 1390-1392 (IGR: 8-4)
15260 Morphometric assessment of normal, suspect and glaucomatous optic discs with Stratus OCT and HRT II
Iliev ME; Meyenberg A; Garweg JG
Eye 2006; 20: 1288-1299 (IGR: 8-4)
15101 Measurement variability in heidelberg retina tomograph imaging of neuroretinal rim area
Owen VM; Strouthidis NG; Garway-Heath DF; Crabb DP
Investigative Ophthalmology and Visual Science 2006; 47: 5322-5330 (IGR: 8-4)
15126 Improving the repeatability of topographic height measurements in confocal scanning laser imaging using maximum-likelihood deconvolution
Patterson AJ; Garway-Heath DF; Crabb DP
Investigative Ophthalmology and Visual Science 2006; 47: 4415-4421 (IGR: 8-4)
14915 Sector-based analysis of the distribution of the neuroretinal rim by confocal scanning laser in the diagnosis of glaucoma
Pueyo V; Larrosa JM; Polo V; Perez Inigo A; Ferreras A; Honrubia FM
Archivos de la Sociedad Española de Oftalmologia 2006; 81: 135-140 (IGR: 8-4)
15228 The role of scanning laser polarimetry using the GDx variable corneal compensator in the management of glaucoma suspects
Shaikh A; Salmon JF
British Journal of Ophthalmology 2006; 90: 1454-1457 (IGR: 8-4)
15027 Heidelberg Retinal Tomograph (HRT 2) parameters in primary open angle glaucoma and primary angle closure glaucoma: a comparative study in an Indian population
Thomas R; Muliyil J; Simha R A; Parikh RS
Ophthalmic Epidemiology 2006; 13: 343-350 (IGR: 8-4)
14962 Modeling of scanning laser polarimetry images of the human retina for progression detection of glaucoma
Vermeer KA; Vos FM; Lo B; Zhou Q; Lemij HG; Vossepoel AM; van Vliet LJ
IEEE Transactions on Medical Imaging 2006; 25: 517-528 (IGR: 8-4)
15150 Assessment of a race-specific normative HRT-III database to differentiate glaucomatous from normal eyes
Zelefsky JR; Harizman N; Mora R; Ilitchev E; Tello C; Ritch R; Liebmann JM
Journal of Glaucoma 2006; 15: 548-551 (IGR: 8-4)
15181 Development of a fully automated peripheral anterior chamber depth analyzer and evaluation of its accuracy
Kashiwagi K; Shinbayashi E; Tsukahara S
Journal of Glaucoma 2006; 15: 388-393 (IGR: 8-4)
15180 Comparison between newly developed scanning peripheral anterior chamber depth analyzer and conventional methods of evaluating anterior chamber configuration
Kashiwagi K; Tsumura T; Tsukahara S
Journal of Glaucoma 2006; 15: 380-387 (IGR: 8-4)
15254 Assessment of retinal nerve fiber layer using optical coherence tomography and scanning laser polarimetry in progressive glaucomatous optic neuropathy
Sehi M; Greenfield DS
American Journal of Ophthalmology 2006; 142: 1056-1059 (IGR: 8-4)
15261 Retrobulbar haemodynamics and morphometric optic disc analysis in primary open-angle glaucoma
Plange N; Kaup M; Weber A; Arend KO; Remky A
British Journal of Ophthalmology 2006; 90: 1501-1504 (IGR: 8-4)
15147 Study of patients with ocular hypertension with scanning laser polarimetry and short-wavelength automatic perimetry
Georgopoulos GT; Halkiadakis I; Patsea E; Papakonstantinou D; Alexiou M; Vergados I; Andreanos D; Theodossiadis G; Moschos M
Ophthalmologica 2006; 220: 361-367 (IGR: 8-4)
15212 Correlation of retinal nerve fiber layer measured by scanning laser polarimeter to visual field in ischemic optic neuropathy
Danesh-Meyer HV; Carroll SC; Ku JY; Hsiang J; Gaskin B; Gamble GG; Savino PJ
Archives of Ophthalmology 2006; 124: 1720-1726 (IGR: 8-4)
13960 Measurements of optic disk size with HRT II, Stratus OCT, and funduscopy are not interchangeable
Barkana Y; Harizman N; Gerber Y; Liebmann JM; Ritch R
American Journal of Ophthalmology 2006; 142: 375-380 (IGR: 8-3)
14306 Study of comparison of optic nerve between big cupped disc and early glaucoma
Guo J; Wu L-L; Xiao G-G
Ophthalmology in China 2006; 15: 119-121 (IGR: 8-3)
14295 Correlating structure with function in end-stage glaucoma
Blumenthal EZ; Horani A; Sasikumar R; Garudadri C; Udaykumar A; Thomas R
Ophthalmic Surgery Lasers and Imaging 2006; 37: 218-223 (IGR: 8-3)
14101 Combining structural and functional testing for detection of glaucoma
Shah NN; Bowd C; Medeiros FA; Weinreb RN; Sample PA; Hoffmann EM; Zangwill LM
Ophthalmology 2006; 113: 1593-1602 (IGR: 8-3)
14089 Comparison between GDx VCC parameter and achromatic perimetry in glaucoma patients
Iester M; Perdicchi A; De Feo F; Fiesoletti E; Amodeo S; Sanna G; Leonardi A; Calabria G
Journal of Glaucoma 2006; 15: 281-285 (IGR: 8-3)
14086 Improving glaucoma diagnosis by the combination of perimetry and HRT measurements
Mardin CY; Peters A; Horn F; Junemann AG; Lausen B
Journal of Glaucoma 2006; 15: 299-305 (IGR: 8-3)
14053 Discrimination between glaucomatous and nonglaucomatous eyes using quantitative imaging devices and subjective optic nerve head assessment
Deleon-Ortega JE; Arthur SN; McGwin G Jr; Xie A; Monheit BE; Girkin CA
Investigative Ophthalmology and Visual Science 2006; 47: 3374-3380 (IGR: 8-3)
14064 Structure-function relationships using confocal scanning laser ophthalmoscopy, optical coherence tomography, and scanning laser polarimetry
Bowd C; Zangwill LM; Medeiros FA; Tavares IM; Hoffmann EM; Bourne RR; Sample PA; Weinreb RN
Investigative Ophthalmology and Visual Science 2006; 47: 2889-2895 (IGR: 8-3)
13950 Comparison between GDx VCC scanning laser polarimetry and Stratus OCT optical coherence tomography in the diagnosis of chronic glaucoma
Brusini P; Salvetat ML; Zeppieri M; Tosoni C; Parisi L; Felletti M
Acta Ophthalmologica Scandinavica 2006; 84: 650-655 (IGR: 8-3)
14026 GDx-VCC performance in discriminating normal from glaucomatous eyes with early visual field loss
Da Pozzo S; Fuser M; Vattovani O; Di Stefano G; Ravalico G
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 689-695 (IGR: 8-3)
14012 Atypical pattern of retardation on GDx-VCC and its effect on retinal nerve fibre layer evaluation in glaucomatous eyes
Da Pozzo S; Marchesan R; Canziani T; Vattovani O; Ravalico G
Eye 2006; 20: 769-775 (IGR: 8-3)
14057 In vivo imaging and counting of rat retinal ganglion cells using a scanning laser ophthalmoscope
Higashide T; Kawaguchi I; Ohkubo S; Takeda H; Sugiyama K
Investigative Ophthalmology and Visual Science 2006; 47: 2943-2950 (IGR: 8-3)
14294 The effect of pupil dilation on scanning laser polarimetry with variable corneal compensation
Horani A; Frenkel S; Blumenthal EZ
Ophthalmic Surgery Lasers and Imaging 2006; 37: 212-216 (IGR: 8-3)
14099 Intersession reproducibility of retinal nerve fiber layer thickness measurements by GDx-VCC in healthy and glaucomatous eyes
Iacono P; Da Pozzo S; Fuser M; Marchesan R; Ravalico G
Ophthalmologica 2006; 220: 266-271 (IGR: 8-3)
14135 Comparison of retinal nerve fiber layer measurements between NTG and HTG using GDx-vCC
Jung JI; Kim JH; Kook MS
Korean Journal of Ophthalmology 2006; 20: 26-32 (IGR: 8-3)
14029 Glaucoma follow-up by the Heidelberg Retina Tomograph
Kalaboukhova L; Fridhammar V; Lindblom B
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 654-662 (IGR: 8-3)
14061 In vivo imaging and quantitative evaluation of the rat retinal nerve fiber layer using scanning laser ophthalmoscopy
Kawaguchi I; Higashide T; Ohkubo S; Takeda H; Sugiyama K
Investigative Ophthalmology and Visual Science 2006; 47: 2911-2916 (IGR: 8-3)
14307 The value of the Heidelberg retina tomograph-II in detection of primary chronic angle-closure glaucoma
Li C; Duan X-C; Zhou Y-H; Luo Z-W
Ophthalmology in China 2006; 15: 114-118 (IGR: 8-3)
14329 The study of retinal nerve fiber layer thickness of normal eyes using scanning laser polarimetry
Liu X; Huang J; Ge J; Ling Y; Zheng X
Eye Science 2006; 22: 175-183 (IGR: 8-3)
14041 Enhanced imaging algorithm for scanning laser polarimetry with variable corneal compensation
Reus NJ; Zhou Q; Lemij HG
Investigative Ophthalmology and Visual Science 2006; 47: 3870-3877 (IGR: 8-3)
14013 Estimating the clinical usefulness of optic disc biometry for detecting glaucomatous change over time
Tangelder GJ; Reus NJ; Lemij HG
Eye 2006; 20: 755-763 (IGR: 8-3)
14014 Automated detection of wedge-shaped defects in polarimetric images of the retinal nerve fibre layer
Vermeer KA; Reus NJ; Vos FM; Vossepoel AM; Lemij HG
Eye 2006; 20: 776-784 (IGR: 8-3)
13958 Scanning laser polarimetry with variable corneal compensation and optical coherence tomography in tilted disk
Yu S; Tanabe T; Hangai M; Morishita S; Kurimoto Y; Yoshimura N
American Journal of Ophthalmology 2006; 142: 475-482 (IGR: 8-3)
14149 Evaluation of screening versus regular polarimetry
Fingeret M; Patel T
Optometry and Vision Science 2006; 83: 426-431 (IGR: 8-3)
14213 Macular area with the glaucoma patients
Hrncirova K; Hornova J; Cihelkova I
?eska a Slovenska Oftalmologie 2006; 62: 224-229 (IGR: 8-3)
14214 Scanning laser polarimetry for measurement of retinal nerve fiber layer in absolute, advanced and early glaucoma
Tsai J-C; Chang H-W; Teng M-C; Lin P-W; Lai I-C
Chang Gung medical journal 2006; 29: 162-168 (IGR: 8-3)
13599 Analysis of the thickness of the retinal nerve fiber layer of myopic eyes
Xu Y-E; Wu X-Y; Liu S-Z; Xia X-B; Wang Y-K
International Journal of Ophthalmology 2006; 6: 116-118 (IGR: 8-2)
13792 Comparison of disc damage likelihood scale, cup to disc ratio, and Heidelberg retina tomograph in the diagnosis of glaucoma
Danesh-Meyer HV; Gaskin BJ; Jayusundera T; Donaldson M; Gamble GD
British Journal of Ophthalmology 2006; 90: 437-441 (IGR: 8-2)
13793 Regional correlation of structure and function in glaucoma, using the Disc Damage Likelihood Scale, Heidelberg Retina Tomograph, and visual fields
Danesh-Meyer HV; Ku JY; Papchenko TL; Jayasundera T; Hsiang JC; Gamble GD
Ophthalmology 2006; 113: 603-611 (IGR: 8-2)
13612 Long-term changes in the shape of glaucomatous optic disc
Hiroishi G; Koike I; Ikeda Y; Yoshida S; Fujisawa K; Kubota T; Ishibashi T
Japanese Journal of Clinical Ophthalmology 2006; 60: 329-333 (IGR: 8-2)
13799 Healthy optic discs with large cups - a diagnostic challenge in glaucoma
Mardin CY; Horn F; Viestenz A; Lammer R; Junemann A
Klinische Monatsblätter für Augenheilkunde 2006; 223: 308-314 (IGR: 8-2)
13812 Test-retest variability in structural and functional parameters of glaucoma damage in the glaucoma imaging longitudinal study
Jampel HD; Vitale S; Ding Y; Quigley H; Friedman D; Congdon N; Zeimer R
Journal of Glaucoma 2006; 15: 152-157 (IGR: 8-2)
13826 Comparison of objective diagnostic tests in glaucoma: Heidelberg retinal tomography and multifocal visual evoked potentials
Balachandran C; Graham SL; Klistorner A; Goldberg I
Journal of Glaucoma 2006; 15: 110-116 (IGR: 8-2)
13828 Agreement in assessing cup-to-disc ratio measurement among stereoscopic optic nerve head photographs, HRT II, and Stratus OCT
Arthur SN; Aldridge AJ; Leon-Ortega JD; McGwin G; Xie A; Girkin CA
Journal of Glaucoma 2006; 15: 183-189 (IGR: 8-2)
13829 The effect of ageing on retinal nerve fibre layer thickness: an evaluation by scanning laser polarimetry with variable corneal compensation
Da Pozzo S; Iacono P; Marchesan R; Minutola D; Ravalico G
Acta Ophthalmologica Scandinavica 2006; 84: 375-379 (IGR: 8-2)
13833 Specificity of the Heidelberg Retina Tomograph's diagnostic algorithms in a normal elderly population: the Bridlington Eye Assessment Project
Hawker MJ; Vernon SA; Ainsworth G
Ophthalmology 2006; 113: 778-785 (IGR: 8-2)
13831 Detecting glaucoma with RADAAR: the Bridlington Eye Assessment Project
Hawker MJ; Vernon SA; Tattersall CL; Dua HS
British Journal of Ophthalmology 2006; 90: 744-748 (IGR: 8-2)
13837 Glaucoma detection using the GDx nerve fiber analyzer and the retinal thickness analyzer
Hoffmann EM; Bowd C; Klein N; Stemberger K; Grus FH; Pfeiffer N
European Journal of Ophthalmology 2006; 16: 251-258 (IGR: 8-2)
13608 GDxVCC of retinal nerve fibre layer in perimetrically unaffected eyes of chronic angle closure glaucoma patients
Hu M-M; Duan X-C
International Journal of Ophthalmology 2006; 6: 102-106 (IGR: 8-2)
13712 Fluctuations depending on time of day in measurements of the optic disc using confocal laser canning tomography
Kamppeter BA; Jonas JB
Ophthalmologe 2006; 103: 40-42 (IGR: 8-2)
13701 Correlations among GDx-variable corneal compension, optical coherence tomography, and Heidelberg retina tomograph and relationships between these structural parameters and visual field indices
Kanamori A; Kusuhara A; Tatsumi Y; Fujioka M; Maeda H; Nakamura M; Negi A
Nippon Ganka Gakkai Zasshi 2006; 110: 180-187 (IGR: 8-2)
13835 Influence of optic disc size on parameters of retinal nerve fiber analysis with laser scanning polarimetry
Laemmer R; Horn FK; Viestenz A; Juenemann AG; Mardin CY
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 603-608 (IGR: 8-2)
13830 Effect of moderate intraocular pressure changes on topographic measurements with confocal scanning laser tomography in patients with glaucoma
Nicolela MT; Soares AS; Carrillo MM; Chauhan BC; Leblanc RP; Artes PH
Archives of Ophthalmology 2006; 124: 633-640 (IGR: 8-2)
13566 Trabeculectomy and optic nerve head topography
Paranhos Jr A; Lima MC; Salim S; Caprioli J; Shields MB
Brazilian Journal of Medical and Biological Research 2006; 39: 149-155 (IGR: 8-2)
13836 Ten-year RESULTS: detection of long-term progressive optic disc changes with confocal laser tomography
Philippin H; Unsoeld A; Maier P; Walter S; Bach M; Funk J
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 460-464 (IGR: 8-2)
13832 An enhancement module to improve the atypical birefringence pattern using scanning laser polarimetry with variable corneal compensation
Sehi M; Guaqueta DC; Greenfield DS
British Journal of Ophthalmology 2006; 90: 749-753 (IGR: 8-2)
13834 The quality of reporting of diagnostic accuracy studies in glaucoma using the heidelberg retina tomograph
Shunmugam M; Azuara-Blanco A
Investigative Ophthalmology and Visual Science 2006; 47: 2317-2323 (IGR: 8-2)
13838 Parapapillary autofluorescence as indicator for glaucoma
Viestenz A; Langenbucher A; Mardin CY
Klinische Monatsblätter für Augenheilkunde 2006; 223: 315-320 (IGR: 8-2)
13664 The use of the Heidelberg Retinal Tomograph in glaucoma prevention
Vyborny P; Dohnalova P
?eska a Slovenska Oftalmologie 2006; 62: 53-58 (IGR: 8-2)
13678 Optic disc and retinal nerve fiber layer analysis with scanning laser tomography after LASIK
Hamada N; Kaiya T; Oshika T; Kato S; Tomita G; Yamagami S; Amano S
Journal of Refractive Surgery 2006; 22: 372-375 (IGR: 8-2)
13637 Evaluation of the optic nerve head using confocal scanning laser ophthalmoscopy in patients with multiple sclerosis
Ugurlu S; Yurdakul NS; Demir C; Maden A
Neuro-Ophthalmology 2006; 30: 23-28 (IGR: 8-2)
13257 Correlation between glaucomatous hemifield scotomas and measurements of nerve fiber layer thickness using scanning laser polarimetry
Denk PO; Markovic M; Knorr M
Ophthalmologe 2005; 102: 957-967 (IGR: 8-1)
13421 Relationship between patterns of visual field loss and retinal nerve fiber layer thickness measurements
Hoffmann EM; Medeiros FA; Sample PA; Boden C; Bowd C; Bourne RR; Zangwill LM; Weinreb RN
American Journal of Ophthalmology 2006; 141: 463-471 (IGR: 8-1)
13455 Detection of psychophysical and structural injury in eyes with glaucomatous optic neuropathy and normal standard automated perimetry
Bagga H; Feuer WJ; Greenfield DS
Archives of Ophthalmology 2006; 124: 169-176 (IGR: 8-1)
13258 Correlation of confocal laser scanning tomography with planimetric photographic measurements of the optic disc in a normal South Indian population: The vellore eye study
Thomas R; George R; Muliyil J; Jonas JB
Indian Journal of Ophthalmology 2005; 53: 289-294 (IGR: 8-1)
13506 Retinal nerve fiber layer analysis in the diagnosis of glaucoma
Zangwill LM; Bowd C
Current Opinions in Ophthalmology 2006; 17: 120-131 (IGR: 8-1)
13391 Diurnal variation of intraocular pressure and its correlation with retinal nerve fiber analysis in Turkish patients with exfoliation syndrome
Gumus K; Bozkurt B; Sonmez B; Irkec M; Orhan M; Saracbasi O
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 170-176 (IGR: 8-1)
13356 Retinal nerve fiber analysis and tomography of the optic disc in eyes with tilted disc syndrome
Gurlu VP; Alymgyl ML
Ophthalmic Surgery Lasers and Imaging 2005; 36: 494-502 (IGR: 8-1)
13390 Comparison of confocal scanning laser ophthalmoscopy, scanning laser polarimetry and optical coherence tomography to discriminate ocular hypertension and glaucoma at an early stage
Kanamori A; Nagai-Kusuhara A; Escano MF; Maeda H; Nakamura M; Negi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2006; 244: 58-68 (IGR: 8-1)
13385 Influence of disease severity and optic disc size on the diagnostic performance of imaging instruments in glaucoma
Medeiros FA; Zangwill LM; Bowd C; Sample PA; Weinreb RN
Investigative Ophthalmology and Visual Science 2006; 47: 1008-1015 (IGR: 8-1)
13510 Glaucoma - Structural imagery: HRT, GDx, OCT
Renard JP; Giraud JM
Journal Français d'Ophtalmologie 2006; 29: 64-73 (IGR: 8-1)
13537 Nerve fiber layer measurement using scanning laser polarimetry with fixed corneal compensator in normal cynomolgus monkey eyes
Shimazawa M; Taniguchi T; Sasaoka M; Hara H
Ophthalmic Research 2006; 38: 1-7 (IGR: 8-1)
13543 Evaluation of enhanced corneal compensation in scanning laser polarimetry: comparison with variable corneal compensation on human eyes undergoing LASIK
Toth M; Hollo G
Journal of Glaucoma 2006; 15: 53-59 (IGR: 8-1)
13256 Reproducibility of measurements of the peripapillary retinal nerve fibre layer thickness. Optical coherence tomography versus retinal thickness analyzer
Krist R; Hoffmann EM; Schwenn O
Ophthalmologe 2005; 102: 1175-1178, 1180 (IGR: 8-1)
13147 Validity of screening for glaucomatous optic nerve damage using confocal scanning laser ophthalmoscopy (Heidelberg Retina Tomograph II) in high-risk populations: a pilot study
Harasymowycz PJ; Papamatheakis DG; Fansi AK; Gresset J; Lesk MR
Ophthalmology 2005; 112: 2164-2171 (IGR: 7-3)
13141 Posterior pole retinal thickness in ocular hypertension and glaucoma: early changes detected by hemispheric asymmetries
Salgarello T; Colotto A; Valente P; Petrocelli G; Galan ME; Scullica L; Falsini B
Journal of Glaucoma 2005; 14: 375-383 (IGR: 7-3)
12676 Clinical variables associated with glaucomatous injury in eyes with large optic disc cupping
Greenfield DS; Bagga H
Ophthalmic Surgery Lasers and Imaging 2005; 36: 401-409 (IGR: 7-3)
13199 Asymmetry in optic disc morphometry as measured by heidelberg retina tomography in a normal elderly population: the Bridlington Eye Assessment Project
Hawker MJ; Vernon SA; Ainsworth G; Hillman JG; Macnab HK; Dua HS
Investigative Ophthalmology and Visual Science 2005; 46: 4153-4158 (IGR: 7-3)
13089 Improving the repeatability of Heidelberg retina tomograph and Heidelberg retina tomograph II rim area measurements
Strouthidis NG; White ET; Owen VM; Ho TA; Garway-Heath DF
British Journal of Ophthalmology 2005; 89: 1433-1437 (IGR: 7-3)
13088 Factors affecting the test-retest variability of Heidelberg retina tomograph and Heidelberg retina tomograph II measurements
Strouthidis NG; White ET; Owen VM; Ho TA; Hammond CJ; Garway-Heath DF
British Journal of Ophthalmology 2005; 89: 1427-1432 (IGR: 7-3)
13077 Enhanced corneal compensation for scanning laser polarimetry on eyes with atypical polarisation pattern
Toth M; Hollo G
British Journal of Ophthalmology 2005; 89: 1139-1142 (IGR: 7-3)
13122 Intraobserver and interobserver reliability indices for drawing scanning laser ophthalmoscope optic disc contour lines with and without the aid of optic disc photographs
Watkins RJ; Broadway DC
Journal of Glaucoma 2005; 14: 351-357 (IGR: 7-3)
13183 Evaluation of the structure-function relationship in glaucoma
Gardiner SK; Johnson CA; Cioffi GA
Investigative Ophthalmology and Visual Science 2005; 46: 3712-3717 (IGR: 7-3)
13190 Association between localized visual field losses and thickness deviation of the nerve fiber layer in glaucoma
Horn FK; Mardin CY; Viestenz A; Junemann AG
Journal of Glaucoma 2005; 14: 419-425 (IGR: 7-3)
13043 Differences in visual function and optic nerve structure between healthy eyes of blacks and whites
Racette L; Boden C; Kleinhandler SL; Girkin CA; Liebmann JM; Zangwill LM; Medeiros FA; Bowd C; Weinreb RN; Wilson MR
Archives of Ophthalmology 2005; 123:1547-1553 (IGR: 7-3)
13013 Relationships between standard automated perimetry, HRT confocal scanning laser ophthalmoscopy, and GDx VCC scanning laser polarimetry
Reus NJ; Lemij HG
Investigative Ophthalmology and Visual Science 2005; 46: 4182-4188 (IGR: 7-3)
12723 Relationship between findings by GDxVCC and Humphery Field Analyzer
Shimamura T; Umeda T; Izawa Y; Nagayama M; Ohtsuki H
Japanese Journal of Clinical Ophthalmology 2005; 59: 835-838 (IGR: 7-3)
13098 Correlation between frequency doubling technology and Heidelberg Retina Tomograph
Iester M; Traverso CE; De Feo F; Sanna G; Altieri M; Vittone P; Calabria G
Journal of Glaucoma 2005; 14: 368-374 (IGR: 7-3)
12725 Correlation between polarimetric retinal nerve fiber layer thickness and retinal sensitivity determined with frequency-doubling technology
Katsanos A; Kothy P; Konstas AGP; Vargha P; Hollo G
Ophthalmic Surgery Lasers and Imaging 2005; 36: 394-400 (IGR: 7-3)
12731 Comparison of optic disc evaluation by fundus photograph and Heidelberg Retina Tomograph II
Sugimoto E; Sone T; Tsukamoto H; Minamoto A; Matsuyama S; Kanamoto T; Hirayama T; Nomura M; Tomita G; Mishima HK
Japanese Journal of Clinical Ophthalmology 2005; 59: 939-942 (IGR: 7-3)
13126 Agreement among 3 optical imaging methods for the assessment of optic disc topography
Hoffmann EM; Bowd C; Medeiros FA; Boden C; Grus FH; Bourne RR; Zangwill LM; Weinreb RN
Ophthalmology 2005; 112: 2149-2156 (IGR: 7-3)
13140 Scanning laser polarimetry using variable corneal compensation in the detection of glaucoma with localized visual field defects
Kook MS; Cho HS; Seong M; Choi J
Ophthalmology 2005; 112: 1970-1978 (IGR: 7-3)
13160 Comparative study of retinal nerve fiber layer measurement by StratusOCT and GDx VCC, I: correlation analysis in glaucoma
Leung CK; Chan WM; Chong KK; Yung WH; Tang KT; Woo J; Tse KK
Investigative Ophthalmology and Visual Science 2005; 46: 3214-3220 (IGR: 7-3)
13167 Comparative study of retinal nerve fiber layer measurement by StratusOCT and GDx VCC, II: structure/function regression analysis in glaucoma
Leung CK; Chong KK; Chan WM; Yiu CK; Tso MY; Woo J; Tsang MK; Tse KK; Yung WH
Investigative Ophthalmology and Visual Science 2005; 46: 3702-3711 (IGR: 7-3)
12988 Accuracy of GDx variable corneal compensation polarization measurements in normal human eyes: effect of accommodation, cycloplegia, focus, pupil size, and eye selection on reproducibility
Levy NS; Schachar IH
Eye 2005; 21: 333-340 (IGR: 7-3)
12737 Optic nerve head topographic measurements and retinal nerve fiber layer thickness in physiologic large cups
Min KH; Seong GJ; Hong YJ; Kim CY
Korean Journal of Ophthalmology 2005; 19: 189-194 (IGR: 7-3)
12733 Prevalence of oblique insertion of the arcuate nerve fibre layer bundle in normal eyes and its influence on GDx parameters
Raju P; Arvind H; George R; Ve Ramesh S; Baskaran M; Vijaya L
Asian Journal of Ophthalmology 2005; 7: 91-95 (IGR: 7-3)
13116 Topographic characteristics of the optic nerve head measured with scanning laser tomography in normal Japanese subjects
Uchida H; Yamamoto T; Araie M; Tomita G; Shirakashi M; Yoshikawa K; the HRT Study Group
Japanese Journal of Ophthalmology 2005; 49: 469-476 (IGR: 7-3)
12735 The effect of compression on clinical diagnosis of glaucoma based on non-analyzed confocal scanning laser ophthalmoscopy images
Belair ML; Fansi AK; Descovich D; Leblanc AR; Harasymowycz P
Ophthalmic Surgery Lasers and Imaging 2005; 36: 323-326 (IGR: 7-3)
12269 Performance of community-based glaucoma screening using Frequency Doubling Technology and Heidelberg Retinal Tomography
Robin TA; Muller A; Rait J; Keeffe JE; Taylor HR; Mukesh BN
Ophthalmic Epidemiology 2005; 12: 167-178 (IGR: 7-2)
12278 Relationship of disk area and RNFL thickness in patients with large cup
Shao Y; Yan Y
Chinese Ophthalmic Research 2005; 23: 311-313 (IGR: 7-2)
12418 Optic disc topographic parameters measured in the normal cynomolgus monkey by confocal scanning laser tomography
Taniguchi T; Shimazawa M; Araie M; Tomita G; Sasaoka M; Kitazawa Y; Hara H
British Journal of Ophthalmology 2005; 89: 1058-1062 (IGR: 7-2)
12414 Comparison of retinal nerve fibre layer thickness and visual field loss between different glaucoma groups
Galvao Filho RP; Vessani RM; Susanna R Jr.
British Journal of Ophthalmology 2005; 89: 1004-1007 (IGR: 7-2)
12317 Agreement between stereoscopic photographs, clinical assessment, Heidelberg retina tomograph and digital stereoscopic optic disc camera in estimating vertical cup:disc ratio
Jayasundera T; Danesh-Meyer HV; Donaldson M; Gamble G
Clinical and Experimental Ophthalmology 2005; 33: 259-263 (IGR: 7-2)
12152 Retinal nerve fiber analysis in subjects with hyperopia and anisometropic amblyopia
Atilla H; Batioglu F; Erkam N
Binocular Vision & Strabismus Quarterly 2005; 20: 33-37 (IGR: 7-2)
12330 Discrimination between normal and early glaucomatous eyes with scanning laser polarimeter with fixed and variable corneal compensator settings
Brusini P; Salvetat ML; Parisi L; Zeppieri M; Tosoni C
European Journal of Ophthalmology 2005; 15: 468-476 (IGR: 7-2)
12403 Corneal birefringence changes after laser assisted in situ keratomileusis and their influence on retinal nerve fibre layer thickness measurement by means of scanning laser polarimetry
Centofanti M; Oddone F; Parravano M; Gualdi L; Bucci MG; Manni G
British Journal of Ophthalmology 2005; 89: 689-693 (IGR: 7-2)
12431 Ratio of hemi-papillary rim volumes and glaucoma diagnosis with Heidelberg retina tomograph
Chen E
Journal of Glaucoma 2005; 14: 206-209 (IGR: 7-2)
12166 Automated segmentation of the optic nerve head for diagnosis of glaucoma
Chrastek R; Wolf M; Donath K; Niemann H; Paulus D; Hothorn T; Lausen B; Lammer R; Mardin CY; Michelson G
Medical Image Analysis 2005; 9: 297-314 (IGR: 7-2)
12500 Scanning laser polarimetry with variable corneal compensation and detection of glaucomatous optic neuropathy
Da Pozzo S; Iacono P; Marchesan R; Fantin A; Ravalico G
Graefe's Archive for Clinical and Experimental Ophthalmology 2005; 243: 774-779 (IGR: 7-2)
12486 Analysis of GDx-VCC Polarimetry Data by Wavelet-Fourier Analysis across Glaucoma Stages
Essock EA; Zheng Y; Gunvant P
Investigative Ophthalmology and Visual Science 2005; 46: 2838-2847 (IGR: 7-2)
12515 Assessment of nerve fiber layer thickness before and after laser in situ keratomileusis using scanning laser polarimetry with variable corneal compensation
Halkiadakis I; Anglionto L; Ferensowicz M; Triebwasser RW; van Westenbrugge JA; Gimbel HV
Journal of Cataract and Refractive Surgery 2005; 31: 1035-1041 (IGR: 7-2)
12516 Scanning laser polarimetry of nerve fiber layer thickness in normal eyes after cataract phacoemulsification and foldable intraocular lens implantation
Iacono P; Da Pozzo S; Vattovani O; Tognetto D; Ravalico G
Journal of Cataract and Refractive Surgery 2005; 31: 1042-1049 (IGR: 7-2)
12506 Retinal nerve fibre layer measurements are reduced in patients with obstructive sleep apnoea syndrome
Kargi SH; Altin R; Koksal M; Kart L; Cinar F; Ugurbas SH; Ayoglu F
Eye 2005; 19: 575-579 (IGR: 7-2)
12365 Discrimination between normal and glaucomatous eyes with scanning laser polarimetry and optic disc topography: a preliminary report
Magacho L; Marcondes AM; Costa VP
European Journal of Ophthalmology 2005; 15: 353-359 (IGR: 7-2)
12396 Correlation between optic disc topography and retinal nerve fibre layer measurements in glaucoma
Magacho L; Marcondes AM; Costa VP
Acta Ophthalmologica Scandinavica 2005; 83: 322-327 (IGR: 7-2)
12373 The impact of definition of primary open-angle glaucoma on the cross-sectional assessment of diagnostic validity of Heidelberg retinal tomography
Miglior S; Guareschi M; Romanazzi F; Albe E; Torri V; Orzalesi N
American Journal of Ophthalmology 2005; 139: 878-887 (IGR: 7-2)
12432 Evaluation of the influence of tilt of optic disc on the measurement of optic disc variables obtained by optical coherence tomography and confocal scanning laser ophthalmoscopy
Park CY; Kim YT; Kee C
Journal of Glaucoma 2005; 14: 210-214 (IGR: 7-2)
12517 A new statistical approach for quantifying change in series of retinal and optic nerve head topography images
Patterson AJ; Garway-Heath DF; Strouthidis NG; Crabb DP
Investigative Ophthalmology and Visual Science 2005; 46: 1659-1667 (IGR: 7-2)
12523 Laser scanning tomography of the optic nerve head in a normal elderly population: The Bridlington Eye Assessment Project
Vernon SA; Hawker MJ; Ainsworth G; Hillman JG; Macnab HK; Dua HS
Investigative Ophthalmology and Visual Science 2005; 46: 2823-2828 (IGR: 7-2)
11793 Relationship between central corneal thickness and retinal nerve fiber layer thickness in ocular hypertensive patients
Henderson PA; Medeiros FA; Zangwill LM; Weinreb RN
Ophthalmology 2005; 112: 251-256 (IGR: 7-1)
11679 Longitudinal changes in the visual field and optic disc in glaucoma
Artes PH; Chauhan BC
Progress in Retinal and Eye Research 2005; 24: 333-354 (IGR: 7-1)
11792 The Groningen Longitudinal Glaucoma Study. I. Baseline sensitivity and specificity of the frequency doubling perimeter and the GDx nerve fibre analyser
Heeg GP; Blanksma LJ; Hardus PL; Jansonius NM
Acta Ophthalmologica Scandinavica 2005; 83: 46-52 (IGR: 7-1)
11837 Correlation between frequency doubling technology perimetry and scanning laser polarimetry in glaucoma suspects and glaucomatous eyes
Kim SH; Hong H; Koo HJ; Yang SJ; Tchah H; Kook MS
Korean Journal of Ophthalmology 2004; 18: 89-99 (IGR: 7-1)
11689 Quantitative assessment of atypical birefringence images using scanning laser polarimetry with variable corneal compensation
Bagga H; Greenfield DS; Feuer WJ
American Journal of Ophthalmology 2005; 139: 437-446 (IGR: 7-1)
11700 Inter-device reproducibility of the scanning laser polarimeter with variable cornea compensation
Blumenthal EZ; Frenkel S
Eye 2005; 19: 308-311 (IGR: 7-1)
11704 Relevance vector machine and support vector machine classifier analysis of scanning laser polarimetry retinal nerve fiber layer measurements
Bowd C; Medeiros FA; Zhang Z; Zangwill LM; Hao J; Lee TW; Sejnowski TJ; Weinreb RN; Goldbaum MH
Investigative Ophthalmology and Visual Science 2005; 46: 1322-1329 (IGR: 7-1)
11721 Retinal nerve fiber layer measurements do not change after LASIK for high myopia as measured by scanning laser polarimetry with custom compensation
Choplin NT; Schallhorn SC; Sinai M; Tanzer D; Tidwell JL; Zhou Q
Ophthalmology 2005; 112: 92-97 (IGR: 7-1)
11726 Comparing measurements of retinal nerve fiber layer thickness obtained on scanning laser polarimetry with fixed and variable corneal compensator
Da Pozzo S; Iacono P; Marchesan R; Vattovani O; Ravalico G
European Journal of Ophthalmology 2005; 15: 239-245 (IGR: 7-1)
11755 Operator learning effect and interoperator reproducibility of the scanning laser polarimeter with variable corneal compensation
Frenkel S; Slonim E; Horani A; Molcho M; Barzel I; Blumenthal EZ
Ophthalmology 2005; 112: 257-261 (IGR: 7-1)
11779 Predicting subsequent visual field loss in glaucomatous subjects with disc hemorrhage using retinal nerve fiber layer polarimetry
Gunvant P; Zheng Y; Essock EA; Chen PP; Greenfield DS; Bagga H; Boehm MD
Journal of Glaucoma 2005; 14: 20-25 (IGR: 7-1)
11787 Heidelberg retina tomograph disc area: Correlation with glaucoma severity, using the disc damage likelihood scale
Harasymowycz P; Xu G; Myers J; Steinmann W; Spaeth GL
Clinical and Surgical Ophthalmology 2004; 22: 50-53 (IGR: 7-1)
11808 Retinal nerve fiber layer measured by Heidelberg retina tomograph and nerve fiber analyzer
Iester M; Mermoud A
European Journal of Ophthalmology 2005; 15: 246-254 (IGR: 7-1)
11834 Comparison between fixed-angle and customised corneal-polarisation compensation methods in scanning laser polarimetric measurement of the retinal nerve fibre layer in glaucoma
Katsanos A; Kóthy P; Holló G
Eye 2005; 19: 152-158 (IGR: 7-1)
11928 Influence of pupillary diameter, ciliary muscle tone, and ambient light on nerve fiber layer measurements with scanning laser polarimetry
Paranhos A Jr; Silvestre AM; Passerotti CC; Martins EM; de Arruda Mello PA; Prata JA Jr; Shields MB
Journal of Glaucoma 2005; 14: 124-127 (IGR: 7-1)
12079 Analysis of HRT-II parameters in myopic refractive error eyes
Qiao R; Li M; Ren Z; Pan Y
Chinese Ophthalmic Research 2005; 23: 89-91 (IGR: 7-1)
11946 Diagnostic laser in glaucoma: scanning laser polarimetry (GDx VCC) and confocal scanning laser tomography (HRT)
Renard JP; Giraud JM; May F; Rigal-Sastourné JC; Oubaaz A; Reda K; Maurin JF
Journal Français d'Ophtalmologie 2005; 28: 177-184 (IGR: 7-1)
11982 Difference of optic disc topography between a low-tension group and a high-tension group in normal-tension glaucoma patients
Shiraki R; Uchida H; Ishida K; Yamamoto T
Nippon Ganka Gakkai Zasshi 2005; 109: 19-25 (IGR: 7-1)
11988 Structural analysis of the optic nerve head in healthy eyes and in eyes with glaucoma
Skorkovska K; Skorkovska S; Michalek J; Koci J; Synek S
?eska a Slovenska Oftalmologie 2004; 60: 400-407 (IGR: 7-1)
12045 Scanning laser polarimetry retinal nerve fiber layer thickness measurements after LASIK
Zangwill LM; Abunto T; Bowd C; Angeles R; Schanzlin DJ; Weinreb RN
Ophthalmology 2005; 112: 200-207 (IGR: 7-1)
11525 Comparison of the optic nerve rim tissue between healthy Caucasian and Hispanic populations using the HRT II
Sendrowski DP; Kostura II MR; Kostura SK
Clinical and Refractive Optometry 2004; 15: 142-148 (IGR: 6-3)
11247 A method for comparing electrophysiological, psychophysical, and structuralmeasures of glaucomatous damage
Greenstein VC; Thienprasiddhi P; Ritch R; Liebmann JM; Hood DC
Archives of Ophthalmology 2004; 22: 1276-1284 (IGR: 6-3)
11449 The effect of the menstrual cycle on optic nerve head analysis in healthy women
Akar ME; Taskin O; Yucel I; Akar Y
Acta Ophthalmologica Scandinavica 2004; 82: 741-745 (IGR: 6-3)
11313 Image analysis of optic nerve disease
Burgoyne CF
Eye 2004; 18: 1207-1213 (IGR: 6-3)
11456 Multimodal retinal image registration for optic disk segmentation
Chrastek R; Skokan M; Kubecka L; Wolf M; Donath K; Jan J; Michelson G; Niemann H
Methods of Information in Medicine 2004; 43: 336-342 (IGR: 6-3)
11533 Comparison of optical coherence tomography and scanning laser polarimetry (GDx VCC) for mesuring retinal nerve fiber layer
Hida T; Iwao K; Sato S; Iwakiri R; Kobayashi K; Kobayashi-H
Japanese Journal of Clinical Ophthalmology 2004; 58: 1837-1842 (IGR: 6-3)
11241 Variation of peripapillary retinal nerve fiber layer birefringence in normal human subjects
Huang XR; Bagga H; Greenfield DS; Knighton RW
Investigative Ophthalmology and Visual Science 2004; 45: 3073-3080 (IGR: 6-3)
11531 Scanning laser polarimetry of retinal nerve fibre layer thickness after laser assisted in situ keratomileusis (LASIK): Stability of the values after the third post-LASIK month
Katsanos A; Kothy P; Nagy ZZ; Hollo G
Acta Physiologica Hungarica 2004; 91: 119-130 (IGR: 6-3)
11375 Analysis of optic nerve head by confocal scanning laser ophthalmoscope in ocular hypertension
Kria L; Beltaief O; Farah H; Anane R; Erraies K; Karray F; Boussen IM; Chkir R; Zhioua R; Ouertani AM
Journal Français d'Ophtalmologie 2004; 27: 995-999 (IGR: 6-3)
11534 The diagnostic ability of Heidelberg retina tomography to detect glaucomatous optic neuropathy in Chinese
Liu X; Liang YB; Ling YL; Huang JJ; Zheng XP
Chinese Journal of Ophthalmology 2004; 40: 737-740 (IGR: 6-3)
11345 Intraobserver reproducibility of retinal nerve fiber layer measurements using scanning laser polarimetry and optical coherencetomography in normal and ocular hypertensive subjects
Lleó-Pérez A; Ortuño-Soto A; Rahhal MS; Martínez-Soriano F; Sanchis-Gimeno JA
European Journal of Ophthalmology 2004; 14: 523-530 (IGR: 6-3)
11458 Retinal nerve fiber layer thickness measurements with scanning laser polarimetrypredict glaucomatous visual field loss
Mohammadi K; Bowd C; Weinreb RN; Medeiros FA; Sample PA; Zangwill LM
American Journal of Ophthalmology 2004; 138: 592-601 (IGR: 6-3)
11494 Three dimensional analysis of the lamina cribrosa in glaucoma
Morgan-Davies J; Taylor N; Hill AR; Aspinall P; O'brien CJ; Azuara-Blanco A
British Journal of Ophthalmology 2004; 88: 1299-1304 (IGR: 6-3)
11504 Sensitivity and specificity of scanning laser polarimetry using the GDx
Munkwitz S; Funk J; Loeffler KU; Harbarth U; Kremmer S
British Journal of Ophthalmology 2004; 88: 1142-1145 (IGR: 6-3)
11568 Analysis of optic disc change using the heidelberg retina tomograph in an acquired pit of the optic nerve
Oh JY; Park KH
Ophthalmic Surgery Lasers and Imaging 2004; 35: 325-327 (IGR: 6-3)
11323 Scanning laser polarimetry of the retinal nerve fiber layer in perimetrically unaffected eyes of glaucoma patients
Reus NJ; Lemij HG
Ophthalmology 2004; 111: 2199-2203 (IGR: 6-3)
11346 Diagnostic accuracy of the GDx VCC for glaucoma
Reus NJ; Lemij HG
Ophthalmology 2004; 111: 1860-1865 (IGR: 6-3)
11318 Reversal of disc cupping after intraocular pressure reduction in topographic image series
Tan JC; Hitchings RA
Journal of Glaucoma 2004; 13: 351-355 (IGR: 6-3)
11403 Agreement between clinical evaluation, Heidelberg-Retina-Tomograph (HRT) and Nerve Fiber Analyzer (GDx) in glaucoma diagnosis
Troost A; Grunz C; Troost R; Grus FH; Pfeiffer N; Schwenn O
Klinische Monatsblätter für Augenheilkunde 2004; 221: 757-761 (IGR: 6-3)
11532 Retinal nerve fiber layer measurements in Indian eyes using the scanning laser polarimeter, GDx
Vijaya L; Varma M; Krishna KR; Saraniya AS; Ganesh Babu MG; Subash S; Sukumar B
Indian Journal of Ophthalmology 2004; 52: 215-220 (IGR: 6-3)
11242 Comparison of retinal nerve fiber layer thickness measured by optical coherence tomography and scanning laser polarimetry (GDx)
Yamada K; Osako M; Tachibana K; Usui-M
Journal of Tokyo Medical University 2004; 62: 545-551 (IGR: 6-3)
11495 Heidelberg retina tomograph measurements of the optic disc and parapapillary retina for detecting glaucoma analyzed by machine learning classifiers
Zangwill LM; Chan K; Bowd C; Hao J; Lee TW; Weinreb RN; Sejnowski TJ; Goldbaum MH
Investigative Ophthalmology and Visual Science 2004; 45: 3144-3151 (IGR: 6-3)
10546 Changes in retinal nerve fiber layer thickness after acute primary angle closure
Aung T; Husain R; Gazzard G; Chan YH; Devereux JG; Hoh ST; Seah SK
Ophthalmology 2004; 111: 1475-9 (IGR: 6-2)
10758 Comparison of scanning laser polarimetry using variable corneal compensation and retinal nerve fiber layer photography for detection of glaucoma
Medeiros FA; Zangwill LM; Bowd C; Mohammadi K; Weinreb RN
Archives of Ophthalmology 2004; 122: 698-704 (IGR: 6-2)
10779 Optic disc topography as measured by confocal scanning laser ophthalmoscopy and visual field loss in Japanese patients with primary open-angle or normal-tension glaucoma
Nakatsue T; Shirakashi M; Yaoeda K; Funaki S; Funaki H; Fukushima A; Ofuchi N; Abe H
Journal of Glaucoma 2004; 13: 291-8 (IGR: 6-2)
10831 Relationship between visual field sensitivity and retinal nerve fiber layer thickness as measured by scanning laser polarimetry
Schlottmann PG; De Cilla S; Greenfield DS; Caprioli J; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2004; 45: 1823-9 (IGR: 6-2)
10530 Simulation based analysis of automated, classification of medical images
Adler W; Hothorn T; Lausen B
Methods of Information in Medicine 2004; 43: 150-5 (IGR: 6-2)
10570 Confocal scanning laser ophthalmoscopy classifiers and stereophotograph evaluation for prediction of visual field abnormalities in glaucoma-suspect eyes
Bowd C; Zangwill LM; Medeiros FA; Hao J; Chan K; Lee TW; Sejnowski TJ; Goldbaum MH; Sample PA; Crowston JG
Investigative Ophthalmology and Visual Science 2004; 45: 2255-62 (IGR: 6-2)
10593 The influence of age, sex, race, refractive error and optic disc parameters on the sensitivity and specificity of scanning laser polarimetry
Costa VP; Lauande-Pimentel R; Fonseca RA; Magacho L
Acta Ophthalmologica Scandinavica 2004; 82: 419-25 (IGR: 6-2)
10649 Subjective and objective optic nerve assessment in African Americans and whites
Girkin CA; McGwin G Jr; Long C; Deleon-Ortega J; Graf CM; Everett AW
Investigative Ophthalmology and Visual Science 2004; 45: 2272-8 (IGR: 6-2)
10660 The use of RADAAR (ratio of rim area to disc area asymmetry) in detecting glaucoma and its severity
Harasymowycz P; Davis B; Xu G; Myers J; Bayer A; Spaeth GL
Canadian Journal of Ophthalmology 2004; 39: 240-4 (IGR: 6-2)
10670 Optic nerve head morphometry in healthy adults using confocal laser scanning tomography
Hermann MM; Theofylaktopoulos I; Bangard N; Jonescu-Cuypers C; Coburger S; Diestelhorst M
British Journal of Ophthalmology 2004; 88: 761-5 (IGR: 6-2)
10727 Ability of scanning laser polarimetry (GDx) to discriminate among early glaucomatous, ocular hypertensive and normal eyes in the Korean population
Lee SY; Ha DW; Kook MS
Korean Journal of Ophthalmology 2004; 18: 1-8 (IGR: 6-2)
10739 Discrimination between normal and glaucomatous eyes with the Topographic Scanning System: a preliminary report
Magacho L; Marcondes AM; Costa VP
Ophthalmic Surgery Lasers and Imaging 2004; 35: 225-32 (IGR: 6-2)
10864 Optimizing and validating an approach for identifying glaucomatous change in optic nerve topography
Tan JC; Hitchings RA
Investigative Ophthalmology and Visual Science 2004; 45: 1396-403 (IGR: 6-2)
10866 Tomographic identification of neuroretinal rim loss in high-pressure, normal-pressure, and suspected glaucoma
Tan JC; Poinoosawmy D; Hitchings RA
Investigative Ophthalmology and Visual Science 2004; 45: 2279-85 (IGR: 6-2)
10865 Validity of rim area measurements by different reference planes
Tan JC; White E; Poinoosawmy D; Hitchings RA
Journal of Glaucoma 2004; 13: 245-50 (IGR: 6-2)
10252 Sensitivity and specificity of new GDx parameters
Colen TP; Tang NE; Mulder PG; Lemij HG
Journal of Glaucoma 2004; 13: 28-33 (IGR: 6-1)
10309 Effect of cataract extraction and intraocular lens implantation on nerve fibre layer thickness measurements by scanning laser polarimeter (GDx) in glaucoma patients
Gazzard G; Foster PJ; Devereux JG; Oen F; Chew PT; Khaw PT; Seah SK
Eye 2004; 18: 163-168 (IGR: 6-1)
10243 Variable corneal compensation improves discrimination between normal and glaucomatous eyes with the scanning laser polarimeter
Tannenbaum DP; Hoffman D; Lemij HG; Garway-Heath DF; Greenfield DS; Caprioli J
Ophthalmology 2004; 111: 259-264 (IGR: 6-1)
10484 Correlations between retinal thickness analyzer (RTA) and confocal scanning laser tomography (HRT) in optic disc analysis
Martinez De La Casa JM; Garcia Feijoo J; Castillo Gomez A; Garcia Sanchez J
Archivos de la Sociedad Española de Oftalmologia 2004; 79: 21-25 (IGR: 6-1)
10255 Magnification changes in scanning laser tomography
Tan JC; Poinoosawmy D; Fitzke FW; Hitchings RA
Journal of Glaucoma 2004; 13: 137-141 (IGR: 6-1)
10257 Racial differences in optic disc topography: baseline results from the confocal scanning laser ophthalmoscopy ancillary study to the ocular hypertension treatment study
Zangwill LM; Weinreb RN; Berry CC; Smith AR; Dirkes KA; Coleman AL; Piltz-Seymour JR; Liebmann JM; Cioffi GA; Trick G
Archives of Ophthalmology 2004; 122: 22-28 (IGR: 6-1)
10261 The confocal scanning laser ophthalmoscopy ancillary study to the ocular hypertension treatment study: study design and baseline factors
Zangwill LM; Weinreb RN; Berry CC; Smith AR; Dirkes KA; Liebmann JM; Brandt JD; Trick G; Cioffi GA; Coleman AL
American Journal of Ophthalmology 2004; 137: 219-227 (IGR: 6-1)
10258 Serial topographic changes at the optic disc in normal-tension glaucoma viewed with scanning laser tomography
Kato A; Sugiyama K; Kono Y; Uchida H; Tomita G; Yamamoto T
Nippon Ganka Gakkai Zasshi 2003; 107): 597-601 (IGR: 6-1)
9661 Corneal thickness as a risk factor for visual field loss in patients with preperimetric glaucomatous optic neuropathy
Medeiros FA; Sample PA; Zangwill LM; Bowd C; Aihara M; Weinreb RN
American Journal of Ophthalmology 2003; 136: 805-813 (IGR: 5-3)
9686 Assessment of retinal nerve fiber layer thickness with NFA-GDx following successful scleral buckling surgery
Ozdek S; Lonneville Y; Onol M; Gurelik G; Hasanreisoglu B
European Journal of Ophthalmology 2003; 13: 697-701 (IGR: 5-3)
10031 Study of agreement of optic nerve parameters
Liang Y; Liu X; Ling Y; Huang J
Chinese Journal of Ophthalmology 2003; 39: 471-475 (IGR: 5-3)
9693 Visual field and optic disc progression in patients with different types of optic disc damage
Nicolela MT; McCormick TA; Drance SM; Ferrier SN; Leblanc RP; Chauhan BC
Ophthalmology 2003; 110: 2178-2184 (IGR: 5-3)
9755 Comparison of long-term fluctuations: laser scanning tomography versus automated perimetry
Funk J; Mueller H
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 721-724 (IGR: 5-3)
9762 Correlation analysis of visual field thresholds and scanning laser ophthalmoscopic optic nerve head measurements in glaucoma
Gulati V; Agarwal HC; Sihota R; Saxena R
Ophthalmic and Physiological Optics 2003; 23: 233-242 (IGR: 5-3)
9758 The correlation between optic nerve head topographic measurements, peripapillary nerve fibre layer thickness, and visual field indices in glaucoma
Lan YW; Henson DB; Kwartz AJ
British Journal of Ophthalmology 2003; 87: 1135-1141 (IGR: 5-3)
9786 Clinical decision making based on data from GDx: one-year observations
Bobrow JC; Ritch R; Anderson DR
Transactions of the American Ophthalmological Society 2002; 100: 131-136 (IGR: 5-3)
9779 Glaucomatous optic disc hemorrhages on confocal scanning laser tomographic images
Budde WM; Mardin CY; Jonas JB
Journal of Glaucoma 2003; 12: 470-474 (IGR: 5-3)
9781 Fourier analysis of optical coherence tomography and scanning laser polarimetry retinal nerve fiber layer measurements in the diagnosis of glaucoma
Essock EA; Sinai MJ; Bowd C; Zangwill LM; Weinreb RN
Archives of Ophthalmology 2003; 121: 1238-1245 (IGR: 5-3)
9776 Influence of cycloversions induced by head tilt on scanning laser polarimetry parameters
Jehna AB; Murib RM; Mojonc DS
Ophthalmologica 2003; 217: 311-314 (IGR: 5-3)
9783 Influence of cataract surgery with implantation of different intraocular lenses on scanning laser tomography and polarimetry
Kremmer S; Garway-Heath DF; De Cilla S; Steuhl KP; Selbach JM
American Journal of Ophthalmology 2003; 136: 1016-1021 (IGR: 5-3)
10038 Scanning laser polarimetry in patients with acute attack of primary angle closure
Lai JSM; Tham CCY; Chan JCH; Yip NKF; Tang WWT; Li PSH; Yeung JCC; Lam DSC
Japanese Journal of Ophthalmology 2003; 47: 543-547 (IGR: 5-3)
9777 The effect of blood glucose regulation on retinal nerve fiber layer thickness in diabetic patients
Lonneville YH; Özdek EC; Önol M; Yetkin I; Gürelik G; Hasanreisolu B
Ophthalmologica 2003; 217: 347-350 (IGR: 5-3)
9784 Relationship of optic disc topography and visual function in patients with large cup-to-disc ratios
Mansberger SL; Zangwill LM; Sample PA; Choi D; Weinreb RN
American Journal of Ophthalmology 2003; 136: 888-894 (IGR: 5-3)
9785 Acute conformational changes in the optic nerve head with rapid intraocular pressure elevation: implications for LASIK surgery
Piette S; Liebmann JM; Ishikawa H; Gurses-Ozden R; Buxton D; Ritch R
Ophthalmic Surgery Lasers and Imaging 2003; 34: 334-341 (IGR: 5-3)
9780 Correlation between confocal tomography of the optic nerve (HRT) and the perimetric frequency doubling technology
Sampaolesi R; Brusini P; Sampaolesi JR
Klinische Monatsblätter für Augenheilkunde 2003; 754-766 (IGR: 5-3)
9782 Detecting glaucomatous wedge shaped defects in polarimetric images
Vermeer KA; Vos FM; Lemij HG; Vossepoel AM
Medical Image Analysis 2003; 7: 503-511 (IGR: 5-3)
9787 Assessment of the retinal nerve fiber layer of the normal and glaucomatous monkey with scanning laser polarimetry
Weinreb RN; Bowd C; Zangwill LM; Stamper RL
Transactions of the American Ophthalmological Society 2002; 100: 161-167 (IGR: 5-3)
9778 Effect of laser in situ keratomileusis on optic nerve head topography and retinal nerve fiber layer thickness
Whitson JT; McCulley JP; Cavanagh HD; Song J; Bowman RW; Hertzog L
Journal of Cataract and Refractive Surgery 2003; 29: 2302-2305 (IGR: 5-3)
8919 Glaucoma-screening with the Heidelberg Retina Tomograph II
Kóthy P; Vargha P; Holló G
Klinische Monatsblätter für Augenheilkunde 2003; 540-544 (IGR: 5-2)
9077 In-vivo measurement of autofluorescence in the parapapillary atrophic zone of optic discs with and without glaucomatous atrophy
Viestenz A; Mardin CY; Langenbucher A; Naumann GOH
Klinische Monatsblätter für Augenheilkunde 2003; 545-550 (IGR: 5-2)
9079 Association between scanning laser polarimetry measurements using variable corneal polarization compensation and visual field sensitivity in glaucomatous eyes
Bowd C; Zangwill LM; Weinreb RN
Archives of Ophthalmology 2003; 121: 961-966 (IGR: 5-2)
9083 Fourier analysis of scanning laser polarimetry measurements with variable corneal compensation in glaucoma
Medeiros FA; Zangwill LM; Bowd C; Bernd AS; Weinreb RN
Investigative Ophthalmology and Visual Science 2003; 44: 2606-2612 (IGR: 5-2)
9089 Quantification of retinal nerve fiber defects in glaucoma: three-dimensional analysis by Heidelberg retina tomograph
Miyake K; Uchida H; Sugiyama K; Yamamoto T; Kitazawa Y; Shinohara H
Japanese Journal of Ophthalmology 2003; 47: 347-350 (IGR: 5-2)
9140 Visualization of localized retinal nerve fiber layer defects with the GDx with individualized and with fixed compensation of anterior segment birefringence
Reus NJ; Colen TP; Lemij HG
Ophthalmology 2003; 110: 1512-1516 (IGR: 5-2)
9097 Comparison of optic nerve head assessment with a digital stereoscopic camera (discam), scanning laser ophthalmoscopy, and stereophotography
Correnti AJ; Wollstein G; Price LL; Schuman JS
Ophthalmology 2003; 110: 1499-1505 (IGR: 5-2)
9094 Comparison of data analysis tools for detection of glaucoma with the Heidelberg Retina Tomograph
Ford BA; Artes PH; McCormick TA; Nicolela MT; Leblanc RP; Chauhan BC
Ophthalmology 2003; 110: 1145-1150 (IGR: 5-2)
9095 Racial differences in the association between optic disc topography and early glaucoma
Girkin CA; McGwin Jr G; McNeal SF; Deleon-Ortega J
Investigative Ophthalmology and Visual Science 2003; 44: 3382-3387 (IGR: 5-2)
9105 A comparison of optic disc topographic parameters in patients with primary open angle glaucoma, normal tension glaucoma, and ocular hypertension
Kiriyama N; Ando A; Fukui C; Nambu H; Nishikawa M; Terauchi H; Kuwahara A; Matsumura M
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 541-545 (IGR: 5-2)
9102 Picture archiving and fundus imaging in a glaucoma clinic
Lamminen H
Journal of Telemedicine and Telecare 2003; 9: 114-116 (IGR: 5-2)
9096 New glaucoma classification method based on standard Heidelberg Retina Tomograph parameters by bagging classification trees
Mardin CY; Hothorn T; Peters A; Jünemann AG; Nguyen NX; Lausen B
Journal of Glaucoma 2003; 12: 340-346 (IGR: 5-2)
9090 Detection of glaucomatous visual field changes using the Moorfields regression analysis of the Heidelberg retina tomograph
Miglior S; Guareschi M; Albe E; Gomarasca S; Vavassori M; Orzalesi N
American Journal of Ophthalmology 2003; 136: 26-33 (IGR: 5-2)
9106 The evaluation of retinal nerve fiber layer in pigment dispersion syndrome and pigmentary glaucoma using scanning laser polarimetry
Mocan MC; Bozkurt B; Irkeç M; Orhan M; Karabulut E
European Journal of Ophthalmology 2003; 13: 377-382 (IGR: 5-2)
9092 Variability across the optic nerve head in scanning laser tomography
Tan JC; Garway-Heath DF; Hitchings RA
British Journal of Ophthalmology 2003; 87: 557-559 (IGR: 5-2)
9093 Approach for identifying glaucomatous optic nerve progression by scanning laser tomography
Tan JC; Hitchings RA
Investigative Ophthalmology and Visual Science 2003; 44: 2621-2626 (IGR: 5-2)
9099 Vertical cup to disc ratio: Agreement between direct ophthalmoscopic estimation, fundus biomicroscopic estimation, and scanning laser ophthalmoscopic measurement
Watkins R; Panchal L; Uddin J; Gunvant P
Optometry and Vision Science 2003; 80: 454-459 (IGR: 5-2)
8588 Scanning laser polarimetry with variable corneal compensation and optical coherence tomography in normal and glaucomatous eyes
Bagga H; Greenfield DS; Feuer WJ; Knighton RW
American Journal of Ophthalmology 2003; 135: 521-529 (IGR: 5-1)
8591 Scanning laser polarimetry of edematous and atrophic optic nerve heads
Banks MC; Robe-Collignon NJ; Rizzo JF 3rd; Pasquale LR
Archives of Ophthalmology 2003; 121: 484-490 (IGR: 5-1)
8390 Scanning laser polarimetry and detection of progression after optic disc hemorrhage in patients with glaucoma
Boehm MD; Nedrud C; Greenfield DS; Chen PP
Archives of Ophthalmology 2003; 121: 189-194 (IGR: 5-1)
8615 Effect of individualized compensation for anterior segment birefringence on retinal nerve fiber layer assessments as determined by scanning laser polarimetry
Choplin NT; Zhou Q; Knighton RW
Ophthalmology 2003; 110: 719-725 (IGR: 5-1)
8617 Sensitivity and specificity of the GDx: clinical judgment of standard printouts versus the Number
Colen TP; Lemij HG
Journal of Glaucoma 2003; 12: 129-133 (IGR: 5-1)
8636 Scanning laser polarimetry of the retinal nerve fiber layer in central retinal artery occlusion
Foroozan R; Buono LM; Savino PJ; Sergott RC
Ophthalmology 2003; 110: 715-718 (IGR: 5-1)
8394 Combined use of frequency doubling perimetry and polarimetric measurements of retinal nerve fiber layer in glaucoma detection
Horn FK; Nguyen NX; Mardin CY; Jünemann AG
American Journal of Ophthalmology 2003; 135: 160-168 (IGR: 5-1)
8746 Study of retinal nerve fiber layer thickness within normal hemivisual field in primary open-angle glaucoma and normal-tension glaucoma
Matsumoto C; Shirato S; Haneda M; Yamashiro H; Saito M
Japanese Journal of Ophthalmology 2003; 47: 22-27 (IGR: 5-1)
8751 Low specificity of scanning laser polarimetry
Mojon DS
Ophthalmologica 2003; 217: 17-19 (IGR: 5-1)
8811 Correlation between confocal scanning laser ophthalmoscopy and scanning laser polarimetry in open angle glaucoma
Sihota A; Gulati V; Saxena R; Agarwal HC; Sharma AK
European Journal of Ophthalmology 2003; 13: 266-275 (IGR: 5-1)
8818 Abnormalities of scanning laser polarimetry associated with pituitary adenoma
Tanito M; Itai N; Goto T; Ohira A; Chihara E
American Journal of Ophthalmology 2003; 135: 565-567 (IGR: 5-1)
8391 Glaucoma detection using scanning laser polarimetry with variable corneal polarization compensation
Weinreb RN; Bowd C; Zangwill LM
Archives of Ophthalmology 2003; 121: 218-224 (IGR: 5-1)
8578 Reproducibility of the measurements of the optic nerve head topographic variables with a confocal scanning laser ophthalmoscope
Akar Y; Orhan M; Murat I
Japanese Journal of Ophthalmology 2003; 47: 173-177 (IGR: 5-1)
8602 Determination of optic cup depth by confocal scanning laser tomography
Budde WM; Jonas JB; Hayler JK; Mardin CY
European Journal of Ophthalmology 2003; 13: 42-48 (IGR: 5-1)
8672 Bagging tree classifiers for laser scanning images: a data- and simulation-based strategy
Hothorn T; Lausen B
Artificial Intelligence in Medicine 2003; 27: 65-79 (IGR: 5-1)
8679 Comparison of optic disc topography measured by Retinal Thickness Analyzer with measurement by Heidelberg Retina Tomograph II
Itai N; Tanito M; Chihara E
Japanese Journal of Ophthalmology 2003; 47: 214-220 (IGR: 5-1)
8408 Structure and function evaluation (SAFE): II. Comparison of optic disc and visual field characteristics
Johnson CA; Sample PA; Zangwill LM; Vasile CG; Cioffi GA; Liebmann JR; Weinreb RN
American Journal of Ophthalmology 2003; 135: 148-154 (IGR: 5-1)
8784 The construction of a model eye for investigation of laser-tissue interactions in scanning laser ophthalmoscopy
Rakebrandt F; North RV; Erichsen JT; Drasdo N; Fowler C; Cowey A; Morgan JE
Optometry and Vision Science 2003; 80: 252-258 (IGR: 5-1)
8804 Comparison of optic nerve head measurements obtained by optical coherence tomography and confocal scanning laser ophthalmoscopy
Schuman JS; Wollstein G; Farra T; Hertzmark E; Aydin A; Fujimoto JG; Paunescu LA
American Journal of Ophthalmology 2003; 135: 504-512 (IGR: 5-1)
8402 Reasons for rim area variability in scanning laser tomography
Tan JC; Garway-Heath DF; Fitzke FW; Hitchings RA
Investigative Ophthalmology and Visual Science 2003; 44: 1126-1131 (IGR: 5-1)
8403 Reference plane definition and reproducibility in optic nerve head images
Tan JC; Hitchings RA
Investigative Ophthalmology and Visual Science 2003; 44: 1132-1137 (IGR: 5-1)
8396 Optic disc drusen patients evaluated with nerve fiber laser analyzer
Cavalcanti ACA; Diniz JRP
Revista Brasileira de Oftalmologia 2002; 61: 807-811 (IGR: 5-1)
8399 Interocular comparison of nerve fiber layer thickness and its relation with optic disc size in normal subjects
Ha DW; Sung K; Kim S; Park R; Kim K; Kook MS
Korean Journal of Ophthalmology 2002; 16: 8-12 (IGR: 5-1)
8694 Retinal nerve fiber layer analysis and evaluation of eye blood flow in patients with glaucoma
Karczewicz D; Modrzejewska M; Kuprjanowicz L
Klinika Oczna 2002; 104: 207-210 (IGR: 5-1)
8707 Reproducibility of measurements of the retinal nerve fibre layer thickness: comparison of OCT with NFA and HRT techniques
Klemm M; Rumberger E; Walter A; Richard G
Ophthalmologe 2002; 99: 345-351 (IGR: 5-1)
8572 The normal optic nerve head on Heidelberg Retina Tomograph II
Agarwal HC; Gulati V; Sihota R
Indian Journal of Ophthalmology 2003; 51: 25-33 (IGR: 5-1)
8438 Quantitative and objective topometrical analysis of drusen of the optic nerve head with the Heidelberg retina tomograph (HRT)
Kuchenbecker J; Wecke T; Vorwerk CK; Behrens-Baumann W
Ophthalmologe 2002; 99: 768-773 (IGR: 5-1)
8228 Effect of peripapillary chorioretinal atrophy on GDx parameters in patients with degenerative myopia
Bozkurt B; Irkeç M; Gedik S; Orhan M; Erdener U; Tatlipinar S; Karaagaoglu E
Clinical and Experimental Ophthalmology 2002; 30: 411-414 (IGR: 4-3)
8266 Scanning laser polarimetric analysis of retinal nerve fiber layer thickness in Turkish patients with glaucoma and ocular hypertension
Bozkurt B; Irkeç M; Karaagaoglu E; Orhan M
European Journal of Ophthalmology 2002; 12: 406-512 (IGR: 4-3)
8231 Correlation between changes in the nerve fiber layer and examination of the visual field using automatic perimetry in diagnosing primary open-angle glaucoma
Tanev I; Tanev V
Journal Français d'Ophtalmologie 2002; 25: 936-939 (IGR: 4-3)
8178 Scanning laser polarimetry in monkey eyes using variable corneal polarization compensation
Weinreb RN; Bowd C; Zangwill LM
Journal of Glaucoma 2002; 11: 378-384 (IGR: 4-3)
8256 Morphometric change analysis of the optic nerve head in unilateral disc hemorrhage cases
Ahn JK; Park KH
American Journal of Ophthalmology 2002; 234: 920 (IGR: 4-3)
8175 Comparing neural networks and linear discriminant functions for glaucoma detection using confocal scanning laser ophthalmoscopy of the optic disc
Bowd C; Chan K; Zangwill LM; Goldbaum MH; Lee TW; Sejnowski TJ; Weinreb RN
Investigative Ophthalmology and Visual Science 2002; 43: 3444-3454 (IGR: 4-3)
8166 Effect of intraocular pressure on optic disc topography, electroretinography, and axonal loss in a chronic pressure-induced rat model of optic nerve damage
Chauhan BC; Pan J; Archibald ML; Levatte TL; Kelly MEM; Tremblay F
Investigative Ophthalmology and Visual Science 2002; 43: 2969-2976 (IGR: 4-3)
8176 comparative analysis of changes in optic disc morphology after trabeculectomy, measured by scanning laser tomography
Krzyzanowska P; Jamrozy-Witkowska A; Koziorowska M
Klinika Oczna 2002; 104: 122-127 (IGR: 4-3)
8170 Development of a novel reference plane for the Heidelberg retina tomograph with optical coherence tomography measurements
Park KH; Caprioli J
Journal of Glaucoma 2002; 11: 385-391 (IGR: 4-3)
3412 Motion artifacts in scanning laser polarimetry
Colen TP; Lemij HG
Ophthalmology 2002; 09: 1568-72 (IGR: 4-2)
3413 Comparison of the effectiveness of scanning laser polarimetry and optical coherence tomography for estimating optic nerve fibre layer thickness in patients with glaucoma
Furuichi M; Kashiwagi K; Furuichi Y; Tsukahara S
Ophthalmologica 2002; 216: 168-174 (IGR: 4-2)
3414 Correction for the erroneous compensation of anterior segment birefringence with the scanning laser polarimeter for glaucoma diagnosis
Garway Heath DF; Greaney MJ; Caprioli J
Investigative Ophthalmology and Visual Science 2002; 43: 1465-1474 (IGR: 4-2)
3415 Correction for corneal polarization axis improves the discriminating power of scanning laser polarimetry
Greenfield DS; Knighton RW; Feuer WJ; Schiffman JC; Zangwill L; Weinreb RN
American Journal of Ophthalmology 2002; 134: 27-33 (IGR: 4-2)
3417 Pattern of retinal nerve fiber layer damage in Korean eyes with normal-tension glaucoma and hemifield visual field defect
Kook MS; Lee SU; Sung KR; Tchah H; Kim ST; Kim KR; Kang W
Graefe's Archive for Clinical and Experimental Ophthalmology 2002; 240: 448-456 (IGR: 4-2)
3419 The effect of laser-assisted in situ keratomileusis on retinal nerve fiber layer measurements obtained with scanning laser polarimetry
Roberts TV; Lawless MA; Rogers CM; Sutton GL; Domniz Y
Journal of Glaucoma 2002; 11: 173-176 (IGR: 4-2)
3421 Correlation between the retinal nerve fiber layer thickness and the pattern electroretinogram amplitude
Toffoli G; Vattovani O; Cecchini P; Pastori G; Rinaldi G; Ravalico G
Ophthalmologica 2002; 216: 159-163 (IGR: 4-2)
3422 Measurement of the magnitude and axis of corneal polarization with scanning laser polarimetry
Weinreb RN; Bowd C; Greenfield DS; Zangwill LM
Archives of Ophthalmology 2002; 120: 901-906 (IGR: 4-2)
3423 Detection of early glaucoma using Nerve Fiber Analyzer GDx with new parameters
Yaoeda K; Shirakashi M; Funaki S; Nakatsue T; Fukushima A; Funaki H; Abe H
Japanese Journal of Clinical Ophthalmology 2002; 56: 245-248 (IGR: 4-2)
3425 Individualized compensation of anterior segment birefringence during scanning laser polarimetry
Zhou Q; Weinreb RN
Investigative Ophthalmology and Visual Science 2002; 43: 2221-2228 (IGR: 4-2)
3428 Optic disc cup slope and visual field indices in normal, ocular hypertensive and early glaucomatous eyes
Cullinane AB; Waldock A; Diamond JP; Sparrow JM
British Journal of Ophthalmology 2002; 86: 555-559 (IGR: 4-2)
3431 The Heidelberg Retina Tomograph versus clinical impression in the diagnosis of glaucoma
Kesen MR; Spaeth GL; Henderer JD; Pereira MLM; Smith AF; Steinmann WC
American Journal of Ophthalmology 2002; 133: 613-616 (IGR: 4-2)
3432 Image of optic nerve disc with laser scanning tomography and results of static perimetry in children with juvenile glaucoma
Koraszewska Matuszewska B; Filipek E; Samochowiec Donocik E; Pieczara E; Dudzinski A
Klinika Oczna 2002; 104: 37-40 (IGR: 4-2)
3434 Intraobserver and interobserver reproducibility in the evaluation of optic disc stereometric parameters by Heidelberg Retina Tomograph
Miglior S; Albe E; Guareschi M; Rossetti L; Orzalesi N
Ophthalmology 2002; 109: 1072-1077 (IGR: 4-2)
3437 Variables affecting test-retest variability of Heidelberg Retina Tomograph II stereometric parameters
Sihota R; Gulati V; Agarwal HC; Saxena R; Sharma A; Pandey RM
Journal of Glaucoma 2002; 11: 321-328 (IGR: 4-2)
3438 Reproducibility of optic disc parameters acquisition in Heidelberg retina tomograph intraobserver and interobserver agreement in measurement of topometric data
Wang W; Chen X
Chinese Ophthalmic Research 2002; 20: 173-175 (IGR: 4-2)
3492 Relationship between electrophysiological, psychophysical, and anatomical measurements in glaucoma
Garway Heath DF; Holder GE; Fitzke FW; Hitchings RA
Investigative Ophthalmology and Visual Science 2002; 43: 2213-2220 (IGR: 4-2)
6632 Imaging of the optic disc and retinal nerve fiber layer: the effects of age, optic disc area, refractive error, and gender
Bowd C; Zangwill LM; Blumenthal EZ; Vasile C; Boehm AG; Gokhale PA; Mohammadi K; Amini P; Sankary TM; Weinreb RN
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2002; 19: 197-207 (IGR: 4-1)
6634 Retinal nerve fiber layer analysis and interpretation of GDx parameters in patients with tilted disc syndrome
Bozkurt B; Irkec M; Tatlipinar S; Erdener U; Orhan M; Gedik S; Karaagaoglu E
International Ophthalmology 2002; 24: 27-31 (IGR: 4-1)
6637 Specificity and sensitivity of glaucoma detection in the Japanese population using scanning laser polarimetry
Funaki S; Shirakashi M; Yaoeda K; Abe H; Kunimatsu S; Suzuki Y; Tomita G; Araie M; Yamada N; Uchida H
British Journal of Ophthalmology 2002; 86: 70-74 (IGR: 4-1)
6638 Comparison of optic nerve imaging methods to distinguish normal eyes from those with glaucoma
Greaney MJ; Hoffman DC; Garway Heath DF; Nakla M; Coleman AL; Caprioli J
Investigative Ophthalmology and Visual Science 2002; 43: 140-145 (IGR: 4-1)
6639 Optic nerve and retinal nerve fiber layer analyzers in glaucoma
Greenfield DS
Current Opinions in Ophthalmology 2002; 13: 68-76 (IGR: 4-1)
6640 Analytical model of scanning laser polarimetry for retinal nerve fiber layer assessment
Knighton RW; Huang XR; Greenfield DS
Investigative Ophthalmology and Visual Science 2002; 43: 383-392 (IGR: 4-1)
6641 Axonal loss from acute optic neuropathy documented by scanning laser polarimetry
Meier FM; Bernasconi P; Sturmer J; Caubergh MJ; Landau K
British Journal of Ophthalmology 2002; 86: 285-287 (IGR: 4-1)
6642 Scanning laser polarimetry (SLP) for optic nerve head drusen
Mistlberger A; Sitte S; Hommer A; Emesz M; Dengg S; Hitzl W; Grabner G
International Ophthalmology 2001; 23: 233-237 (IGR: 4-1)
6643 Papillary drusen and ocular hypertension
Moussalli MA; Sanseau A; Ebner R
International Ophthalmology 2001; 23: 275-278 (IGR: 4-1)
6647 Change detection in regional and volumetric disc parameters using longitudinal confocal scanning laser tomography
Burgoyne CF; Mercante DE; Thompson HW
Ophthalmology 2002; 109: 455-466 (IGR: 4-1)
6648 Optic nerve head behavior in Posner-Schlossman syndrome
Darchuk V; Sampaolesi J; Lopez Mato O; Nicoli C; Sampaolesi R
International Ophthalmology 2001; 23: 373-379 (IGR: 4-1)
6651 Discriminant analysis formulas of optic nerve head parameters measured by confocal scanning laser tomography
Iester M; Mardin CY; Budde WM; Junemann AG; Hayler JK; Jonas JB
Journal of Glaucoma 2002; 11: 97-104 (IGR: 4-1)
6653 Large optic nerve heads: megalopapilla or megalodiscs
Sampaolesi R; Sampaolesi JR
International Ophthalmology 2001; 23: 251-257 (IGR: 4-1)
6654 Agreement in assessing optic discs with a digital stereoscopic optic disc camera (Discam) and Heidelberg retina tomograph
Sung VCT; Bhan A; Vernon SA
British Journal of Ophthalmology 2002; 86: 196-202 (IGR: 4-1)
6655 Optic disc topography in pseudopapilledema: a comparison to pseudotumor cerebri
Trick GL; Bhatt SS; Dahl D; Skarf B
Journal of Neuro-Ophthalmology 2001; 21: 240-244 (IGR: 4-1)
6748 The St Gallen digital ophthalmological imaging system
Torok B; Bischoff P
Klinische Monatsblätter für Augenheilkunde 2002; 219: 306-310 (IGR: 4-1)
6315 Stability of corneal polarization axis measurements for scanning laser polarimetry
Greenfield DS; Knighton RW
Ophthalmology 2001; 108: 1065-1069 (IGR: 3-2)
6336 Scanning laser polarimetry versus frequency-doubling perimetry and conventional threshold perimetry: changes during a 12-month follow-up in preperimetry glaucoma: a pilot study
Holló G; Szabó A; Vargha P
Acta Ophthalmologica Scandinavica 2001; 79: 403-407 (IGR: 3-2)
6338 Normal retinal nerve fiber layer thickness in the peripapillary region measured by scanning laser polarimetry
Iester M; Mermoud A
Journal of Glaucoma 2001; 10: 170-176 (IGR: 3-2)
6339 Retinal nerve fiber layer and physiological central corneal thickness
Iester M; Mermoud A
Journal of Glaucoma 2001; 10: 158-162 (IGR: 3-2)
6341 Early detection of moderate glaucoma: redefining clinical care in 2001
Lee PP
Archives of Ophthalmology 2001; 119: 1069-1070 (IGR: 3-2)
6342 The retinal nerve fiber layer defect and its related clinical features in early primary open-angle glaucoma
Li M; Li M.; Fu P
Chinese Journal of Ophthalmology 2001; 37: 193 (IGR: 3-2)
6343 Nerve fiber layer assessment with scanning laser polarimetry in glaucoma patients and glaucoma suspects
Oezdek SC; Oenol M; Hasanreisoglu B
European Journal of Ophthalmology 2001; 11: 139-144 (IGR: 3-2)
6345 Polarimetric nerve fiber analysis in patients with peripapillary myelinated retinal nerve fibers
Tathpinar S; Gedik S; Mocan MC; Orhan M; Irkeç M
Acta Ophthalmologica Scandinavica 2001; 79: 399-402 (IGR: 3-2)
6346 Discriminating between normal and glaucomatous eyes using the Heldelberg Retina Tomography, GDx Nerve Fiber Analyzer, and Optical Coherence Tomograph
Zangwill LM; Bowd C; Berry CC; Williams J; Blumenthal EZ; Sanchez-Galeana CA; Vasile C; Weinreb RN
Archives of Ophthalmology 2001; 199: 985-993 (IGR: 3-2)
6348 Detecting early glaucoma by assessment of retinal nerve fiber layer thickness and visual function
Bowd C; Zangwill LM; Berry CC; Blumenthal EZ; Vasile C; Sanchez-Galeana CA; Bosworth CF; Sample PA; Weinreb RN
Investigative Ophthalmology and Visual Science 2001; 42: 1993-2003 (IGR: 3-2)
6350 Interobserver variability of optic disc variables measured by confocal scanning laser tomography
Iester M; Mikelberg FS; Courtright P; Burk ROW; Caprioli J; Jonas JB; Weinreb RN; Zangwill LM
American Journal of Ophthalmology 2001; 132: 57-62 (IGR: 3-2)
6352 Optic disc changes following trabeculectomy: longitudinal and localisation of change
Kotecha A; Siriwardena D; Fitzke FW; Hitchings RA; Khaw PT
British Journal of Ophthalmology 2001; 85: 956-961 (IGR: 3-2)
6353 The effects of astigmatism and working distance on optic nerve head images using a Heidelberg retina tomograph scanning laser ophthalmoscope
Sheen NJL; Aldridge C; Drasdo N; North RV; Morgan JE
American Journal of Ophthalmology 2001; 131: 716-721 (IGR: 3-2)
6355 Frequency doubling technology and confocal scanning ophthalmoscopic optic disc analysis in open-angle glaucoma with hemifield defects
Wu LL; Suzuki Y; Kunimatsu S; Araie M; Iwase A; Tomita G
Journal of Glaucoma 2001; 10: 256-260 (IGR: 3-2)
15703 Reproducibility of measurements with the nerve fiber analyzer
Colen TP; Tjon-Fo-sang MJ; Mulder PG; Lemij HG
Journal of Glaucoma 2000; 9: 363-370 (IGR: 2-3)
15711 Axonal loss in a patient with anterior ischemic optic neuropathy as measured with scanning laser polarimetry
Colen TP; Van Everdingen JA; Lemij HG
American Journal of Ophthalmology 2000; 130: 847-850 (IGR: 2-3)
15702 Fourier analysis of nerve fiber layer measurements from scanning laser polarimetry in glaucoma: emphasizing shape characteristics of the 'double-hump' pattern
Essock EA; Sinai MJ; Fechtner RD; Srinivasan N; Bryant FD
Journal of Glaucoma 2000; 9: 444-452 (IGR: 2-3)
15706 Effects of artefacts on scanning laser polarimetry of retinal nerve fibre layer thickness measurement
Kogure S; Chiba T; Kinoshita T; Kowa H; Tsukahara S
British Journal of Ophthalmology 2000; 84: 1013-1017 (IGR: 2-3)
15704 Scanning laser polarimetry, retinal nerve fiber layer photography, and perimetry in the diagnosis of glaucomatous nerve fiber defects
Kremmer S; Ayertey HD; Selbach JM; Steuhl K-P
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 922-926 (IGR: 2-3)
15719 Nerve fiber analyzer and short-wavelength automated perimetry in glaucoma suspects: a pilot study
Mok KH; Lee VW
Ophthalmology 2000; 107: 2101-2104 (IGR: 2-3)
15701 Longitudinal nerve fibre layer thickness change in normal-pressure glaucoma
Poinoosawmy DP; Tan JHC; Bunce C; Membrey W; Hitchings RA
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 965-969 (IGR: 2-3)
15705 Changes in the nerve fiber layer thickness following a reduction of intraocular pressure after trabeculectomy
Yamada N; Tomita G; Yamamoto T; Kitazawa Y
Journal of Glaucoma 2000; 9: 371-375 (IGR: 2-3)
15709 Optic disc topography after medical treatment to reduce intraocular pressure
Bowd C; Weinreb RN; Lee B; Emdadi A; Zangwill LM
American Journal of Ophthalmology 2000; 130: 280-286 (IGR: 2-3)
15708 Use of sequential Heidelberg retina tomograph images to identify changes at the optic disc in ocular hypertensive patients at risk of developing glaucoma
Kamal DS; Garway-Heath DF; Hitchings RA; Fitzke FW
British Journal of Ophthalmology 2000; 84: 993-998 (IGR: 2-3)
15710 Ultrasonographic evaluation of optic disc swelling: comparison with CSLO in idiopathic intracranial hypertension
Tamburrelli C; Salgarello T; Caputo CG; Giudiceandrea A; Scullica L
Investigative Ophthalmology and Visual Science 2000; 41: 2960-2966 (IGR: 2-3)
15712 Identifying early glaucomatous changes: comparison between expert clinical assessment of optic disc photographs and confocal scanning ophthalmoscopy
Wollstein G; Garway-Heath DF; Fontana L; Hitchings RA
Ophthalmology 2000; 107: 2272-2277 (IGR: 2-3)
15707 Glaucomatous optic disc changes in the contralateral eye of unilateral normal pressure glaucoma patients
Wollstein G; Garway-Heath DF; Poinoosawmy DP; Hitchings RA
Ophthalmology 2000; 107: 2267-2271 (IGR: 2-3)
5999 Use of the GDx to detect differences in retinal nerve fibre layer thickness between normal, ocular hypertensive and early glaucomatous eyes
Kamal DS; Bunce C; Hitchings RA
Eye 2000; 14: 367-370 (IGR: 2-2)
6000 Measurement of peripapillary retinal nerve fiber layer volume in glaucoma
King AJ; Bolton N; Aspinall P; O'brien CJ
American Journal of Ophthalmology 2000; 129: 599-607 (IGR: 2-2)
6001 Quantitative assessment of the retinal nerve fiber layer in glaucomatous versus healthy eyes using the nerve fiber analyzer
Klemm M; Rumberger E; Richard G
Spektrum der Augenheilkunde 2000; 14: 146-151 (IGR: 2-2)
6003 Correlation of automated visual field parameters and peripapillary nerve fiber layer thickness as measured by scanning laser polarimetry
Kwon YH; Hong S; Honkanen RA; Alward WLM
Journal of Glaucoma 2000; 9: 281-288 (IGR: 2-2)
6004 Nerve fibre layer measurement of the Hong Kong Chinese population by scanning laser polarimetry
Lee VW; Mok KH
Eye 2000; 14: 371-374 (IGR: 2-2)
6007 Longitudinal changes in retinal nerve fiber thickness in glaucoma eyes
Takahashi I; Tanaka M
Japanese Journal of Clinical Ophthalmology 2000; 54: 1071-1076 (IGR: 2-2)
6008 Relation of optic disc topography and age to thickness of retinal nerve fibre layer as measured using scanning laser polarimetry, in normal subjects
Toprak AB; Yilmaz OF
British Journal of Ophthalmology 2000; 84: 473-478 (IGR: 2-2)
6010 Search for an optimal combination of structural and functional parameters for the diagnosis of glaucoma. Multivariate analysis of confocal scanning laser tomograph, blue-on-yellow visual field and retinal nerve fiber layer data
Vihanninjoki K; Teesalu P; Burk ROW; Laara E; Tuulonen A; Airaksinen PJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 477-481 (IGR: 2-2)
6011 Glaucoma screening using the scanning laser polarimeter
Yamada N; Chen PP; Mills RP; Leen MM; Stamper RL; Lieberman MF; Zu L; Stanford DC
Journal of Glaucoma 2000; 9: 254-261 (IGR: 2-2)
6013 Ability of a confocal scanning laser ophthalmoscope (TopSS) to detect early glaucomatous visual field defect
Ahn B-S; Kee C
British Journal of Ophthalmology 2000; 84: 852-855 (IGR: 2-2)
6019 Discriminant analysis models for early detection of glaucomatous optic disc changes
Iester M; Jonas JB; Mardin CY; Budde WM
British Journal of Ophthalmology 2000; 84: 464-468 (IGR: 2-2)
6023 Morphometric changes in optic discs with morphological progression of the glaucomatous optic atrophy measured with laser scanning tomography
Mardin CY; Horn F; Budde WM; Jonas JB
Klinische Monatsblätter für Augenheilkunde 2000; 217: 82-87 (IGR: 2-2)
6024 Measurement of a novel optic disc topographic parameter, 'spikiness', in glaucoma
Morgan-Davies J; King AJ; Aspinall P; O'brien CJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 669-676 (IGR: 2-2)
6028 Automated analysis of normal and glaucomatous optic nerve head topography images
Swindale NV; Stjepanovic G; Chin A; Mikelberg FS
Investigative Ophthalmology and Visual Science 2000; 41: 1730-1742 (IGR: 2-2)
6050 The sensitivity and specificity of TOP, FDP and GDX in screening for early glaucoma
Fabre K; Michiels I; Zeyen T
Bulletin de la Société Belge d'Ophtalmologie 2000; 275: 17-23 (IGR: 2-2)
5596 Interocular differences in optic disc topographic parameters in normal subjects
Gherghel D; Orgül S; Prünte C; Gugleta K; Lübeck P; Gekkieva M; Flammer J
Current Eye Research 2000; 20: 276-282 (IGR: 2-1)
5597 Optical coherence tomography and scanning laser polarimetry in normal, ocular hypertensive, and glaucomatous eyes
Hoh ST; Greenfield DS; Mistlberger A; Liebmann JM; Ishikawa H; Ritch R
American Journal of Ophthalmology 2000; 129:129-135 (IGR: 2-1)
5599 Scanning laser tomography in the diagnosis of juvenile glaucoma
Koraszewska-Matuszewska B; Filipek E; Samochowiec-Donocik E; Pieczara E
Klinika Oczna 1999; 101:185-188 (IGR: 2-1)
5601 Scanning laser polarimetry of the normal human retinal nerve fiber layer: a quantitative analysis
Morgan JE; Waldock A
American Journal of Ophthalmology 2000; 129:76-82 (IGR: 2-1)
5603 Diffuse and localized nerve fiber layer loss measured with a scanning laser polarimeter: sensitivity and specificity of detecting glaucoma
Sinai MJ; Essock EA; Fechtner RD; Srinivasan N
Journal of Glaucoma 2000; 9: 154-162 (IGR: 2-1)
5607 Age related compliance of the lamina cribrosa in human eyes
Albon J; Purslow PP; Karwatowski WS; Easty DL
British Journal of Ophthalmology 2000; 84: 318-323 (IGR: 2-1)
5610 Technique for detecting serial topographic changes in the optic disc and peripapillary retina using scanning laser tomography
Chauhan BC; Blanchard JW; Hamilton DC; Leblanc RP
Investigative Ophthalmology and Visual Science 2000; 41:775-782 (IGR: 2-1)
5612 Comparison of ranked segment analysis (RSA) and cup to disc ratio in computer-assisted optic disc evaluation
Gundersen KG; Åsman P
Acta Ophthalmologica Scandinavica 2000; 78: 137-141 (IGR: 2-1)
5613 Comparability of three-dimensional optic disc imaging with different techniques: a study with confocal scanning laser tomography and raster tomography
Gundersen KG; Heijl A; Bengtsson B
Acta Ophthalmologica Scandinavica 2000; 78: 9-13 (IGR: 2-1)
5614 Scanning laser polarimetry measurements after laser-assisted in situ keratomileusis
Gürses-Özden R; Pons ME; Barbiere C; Ishikawa H; Buxton DF; Liebmann JM; Ritch R
American Journal of Ophthalmology 2000; 129; 461-464 (IGR: 2-1)
5616 The influence of age, gender, refractive error, and optic disc size on the optic disc configuration in Japanese normal eyes
Kashiwagi K; Tamura M; Abe K; Kogure S; Tsukahara S
Acta Ophthalmologica Scandinavica 2000; 78: 200-203 (IGR: 2-1)
5618 Concordance between results of optic disc tomography and high-pass resolution perimetry in glaucoma
Martin LM; Lindblom B; Gedda UK
Journal of Glaucoma 2000; 9:28-33 (IGR: 2-1)
5619 Interobserver differences in assessing glaucomatous optic disc using a Heidelberg Retina Tomograph
Okada M; Tsukamoto H; Okada K; Nii H; Takamatsu M; Mishima HK
Japanese Journal of Clinical Ophthalmology 2000; 54: 313-316 (IGR: 2-1)
5620 Confocal laser scanning ophthalmoscope and spherical harmonics used as a possible aid to detect glaucoma
Rawlinson AA; Cucevic V; Nugent KA; Brooks AM; Klein AG
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2000; 17:477-483 (IGR: 2-1)
5655 Study of the contralateral eye in patients with glaucoma and a unilateral perimetric defect
Susanna R Jr; Galvao-Filho RP
Journal of Glaucoma 2000; 9:34-37 (IGR: 2-1)
15360 Polarimetric measurement of retinal nerve fiber layer thickness in glaucoma diagnosis
Horn FK; Jonas JB; Martus P; Mardin CY; Budde WM
Journal of Glaucoma 1999; 1999: 8: 353-362 (IGR: 1-3)
15362 Comparative study of retinal nerve fiber layer damage in Japanese patients with normal- and high-tension glaucoma
Kubota T; Khalik A; Honda M; Ito S; Nishioka Y; Inomata H
Journal of Glaucoma 1999; 8: 363-366 (IGR: 1-3)
15363 Heidelberg retina tomography and optical coherence tomography in normal, ocular-hypertensive, and glaucomatous eyes
Mistlberger A; Liebmann JM; Greenfield DS; Pons ME; Hoh ST; Ishikawa H; Ritch R
Ophthalmology 1999; 106: 2027-2032 (IGR: 1-3)
15364 Localized wedge-shaped defects of retinal nerve fiber layer and disc hemorrhage in glaucoma
Sugiyama K; Uchida H; Tomita G; Sato Y; Iwase A; Kitazawa Y
Ophthalmology 1999; 106: 1762-1767 (IGR: 1-3)
15365 Accuracy of scanning laser polarimetry in the diagnosis of glaucoma
Trible JR; Schultz RO; Robinson JC; Rothe TL
Archives of Ophthalmology 1999; 117: 1298-1304 (IGR: 1-3)
15366 Evaluating the retinal nerve fiber layer in glaucoma with scanning laser polarimetry
Weinreb RN
Archives of Ophthalmology 1999; 117: 1403-1406 (IGR: 1-3)
15369 Advances in optic nerve head analysis in glaucoma
Fechtner RD; Lama PJ
Seminars in Ophthalmology 1999; 14: 180-188 (IGR: 1-3)
15372 Morphometric features of laminar pores in lamina cribrosa observed by scanning laser ophthalmoscopy
Maeda H; Nakamura M; Yamamoto M
Japanese Journal of Ophthalmology 1999; 43: 415-421 (IGR: 1-3)
15373 Scanning laser tomography to evaluate optic discs of normal eyes
Nakamura H; Maeda T; Suzuki Y; Inoue Y
Japanese Journal of Ophthalmology 1999; 43: 410-414 (IGR: 1-3)
15378 Optic disc topographic measurements after pupil dilation
Zangwill LM; Berry CC; Weinreb RN
Ophthalmology 1999; 106: 1751-1755 (IGR: 1-3)
15405 Spatial relationship of motion automated perimetry and optic disc topography in patients with glaucomatous optic neuropathy
Bosworth CF; Sample PA; Williams JM; Zangwill LM; Lee B; Weinreb RN
Journal of Glaucoma 1999; 8: 281-289 (IGR: 1-3)
15415 Scanning laser polarimetry via intravitreal silicone oil
Holló G; Bereczki A; Milibák T; Süveges I
Acta Ophthalmologica Scandinavica 1999; 77: 519-521 (IGR: 1-3)
15416 Preliminary clinical experience with the Dresden 3D-display as add-on to the Heidelberg Retina Tomograph (HRT)
Müller-Richter DA; Malig HJ; Schwerdtner A; Lang M; Hille K; Ruprecht KW
Klinische Monatsblätter für Augenheilkunde 1999; 215: 182-185 (IGR: 1-3)
15417 New technologies for diagnosing and monitoring glaucomatous optic neuropathy
Zangwill LM; Chang CF; Williams JM; Weinreb RN
Optometry and Vision Science 1999; 76: 526-536 (IGR: 1-3)
5205 A new parameter for assessing the thickness of the retinal nerve fiber layer for glaucoma diagnosis
Kogure S; Iijima H; Tsukahara S
European Journal of Ophthalmology 1999; 9: 93-98 (IGR: 1-2)
5206 Retinal nerve fiber layer measurement by nerve fiber analyzer in normal subjects and patients with glaucoma.
Lee VW; Mok KH
Ophthalmology 1999; 106: 1006-1008 (IGR: 1-2)
5209 Effect of pupillary dilation on retinal nerve fiber layer thickness as measured by scanning laser polarimetry in eyes with and without cataract
Sek Tien Hoh; Greenfield DS; Liebmann JM; Hillenkamp J; Ishikawa H; Mistlberger A; Lim ASM; Ritch R
Journal of Glaucoma 1999; 8: 159-163 (IGR: 1-2)
5210 Detection of nerve fiber bundle defects with laser polarimetry in glaucoma: A clinical study with the nerve fiber analyzer I
Serguhn S; Maier H; Gramer E
Ophthalmologe 1999; 96: 364-369 (IGR: 1-2)
5211 Thickness of retinal nerve fiber layer in early-stage glaucoma
Takahashi I; Tanaka M
Japanese Journal of Clinical Ophthalmology 1999; 53: 1363-1366 (IGR: 1-2)
5220 Change in optic disc topography associated with diurnal variation in intraocular pressure
Lee BL; Zangwill L; Weinreb RN
Journal of Glaucoma 1999; 8: 221-223 (IGR: 1-2)
5221 Reversal of optic disc cupping after glaucoma surgery analyzed with a scanning laser tomograph.
Lesk MR; Spaeth GL; Azuara-Blanco A; Araujo SV; Katz LJ; Terebuh AK; Wilson RP; Moster MR; Schmidt CM
Ophthalmology 1999; 106: 1013-1018 (IGR: 1-2)
5225 Longitudinal changes in optic disc topography of adult patients after trabeculectomy.
Topouzis F; Peng F; Kotas-Neumann R; Garcia R; Sanguinet J; Yu F; Coleman AL
Ophthalmology 1999; 106: 1147-1151 (IGR: 1-2)
5227 (Influence of myopic disc shape in a classification program of the Heidelberg retina tomograph)
Yamazaki Y; Yoshikawa K; Kunimatsu S; Koseki N; Suzuki Y; Matsumoto S; Araie M
Nippon Ganka Gakkai Zasshi 1999; 103: 392-398 (IGR: 1-2)
5267 Optic nerve assessment: a clinical endpoint of optic neuropathy.
Anton Lopez A
European Journal of Ophthalmology 1999; 9 (S1): S37-39 (IGR: 1-2)
5268 Interobserver agreement of Heidelberg Retina Tomograph parameters
Hatch WV; Flanagan JG; Williams-Lyn DE; Buys YM; Farra T; Trope GE
Journal of Glaucoma 1999; 8: 232-237 (IGR: 1-2)
2.14 Optic disc (5118 abstracts found)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Coleman K
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94556 Optic disc morphology in primary open-angle glaucoma versus primary angle-closure glaucoma in South India
Parikh R
Indian Journal of Ophthalmology 2021; 69: 1833-1838 (IGR: 22-2)
94964 Clinical Features of Advanced Glaucoma With Optic Nerve Head Prelaminar Schisis
Sung MS
American Journal of Ophthalmology 2021; 232: 17-29 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Nakakura S
Cureus 2021; 13: e17108 (IGR: 22-2)
94640 Joint optic disc and optic cup segmentation based on boundary prior and adversarial learning
Luo L
International journal of computer assisted radiology and surgery 2021; 16: 905-914 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Ha A
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Choung HK
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
David RCC
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94827 Glaucoma Diagnostic Testing: The Influence of Optic Disc Size
Scheuble P
Klinische Monatsblätter für Augenheilkunde 2022; 239: 1043-1051 (IGR: 22-2)
94682 Optical coherence tomography in the setting of optic nerve head cupping reversal in secondary childhood glaucoma
Elhusseiny AM
Journal of AAPOS 2021; 25: 236-239 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Margeta MA
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Panda SK
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Han X
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Nakahara K
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Oren B
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94346 Mirna Expression in Glaucomatous and TGFβ2 Treated Lamina Cribrosa Cells
Lopez NN
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Song MK
Scientific reports 2021; 11: 15181 (IGR: 22-2)
94848 Vessel Density Loss of the Deep Peripapillary Area in Glaucoma Suspects and Its Association with Features of the Lamina Cribrosa
Jeon SJ
Journal of clinical medicine 2021; 10: (IGR: 22-2)
94542 Disc hemorrhage following peripapillary retinoschisis in glaucoma: a case report
Lee WJ
BMC Ophthalmology 2021; 21: 253 (IGR: 22-2)
94380 Decorin-An Antagonist of TGF-β in Astrocytes of the Optic Nerve
Schneider M
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94705 Vertical Position of the Central Retinal Vessel in the Optic Disc and Its Association With the Site of Visual Field Defects in Glaucoma
Sawada Y
American Journal of Ophthalmology 2021; 229: 253-265 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Moghimi S
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Aksoy Aydemır G
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Shin JW
Scientific reports 2021; 11: 15181 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Cheong H
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94542 Disc hemorrhage following peripapillary retinoschisis in glaucoma: a case report
Seong M
BMC Ophthalmology 2021; 21: 253 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Coleman J
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94705 Vertical Position of the Central Retinal Vessel in the Optic Disc and Its Association With the Site of Visual Field Defects in Glaucoma
Araie M
American Journal of Ophthalmology 2021; 229: 253-265 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Ratanawongphaibul K
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Steven K
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94346 Mirna Expression in Glaucomatous and TGFβ2 Treated Lamina Cribrosa Cells
Rangan R
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Asaoka R
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94848 Vessel Density Loss of the Deep Peripapillary Area in Glaucoma Suspects and Its Association with Features of the Lamina Cribrosa
Park HL
Journal of clinical medicine 2021; 10: (IGR: 22-2)
94640 Joint optic disc and optic cup segmentation based on boundary prior and adversarial learning
Xue D
International journal of computer assisted radiology and surgery 2021; 16: 905-914 (IGR: 22-2)
94380 Decorin-An Antagonist of TGF-β in Astrocytes of the Optic Nerve
Dillinger AE
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Kim M
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)
94827 Glaucoma Diagnostic Testing: The Influence of Optic Disc Size
Petrak M
Klinische Monatsblätter für Augenheilkunde 2022; 239: 1043-1051 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Chung W
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94556 Optic disc morphology in primary open-angle glaucoma versus primary angle-closure glaucoma in South India
Kitnarong N
Indian Journal of Ophthalmology 2021; 69: 1833-1838 (IGR: 22-2)
94964 Clinical Features of Advanced Glaucoma With Optic Nerve Head Prelaminar Schisis
Jin HN
American Journal of Ophthalmology 2021; 232: 17-29 (IGR: 22-2)
94682 Optical coherence tomography in the setting of optic nerve head cupping reversal in secondary childhood glaucoma
VanderVeen DK
Journal of AAPOS 2021; 25: 236-239 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Terao E
Cureus 2021; 13: e17108 (IGR: 22-2)
94827 Glaucoma Diagnostic Testing: The Influence of Optic Disc Size
Brinkmann CK
Klinische Monatsblätter für Augenheilkunde 2022; 239: 1043-1051 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Kuroda N
Cureus 2021; 13: e17108 (IGR: 22-2)
94848 Vessel Density Loss of the Deep Peripapillary Area in Glaucoma Suspects and Its Association with Features of the Lamina Cribrosa
Park CK
Journal of clinical medicine 2021; 10: (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Qassim A
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Tanito M
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94380 Decorin-An Antagonist of TGF-β in Astrocytes of the Optic Nerve
Ohlmann A
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Do JL
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Tun TA
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94346 Mirna Expression in Glaucomatous and TGFβ2 Treated Lamina Cribrosa Cells
Clark AF
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94964 Clinical Features of Advanced Glaucoma With Optic Nerve Head Prelaminar Schisis
Park SW
American Journal of Ophthalmology 2021; 232: 17-29 (IGR: 22-2)
94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Lee JY
Scientific reports 2021; 11: 15181 (IGR: 22-2)
94640 Joint optic disc and optic cup segmentation based on boundary prior and adversarial learning
Pan F
International journal of computer assisted radiology and surgery 2021; 16: 905-914 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Aydemır E
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94556 Optic disc morphology in primary open-angle glaucoma versus primary angle-closure glaucoma in South India
Jonas JB
Indian Journal of Ophthalmology 2021; 69: 1833-1838 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Shim SR
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Franco-Penya H
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94705 Vertical Position of the Central Retinal Vessel in the Optic Disc and Its Association With the Site of Visual Field Defects in Glaucoma
Shibata H
American Journal of Ophthalmology 2021; 229: 253-265 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Tsikata E
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Oh S
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Kim CY
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Shibata N
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Fujio S
Cureus 2021; 13: e17108 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Hamroush F
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94380 Decorin-An Antagonist of TGF-β in Astrocytes of the Optic Nerve
Iozzo RV
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Hou H
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Lee KM
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)
94556 Optic disc morphology in primary open-angle glaucoma versus primary angle-closure glaucoma in South India
Parikh SR
Indian Journal of Ophthalmology 2021; 69: 1833-1838 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Hou H
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Hong JW
Scientific reports 2021; 11: 15181 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Zemplenyi M
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Atesoglu HI
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Devella SK
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94640 Joint optic disc and optic cup segmentation based on boundary prior and adversarial learning
Feng X
International journal of computer assisted radiology and surgery 2021; 16: 905-914 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Marshall HN
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Hou H
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94346 Mirna Expression in Glaucomatous and TGFβ2 Treated Lamina Cribrosa Cells
Tovar-Vidales T
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Proudfoot J
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Goker YS
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Senthil V
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94556 Optic disc morphology in primary open-angle glaucoma versus primary angle-closure glaucoma in South India
Thomas R
Indian Journal of Ophthalmology 2021; 69: 1833-1838 (IGR: 22-2)
94380 Decorin-An Antagonist of TGF-β in Astrocytes of the Optic Nerve
Fuchshofer R
International journal of molecular sciences 2021; 22: (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Mitsuhashi K
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94974 Central retinal vascular trunk deviation in unilateral normal-tension glaucoma
Kim SH
PLoS ONE 2021; 16: e0254889 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Hirose Y
Cureus 2021; 13: e17108 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Bean C
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Murtagh P
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Proudfoot J
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Chang IB
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94988 Choroidal microvasculature dropout is spatially associated with optic nerve head microvasculature loss in open-angle glaucoma
Kook MS
Scientific reports 2021; 11: 15181 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Ondeck CL
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Tremeer M
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Fujino Y
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Kim J
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Fitzpatrick P
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Kim YK
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Tabuchi A
Cureus 2021; 13: e17108 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Krishnadas R
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Zangwill LM
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Kızıltoprak H
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Coleman AL
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
An J
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94942 Association of Optic Disc Tilt and Torsion with Open-Angle Glaucoma Progression Risk: Meta-Analysis and Meta-Regression Analysis
Park KH
American Journal of Ophthalmology 2021; 232: 30-39 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Buist ML
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94609 A Case Report on Premature Twins: Primary Congenital Glaucoma or Large Cupping Disks Mimicking Primary Congenital Glaucoma?
Kiuchi Y
Cureus 2021; 13: e17108 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Aiken M
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94488 Quantitative assessment of retinal changes in COVID-19 patients
Ozcelık KC
Clinical and Experimental Optometry 2021; 104: 717-722 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Kamalipour A
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Matsuura M; Inoue T
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Siggs OM
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Perera S
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Yu F
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Nishida T
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94660 A New Smartphone-Based Optic Nerve Head Biometric for Verification and Change Detection
Combes A; Keegan D
Translational vision science & technology 2021; 10: 1 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Cheng CY
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
de Boer JF
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
De Moraes CG
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Gharahkhani P
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Azuma K
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Girkin CA
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Aung T
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Obata R
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Craig JE
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94576 Disc Hemorrhages are Associated with Localized Three-Dimensional Neuroretinal Rim Thickness Progression in Open-Angle Glaucoma
Chen TC
American Journal of Ophthalmology 2022; 234: 188-198 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Hewitt AW
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Liebmann JM
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Thiéry AH
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94760 Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone
Murata H
British Journal of Ophthalmology 2022; 106: 587-592 (IGR: 22-2)
94978 Characteristics of Central Visual Field Progression in Eyes with Optic Disc Hemorrhage
Weinreb RN
American Journal of Ophthalmology 2021; 231: 109-119 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Trzaskowski M
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
94772 Describing the Structural Phenotype of the Glaucomatous Optic Nerve Head Using Artificial Intelligence
Girard MJA
American Journal of Ophthalmology 2022; 236: 172-182 (IGR: 22-2)
94368 Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA
Macgregor S
American Journal of Human Genetics 2021; 108: 1204-1216 (IGR: 22-2)
92014 The role of clinical examination of the optic nerve head in glaucoma today
Sihota R
Current Opinions in Ophthalmology 2021; 32: 83-91 (IGR: 22-1)
92494 A multi-scale convolutional neural network with context for joint segmentation of optic disc and cup
Yuan X
Artificial Intelligence in Medicine 2021; 113: 102035 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
David RCC
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Andrade JCF
Survey of Ophthalmology 2022; 67: 197-216 (IGR: 22-1)
92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Idriss BR
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)
92038 Recent developments in the use of optical coherence tomography for glaucoma
Vazquez LE
Current Opinions in Ophthalmology 2021; 32: 98-104 (IGR: 22-1)
92561 Commentary review on peripapillary morphological characteristics in high myopia eyes with glaucoma: diagnostic challenges and strategies
Chen YH
International Journal of Ophthalmology 2021; 14: 600-605 (IGR: 22-1)
92142 Relative micro- and macrodiscs-a challenge in optical coherence tomography-based glaucoma diagnostics?
Mardin C
Ophthalmologe 2021; 118: 608-613 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92464 Acute Onset Optic Disc Hemorrhage Following Pharmacologic Mydriasis
Scott JA
Journal of Glaucoma 2021; 30: e379-e381 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Mahmoudinezhad G
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Kılınç Hekimsoy H
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)
92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Shah SN
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)
92617 Characterizing and quantifying the temporal relationship between structural and functional change in glaucoma
Chu FI
PLoS ONE 2021; 16: e0249212 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Tun TA
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Nam JW
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92464 Acute Onset Optic Disc Hemorrhage Following Pharmacologic Mydriasis
Scott JA
Journal of Glaucoma 2021; 30: e379-e381 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Bonnemaijer PWM
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Rezapour J
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Miraftabi A
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Girkin CA
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Li R
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Kim H
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Kiyota N
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Gerberich BG
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Krzyżanowska-Berkowska P
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)
92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Wanichwecharungruang B
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)
92735 Microvascular and structural alterations in the optic nerve head of advanced primary open-angle glaucoma compared with atrophic non-arteritic anterior ischemic optic neuropathy
Hondur G
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1945-1953 (IGR: 22-1)
92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Sawada Y
Scientific reports 2021; 11: 4176 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Bak E
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92267 Evaluation of ganglion cell-inner plexiform layer thickness in the diagnosis of preperimetric glaucoma and comparison to retinal nerve fiber layer
Deshpande GA
Indian Journal of Ophthalmology 2021; 69: 1113-1119 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Lo Faro V
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Shiga Y
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Hannon BG
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92735 Microvascular and structural alterations in the optic nerve head of advanced primary open-angle glaucoma compared with atrophic non-arteritic anterior ischemic optic neuropathy
Sen E
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1945-1953 (IGR: 22-1)
92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Araie M
Scientific reports 2021; 11: 4176 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Wang X
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92267 Evaluation of ganglion cell-inner plexiform layer thickness in the diagnosis of preperimetric glaucoma and comparison to retinal nerve fiber layer
Gupta R
Indian Journal of Ophthalmology 2021; 69: 1113-1119 (IGR: 22-1)
92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Jafari S
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)
92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Kanadani FN
Survey of Ophthalmology 2022; 67: 197-216 (IGR: 22-1)
92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Şekeroğlu AM
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)
92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Kongthaworn A
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Belghith A
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92494 A multi-scale convolutional neural network with context for joint segmentation of optic disc and cup
Zhou L
Artificial Intelligence in Medicine 2021; 113: 102035 (IGR: 22-1)
92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Tran TM
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Kim YW
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92014 The role of clinical examination of the optic nerve head in glaucoma today
Sidhu T
Current Opinions in Ophthalmology 2021; 32: 83-91 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Lee JS
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Czajor K
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Moghimi S
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Lin M
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92038 Recent developments in the use of optical coherence tomography for glaucoma
Bye A
Current Opinions in Ophthalmology 2021; 32: 98-104 (IGR: 22-1)
92561 Commentary review on peripapillary morphological characteristics in high myopia eyes with glaucoma: diagnostic challenges and strategies
Wei RH
International Journal of Ophthalmology 2021; 14: 600-605 (IGR: 22-1)
92617 Characterizing and quantifying the temporal relationship between structural and functional change in glaucoma
Racette L
PLoS ONE 2021; 16: e0249212 (IGR: 22-1)
92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Kang YS
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Bowd C
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92464 Acute Onset Optic Disc Hemorrhage Following Pharmacologic Mydriasis
Liebmann JM
Journal of Glaucoma 2021; 30: e379-e381 (IGR: 22-1)
92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
David RL
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Wang X
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92038 Recent developments in the use of optical coherence tomography for glaucoma
Aref AA
Current Opinions in Ophthalmology 2021; 32: 98-104 (IGR: 22-1)
92561 Commentary review on peripapillary morphological characteristics in high myopia eyes with glaucoma: diagnostic challenges and strategies
Hui YN
International Journal of Ophthalmology 2021; 14: 600-605 (IGR: 22-1)
92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Nilforushan N
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Bowd C
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92267 Evaluation of ganglion cell-inner plexiform layer thickness in the diagnosis of preperimetric glaucoma and comparison to retinal nerve fiber layer
Bawankule P
Indian Journal of Ophthalmology 2021; 69: 1113-1119 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Dohleman J
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92028 Associating the biomarkers of ocular blood flow with lamina cribrosa parameters in normotensive glaucoma suspects. Comparison to glaucoma patients and healthy controls
Iskander DR
PLoS ONE 2021; 16: e0248851 (IGR: 22-1)
92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Koçer AM
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)
92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Sung MS
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Wei Y
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Omodaka K
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Baskaran M
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Park HM
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Atwine D
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)
92735 Microvascular and structural alterations in the optic nerve head of advanced primary open-angle glaucoma compared with atrophic non-arteritic anterior ischemic optic neuropathy
Budakoglu O
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 1945-1953 (IGR: 22-1)
92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Shibata H
Scientific reports 2021; 11: 4176 (IGR: 22-1)
92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Parivadhini A
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Ekici E
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Furlanetto RL
Survey of Ophthalmology 2022; 67: 197-216 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Kim YK
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Wagner D
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Hejri A
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92014 The role of clinical examination of the optic nerve head in glaucoma today
Dada T
Current Opinions in Ophthalmology 2021; 32: 83-91 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Sanyiwa AJ
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92267 Evaluation of ganglion cell-inner plexiform layer thickness in the diagnosis of preperimetric glaucoma and comparison to retinal nerve fiber layer
Bawankule P
Indian Journal of Ophthalmology 2021; 69: 1113-1119 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Rabiolo A
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92494 A multi-scale convolutional neural network with context for joint segmentation of optic disc and cup
Yu S
Artificial Intelligence in Medicine 2021; 113: 102035 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Do JL
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Morales E
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Jeoung JW
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Cho H
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92494 A multi-scale convolutional neural network with context for joint segmentation of optic disc and cup
Li M
Artificial Intelligence in Medicine 2021; 113: 102035 (IGR: 22-1)
92536 Nasal displacement of retinal vessels on the optic disc in glaucoma associated with a nasally angled passage through lamina cribrosa
Iwase T
Scientific reports 2021; 11: 4176 (IGR: 22-1)
92075 Clinical Evaluation of Unilateral Open-Angle Glaucoma: A Two-Year Follow-Up Study
Park SW
Chonnam medical journal 2021; 57: 144-151 (IGR: 22-1)
92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Lopes FS
Survey of Ophthalmology 2022; 67: 197-216 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Hassan HG
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Abdolalizadeh P
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Belghith A
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Medeiros FA
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Fang Y
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Pak K
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)
92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Ruamviboonsuk P
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Winger EJ
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92267 Evaluation of ganglion cell-inner plexiform layer thickness in the diagnosis of preperimetric glaucoma and comparison to retinal nerve fiber layer
Raje D
Indian Journal of Ophthalmology 2021; 69: 1113-1119 (IGR: 22-1)
92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Hekimsoy V
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)
92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Lingam V
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Nongpiur ME
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Chang RT; Myung D
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)
92496 Comparative Study of Lamina Cribrosa Thickness Between Primary Angle-Closure and Primary Open-Angle Glaucoma
Seresirikachorn K
Clinical Ophthalmology 2021; 15: 697-705 (IGR: 22-1)
92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
Balekudaru S
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Tian T
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Hou H
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Schrader Echeverri E
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92267 Evaluation of ganglion cell-inner plexiform layer thickness in the diagnosis of preperimetric glaucoma and comparison to retinal nerve fiber layer
Chakraborty M
Indian Journal of Ophthalmology 2021; 69: 1113-1119 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Proudfoot JA
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Hou H
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Ritch R
Survey of Ophthalmology 2022; 67: 197-216 (IGR: 22-1)
92494 A multi-scale convolutional neural network with context for joint segmentation of optic disc and cup
Wang X
Artificial Intelligence in Medicine 2021; 113: 102035 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Hirunpatravong P
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92801 Time-Course Changes in Optic Nerve Head Blood Flow and Retinal Nerve Fiber Layer Thickness in Eyes with Open-angle Glaucoma
Nakazawa T
Ophthalmology 2021; 128: 663-671 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Tham YC
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Cook C
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Hou H
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Lim HW
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92768 Effect of trabeculectomy on optic nerve head and macular vessel density: an optical coherence tomography angiography study
Rakhshan R
International Ophthalmology 2021; 41: 2677-2688 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Weinreb RN
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92764 Ten-year-and-beyond longitudinal change of ß-zone parapapillary atrophy in glaucoma: association with retinal nerve fibre layer defect
Park KH
British Journal of Ophthalmology 2022; 106: 1393-1398 (IGR: 22-1)
92622 Evaluation of the optic nerve head vessel density in patients with limited scleroderma
Akdoğan A
Therapeutic advances in ophthalmology 2021; 13: 2515841421995387 (IGR: 22-1)
92198 Comparison of spectral domain optical coherence tomography parameters between disc suspects and "pre-perimetric" glaucomatous discs classified on disc photo
George RJ
Indian Journal of Ophthalmology 2021; 69: 603-610 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Seong M
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Nichols LM
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Nguyen DQ
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Sharifipour F
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Liebmann JM
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92494 A multi-scale convolutional neural network with context for joint segmentation of optic disc and cup
Zheng X
Artificial Intelligence in Medicine 2021; 113: 102035 (IGR: 22-1)
92711 Smartphone-based Ophthalmic Imaging Compared With Spectral-domain Optical Coherence Tomography Assessment of Vertical Cup-to-disc Ratio Among Adults in Southwestern Uganda
Onyango J
Journal of Glaucoma 2021; 30: e90-e98 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Christopher M
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Kang L
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Proudfoot JA
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92286 ELUCIDATION OF THE ROLE OF THE LAMINA CRIBROSA IN GLAUCOMA USING OPTICAL COHERENCE TOMOGRAPHY
Prata TS
Survey of Ophthalmology 2022; 67: 197-216 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Gersch HG
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Park J
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Kamalipour A
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Van de Laar S
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Li M
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Strouthidis NG
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Hyman L
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Proudfoot JA
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
91933 Rate of visual field decay in glaucomatous eyes with acquired pits of the optic nerve
Caprioli J
British Journal of Ophthalmology 2021; 105: 381-386 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Lemij HG
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Zangwill LM
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Aung T
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Nishida T
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
MacLeod NA
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Jonas JB
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92223 A Wide-Field Optical Coherence Tomography Normative Database Considering the Fovea-Disc Relationship for Glaucoma Detection
Lee WJ
Translational vision science & technology 2021; 10: 7 (IGR: 22-1)
92264 Diagnostic capability of different morphological parameters for primary open-angle glaucoma in the Chinese population
Cai Y; Pan Y
BMC Ophthalmology 2021; 21: 151 (IGR: 22-1)
92466 Racial Differences in the Rate of Change in Anterior Lamina Cribrosa Surface Depth in the African Descent and Glaucoma Evaluation Study
Fazio MA
Investigative Ophthalmology and Visual Science 2021; 62: 12 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Cheng CY
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Klaver CCW
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Fazio MA
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Gupta S
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Girkin CA
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Weinreb RN
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Read AT
Biomaterials 2021; 271: 120735 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Jansonius NM
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Liebmann JM
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Boote C
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92563 Rates of Retinal Nerve Fiber Layer Thinning in Distinct Glaucomatous Optic Disc Phenotypes in Early Glaucoma
Weinreb RN
American Journal of Ophthalmology 2021; 229: 8-17 (IGR: 22-1)
92602 The influence of axial myopia on optic disc characteristics of glaucoma eyes
Zangwill LM
Scientific reports 2021; 11: 8854 (IGR: 22-1)
92750 Differences in clinical presentation of primary open-angle glaucoma between African and European populations
Thiadens AAHJ
Acta Ophthalmologica 2021; 99: e1118-e1126 (IGR: 22-1)
92015 Determinants of lamina cribrosa depth in healthy Asian eyes: the Singapore Epidemiology Eye Study
Girard MJA
British Journal of Ophthalmology 2021; 105: 367-373 (IGR: 22-1)
92266 Transpupillary collagen photocrosslinking for targeted modulation of ocular biomechanics
Ritch MD; Sridhar S; Toothman MG; Gershon GS; Schwaner SA; Sánchez-Rodríguez G; Goyal V; Toporek AM; Feola AJ; Grossniklaus HE; Pardue MT; Ethier CR; Prausnitz MR
Biomaterials 2021; 271: 120735 (IGR: 22-1)
91498 Comparison of vertical cup-to-disc ratio estimates using stereoscopic and monoscopic cameras
Shrestha R
Eye 2021; 35: 3318-3324 (IGR: 21-4)
91436 Combined Treatment for Optic Disc Pit Maculopathy Secondary to Glaucoma
Torres Ledesma B
Archivos de la Sociedad Española de Oftalmologia 2021; 0: (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
Kamel K
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Uzair N
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)
91740 Optic nerve head anatomy in myopia and glaucoma, including parapapillary zones alpha, beta, gamma and delta: Histology and clinical features
Wang YX
Progress in Retinal and Eye Research 2020; 0: 100933 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Cazana IM
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Yamagami A
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91093 Joint optic disc and cup segmentation based on residual multi-scale fully convolutional neural network
Yuan X
Sheng wu yi xue gong cheng xue za zhi = Journal of biomedical engineering = Shengwu yixue gongchengxue zazhi 2020; 37: 875-884 (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Qian X
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Sun Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91021 Intra-Cellular Calcium Signaling Pathways (PKC, RAS/RAF/MAPK, PI3K) in Lamina Cribrosa Cells in Glaucoma
Irnaten M
Journal of clinical medicine 2020; 10: (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Özkan Aksoy N
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Lee JS
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Wang X
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Liu WW
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Schwaner SA
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91836 Quantification of Translaminar Pressure Gradient (TLPG) With Continuous Wireless Telemetry in Nonhuman Primates (NHPs)
Jasien JV
Translational vision science & technology 2020; 9: 18 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Liu X
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91816 Optic Disc Cupping Due to Dolichoectatic Internal Carotid Artery Optic Nerve Compression
Micieli JA
Journal of Neuro-Ophthalmology 2021; 41: e560-e565 (IGR: 21-4)
91492 Biomechanics of the optic nerve head and peripapillary sclera in a mouse model of glaucoma
Korneva A
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20200708 (IGR: 21-4)
91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
de Paula A
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Ma Y
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Lowry EA
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91038 Comparison of lamina cribrosa properties and the peripapillary vessel density between branch retinal vein occlusion and normal-tension glaucoma
Woo JM
PLoS ONE 2020; 15: e0240109 (IGR: 21-4)
91641 Evaluation of Lamina Cribrosa by Using Enhanced Depth Imaging Optical Coherence Tomography in Ocular Sarcoidosis during Quiescent Phase
Balci S
Optometry and Vision Science 2021; 98: 137-142 (IGR: 21-4)
91492 Biomechanics of the optic nerve head and peripapillary sclera in a mouse model of glaucoma
Kimball EC
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20200708 (IGR: 21-4)
91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Perdicchi A
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Kwok S
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91021 Intra-Cellular Calcium Signaling Pathways (PKC, RAS/RAF/MAPK, PI3K) in Lamina Cribrosa Cells in Glaucoma
Duff A
Journal of clinical medicine 2020; 10: (IGR: 21-4)
91641 Evaluation of Lamina Cribrosa by Using Enhanced Depth Imaging Optical Coherence Tomography in Ocular Sarcoidosis during Quiescent Phase
Turan-Vural E
Optometry and Vision Science 2021; 98: 137-142 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Guo Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Böhringer D
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
91038 Comparison of lamina cribrosa properties and the peripapillary vessel density between branch retinal vein occlusion and normal-tension glaucoma
Cha JB
PLoS ONE 2020; 15: e0240109 (IGR: 21-4)
91436 Combined Treatment for Optic Disc Pit Maculopathy Secondary to Glaucoma
Bueno García P
Archivos de la Sociedad Española de Oftalmologia 2021; 0: (IGR: 21-4)
91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Shamim M
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)
91740 Optic nerve head anatomy in myopia and glaucoma, including parapapillary zones alpha, beta, gamma and delta: Histology and clinical features
Panda-Jonas S
Progress in Retinal and Eye Research 2020; 0: 100933 (IGR: 21-4)
91498 Comparison of vertical cup-to-disc ratio estimates using stereoscopic and monoscopic cameras
Budenz DL
Eye 2021; 35: 3318-3324 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
McClurkin M
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Mansberger SL
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91093 Joint optic disc and cup segmentation based on residual multi-scale fully convolutional neural network
Zheng X
Sheng wu yi xue gong cheng xue za zhi = Journal of biomedical engineering = Shengwu yixue gongchengxue zazhi 2020; 37: 875-884 (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Çakır B
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
O'brien CJ
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91836 Quantification of Translaminar Pressure Gradient (TLPG) With Continuous Wireless Telemetry in Nonhuman Primates (NHPs)
Fazio MA
Translational vision science & technology 2020; 9: 18 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Tun TA
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Lee WJ
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)
91816 Optic Disc Cupping Due to Dolichoectatic Internal Carotid Artery Optic Nerve Compression
Margolin EA
Journal of Neuro-Ophthalmology 2021; 41: e560-e565 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Lau A
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Perry RN
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Li R
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Tomidokoro A
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91093 Joint optic disc and cup segmentation based on residual multi-scale fully convolutional neural network
Ji B
Sheng wu yi xue gong cheng xue za zhi = Journal of biomedical engineering = Shengwu yixue gongchengxue zazhi 2020; 37: 875-884 (IGR: 21-4)
91836 Quantification of Translaminar Pressure Gradient (TLPG) With Continuous Wireless Telemetry in Nonhuman Primates (NHPs)
Samuels BC
Translational vision science & technology 2020; 9: 18 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Nongpiur ME
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Hou H
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Tsikata E
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Lu G
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
91498 Comparison of vertical cup-to-disc ratio estimates using stereoscopic and monoscopic cameras
Mwanza JC
Eye 2021; 35: 3318-3324 (IGR: 21-4)
91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Di Tizio F
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)
91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Lim HW
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Kight AM
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Cao K
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91492 Biomechanics of the optic nerve head and peripapillary sclera in a mouse model of glaucoma
Jefferys JL
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20200708 (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Aksoy YE
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Hou H
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
Zhdanov AV
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Reinhard T
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
91038 Comparison of lamina cribrosa properties and the peripapillary vessel density between branch retinal vein occlusion and normal-tension glaucoma
Lee CK
PLoS ONE 2020; 15: e0240109 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Hou H
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Mamoon SA
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)
91740 Optic nerve head anatomy in myopia and glaucoma, including parapapillary zones alpha, beta, gamma and delta: Histology and clinical features
Jonas JB
Progress in Retinal and Eye Research 2020; 0: 100933 (IGR: 21-4)
91021 Intra-Cellular Calcium Signaling Pathways (PKC, RAS/RAF/MAPK, PI3K) in Lamina Cribrosa Cells in Glaucoma
Clark A
Journal of clinical medicine 2020; 10: (IGR: 21-4)
91436 Combined Treatment for Optic Disc Pit Maculopathy Secondary to Glaucoma
Torres Pereda JP
Archivos de la Sociedad Española de Oftalmologia 2021; 0: (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Matsumoto S
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Gardiner SK
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Sun J
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91021 Intra-Cellular Calcium Signaling Pathways (PKC, RAS/RAF/MAPK, PI3K) in Lamina Cribrosa Cells in Glaucoma
O'Brien C
Journal of clinical medicine 2020; 10: (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Demir Boncukçu K
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Zhang Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91093 Joint optic disc and cup segmentation based on residual multi-scale fully convolutional neural network
Li M
Sheng wu yi xue gong cheng xue za zhi = Journal of biomedical engineering = Shengwu yixue gongchengxue zazhi 2020; 37: 875-884 (IGR: 21-4)
91836 Quantification of Translaminar Pressure Gradient (TLPG) With Continuous Wireless Telemetry in Nonhuman Primates (NHPs)
Johnston JM
Translational vision science & technology 2020; 9: 18 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Yang H
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Pan X
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91498 Comparison of vertical cup-to-disc ratio estimates using stereoscopic and monoscopic cameras
Tulenko SE
Eye 2021; 35: 3318-3324 (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Yamazaki Y
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Fragiotta S
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Evers C
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Naz S
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Htoon HM
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91372 Progression of Parapapillary Choroidal Microvascular Dropout After Disc Hemorrhage in Glaucoma Patients: 2 Case Reports
Seong M
Journal of Glaucoma 2021; 30: e8-e12 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Hui PC
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Winder E
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Jiang L
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Moghimi S
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
Papkovsky DB
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91492 Biomechanics of the optic nerve head and peripapillary sclera in a mouse model of glaucoma
Quigley HA
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20200708 (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
Clark AF
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Feroz L
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Yoshikawa K
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91228 Effect of intraocular pressure lowering on the capillary density of optic nerve head and retinal nerve fiber layer in patients with glaucoma
Scuderi G
European Journal of Ophthalmology 2020; 0: 1120672120967233 (IGR: 21-4)
91836 Quantification of Translaminar Pressure Gradient (TLPG) With Continuous Wireless Telemetry in Nonhuman Primates (NHPs)
Downs JC
Translational vision science & technology 2020; 9: 18 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Tham YC
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Sanchez F
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Xie Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91492 Biomechanics of the optic nerve head and peripapillary sclera in a mouse model of glaucoma
Nguyen TD
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20200708 (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Özmen S
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Elze T
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Pavlatos E
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Engesser D
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Yang H
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Proudfoot JA
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Kang H
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
91498 Comparison of vertical cup-to-disc ratio estimates using stereoscopic and monoscopic cameras
Fleischman D
Eye 2021; 35: 3318-3324 (IGR: 21-4)
91093 Joint optic disc and cup segmentation based on residual multi-scale fully convolutional neural network
Li B
Sheng wu yi xue gong cheng xue za zhi = Journal of biomedical engineering = Shengwu yixue gongchengxue zazhi 2020; 37: 875-884 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Pang R
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Morrison JC
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Reynaud J
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Strouthidis NG
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Clayson K
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Chan E
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Kirk Shung K
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Yamagami J
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91498 Comparison of vertical cup-to-disc ratio estimates using stereoscopic and monoscopic cameras
Gower EW
Eye 2021; 35: 3318-3324 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Anton A
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Çelik E
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Celebi ARC
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
Stamer WD
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91486 Comparison of Retinal Nerve Fibre Layer versus Bruch Membrane Opening-Minimum Rim Width as an Optical Coherence Tomography-based Marker for Glaucoma in Myopia
Kumari K
Journal of the College of Physicians and Surgeons Pakistan 2021; 31: 162-165 (IGR: 21-4)
91750 A comparison of optic disc area measured by confocal scanning laser tomography versus Bruch's membrane opening area measured using optical coherence tomography
Lübke J
BMC Ophthalmology 2021; 21: 31 (IGR: 21-4)
91708 Effects of glaucoma and central corneal thickness on optic nerve head biomechanics
Alagöz G
International Ophthalmology 2021; 41: 1283-1289 (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Humayun MS
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Khoueir Z
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Demirel S
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
90910 Reduced Oxidative Phosphorylation and Increased Glycolysis in Human Glaucoma Lamina Cribrosa Cells
Irnaten M
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Do J
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Burgoyne CF
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Tomita G
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Aung T
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Hazen N
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Shi Y
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
90984 Evaluation of the relationship between glaucomatous disc subtypes and occurrence of disc hemorrhage and glaucoma progression in open angle glaucoma
Araie M
Scientific reports 2020; 10: 21059 (IGR: 21-4)
91402 Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Ethier CR
Journal of Biomechanical Engineering 2021; 143: (IGR: 21-4)
91190 IOP-induced regional displacements in the optic nerve head and correlation with peripapillary sclera thickness
Liu J
Experimental Eye Research 2020; 200: 108202 (IGR: 21-4)
91213 Ultrasonic elastography to assess biomechanical properties of the optic nerve head and peripapillary sclera of the eye
Zhou Q
Ultrasonics 2021; 110: 106263 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Wang H
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Lee R
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Burgoyne CF
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Cheng CY
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Camp A; Welsbie D
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Shieh E
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91629 Peripapillary sclera exhibits a v-shaped configuration that is more pronounced in glaucoma eyes
Girard MJ
British Journal of Ophthalmology 2022; 106: 491-496 (IGR: 21-4)
91717 Association of Optic Nerve Head Prelaminar Schisis With Glaucoma
Fortune B
American Journal of Ophthalmology 2021; 223: 246-258 (IGR: 21-4)
91730 Relationship between corneal stiffness parameters and lamina cribrosa curvature in normal tension glaucoma
Wang N
European Journal of Ophthalmology 2020; 0: 1120672120982521 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Gustavo de Moraes C
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Simavli H; Que C
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Girkin CA; Liebmann JM
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
Guo R
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
91365 Progressive Thinning of Retinal Nerve Fiber Layer and Ganglion Cell-Inner Plexiform Layer in Glaucoma Eyes with Disc Hemorrhage
Weinreb RN
Ophthalmology. Glaucoma 2021; 0: (IGR: 21-4)
91048 Three-dimensional Neuroretinal Rim Thickness and Visual Fields in Glaucoma: A Broken-stick Model
de Boer J; Chen TC
Journal of Glaucoma 2020; 29: 952-963 (IGR: 21-4)
90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Matuoka ML
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Bernstein SL
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90612 The role of the disc damage likelihood scale in glaucoma detection by community optometrists
Formichella P
Ophthalmic and Physiological Optics 2020; 40: 752-759 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
An D
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Topcu H
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Pazos M
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Usui S
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Quillen S
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Jeon SJ
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)
90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Demirtaş AA
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)
90189 Evidence-based understanding of disc hemorrhage in glaucoma
Lee EJ
Survey of Ophthalmology 2021; 66: 412-422 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Ha A
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Park EA
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90281 Long-term morphologic fundus and optic nerve head pattern of progressive myopia in congenital glaucoma distinguished by age at first surgery
Lee EJ
Scientific reports 2020; 10: 10041 (IGR: 21-3)
90265 Joint disc and cup segmentation based on recurrent fully convolutional network
Gao J
PLoS ONE 2020; 15: e0238983 (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Maddineni P
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Sakata R
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Chan ASY
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90187 Optic disc and optic cup segmentation based on anatomy guided cascade network
Bian X
Computer Methods and Programs in Biomedicine 2020; 197: 105717 (IGR: 21-3)
90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Demirtaş AA
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)
90436 Automated glaucoma screening method based on image segmentation and feature extraction
Guo F
Medical and Biological Engineering and Computing 2020; 58: 2567-2586 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Fu H
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Siesky B
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim CY
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)
90786 Decellularizing the Porcine Optic Nerve Head: Toward a Model to Study the Mechanobiology of Glaucoma
Liou JJ
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)
90222 Disc-fovea Angle Is Associated With Visual Field Defect Location in Patients With Glaucoma
Abe RY
Journal of Glaucoma 2020; 29: 964-969 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Soh ZD
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90188 The role of lamina cribrosa tissue stiffness and fibrosis as fundamental biomechanical drivers of pathological glaucoma cupping
Hopkins AA
American Journal of Physiology and Cell Physiology 2020; 319: C611-C623 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Higashide T
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Belkin A
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
90193 Probability distribution guided optic disc and cup segmentation from fundus images
Cheng P
Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020; 2020: 1976-1979 (IGR: 21-3)
89918 Deep Learning for Accurate Diagnosis of Glaucomatous Optic Neuropathy Using Digital Fundus Image: A Meta-Analysis
Islam M
Studies in health technology and informatics 2020; 270: 153-157 (IGR: 21-3)
90173 Laminar and Prelaminar Tissue Characteristics of Glaucomatous Eyes Using Enhanced Depth Imaging OCT
Yazdani S
Ophthalmology. Glaucoma 2021; 4: 95-101 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
La Bruna S
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Mendez-Hernandez C
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90833 Comparison of Lamina Cribrosa Curvature in Pseudoexfoliation and Primary Open-Angle Glaucoma
Won HJ
American Journal of Ophthalmology 2020; 223: 1-8 (IGR: 21-3)
90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Tornow RP
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Biarnés M
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Tsamis E
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Yoshitomi T
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Chee ML
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Altan C
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90188 The role of lamina cribrosa tissue stiffness and fibrosis as fundamental biomechanical drivers of pathological glaucoma cupping
Murphy R
American Journal of Physiology and Cell Physiology 2020; 319: C611-C623 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Tsikata E
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Lee EJ
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)
90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Santos KS
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Guo Y
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90612 The role of the disc damage likelihood scale in glaucoma detection by community optometrists
Annoh R
Ophthalmic and Physiological Optics 2020; 40: 752-759 (IGR: 21-3)
90173 Laminar and Prelaminar Tissue Characteristics of Glaucomatous Eyes Using Enhanced Depth Imaging OCT
Naderi Beni A
Ophthalmology. Glaucoma 2021; 4: 95-101 (IGR: 21-3)
90786 Decellularizing the Porcine Optic Nerve Head: Toward a Model to Study the Mechanobiology of Glaucoma
Drewry MD
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Li F
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Chee ML
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90436 Automated glaucoma screening method based on image segmentation and feature extraction
Li W
Medical and Biological Engineering and Computing 2020; 58: 2567-2586 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Tsamis E
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Sun S
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90222 Disc-fovea Angle Is Associated With Visual Field Defect Location in Patients With Glaucoma
Matos AG
Journal of Glaucoma 2020; 29: 964-969 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Schaub J
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90833 Comparison of Lamina Cribrosa Curvature in Pseudoexfoliation and Primary Open-Angle Glaucoma
Sung KR
American Journal of Ophthalmology 2020; 223: 1-8 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Wentz SM
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Greene RA
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
90193 Probability distribution guided optic disc and cup segmentation from fundus images
Lyu J
Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020; 2020: 1976-1979 (IGR: 21-3)
89918 Deep Learning for Accurate Diagnosis of Glaucomatous Optic Neuropathy Using Digital Fundus Image: A Meta-Analysis
Poly TN
Studies in health technology and informatics 2020; 270: 153-157 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Wang S
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
House P
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Tun TA
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Kolar R
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)
90189 Evidence-based understanding of disc hemorrhage in glaucoma
Kee HJ
Survey of Ophthalmology 2021; 66: 412-422 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Tsamis E
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Kasetti RB
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Schaub J
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90281 Long-term morphologic fundus and optic nerve head pattern of progressive myopia in congenital glaucoma distinguished by age at first surgery
Han JC
Scientific reports 2020; 10: 10041 (IGR: 21-3)
90187 Optic disc and optic cup segmentation based on anatomy guided cascade network
Luo X
Computer Methods and Programs in Biomedicine 2020; 197: 105717 (IGR: 21-3)
90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Duru Z
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Ikuno Y
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90265 Joint disc and cup segmentation based on recurrent fully convolutional network
Jiang Y
PLoS ONE 2020; 15: e0238983 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Ohkubo S
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Park HL
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)
90189 Evidence-based understanding of disc hemorrhage in glaucoma
Han JC
Survey of Ophthalmology 2021; 66: 412-422 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Quigley H
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90281 Long-term morphologic fundus and optic nerve head pattern of progressive myopia in congenital glaucoma distinguished by age at first surgery
Park DY
Scientific reports 2020; 10: 10041 (IGR: 21-3)
90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Duru N
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Arribas-Pardo P
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90436 Automated glaucoma screening method based on image segmentation and feature extraction
Tang J
Medical and Biological Engineering and Computing 2020; 58: 2567-2586 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Zemborain ZZ
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Udagawa S
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Lee JJ
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Patel PD
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90222 Disc-fovea Angle Is Associated With Visual Field Defect Location in Patients With Glaucoma
Gracitelli CPB
Journal of Glaucoma 2020; 29: 964-969 (IGR: 21-3)
90833 Comparison of Lamina Cribrosa Curvature in Pseudoexfoliation and Primary Open-Angle Glaucoma
Shin JW
American Journal of Ophthalmology 2020; 223: 1-8 (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Mathew DJ
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
89918 Deep Learning for Accurate Diagnosis of Glaucomatous Optic Neuropathy Using Digital Fundus Image: A Meta-Analysis
Yang HC
Studies in health technology and informatics 2020; 270: 153-157 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Barry C
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Allen JC
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90187 Optic disc and optic cup segmentation based on anatomy guided cascade network
Wang C
Computer Methods and Programs in Biomedicine 2020; 197: 105717 (IGR: 21-3)
90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Odstrcilik J
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Januleviciene I
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Cakmak S
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90193 Probability distribution guided optic disc and cup segmentation from fundus images
Huang Y
Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020; 2020: 1976-1979 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Blasco-Alberto A
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90786 Decellularizing the Porcine Optic Nerve Head: Toward a Model to Study the Mechanobiology of Glaucoma
Sweeney A
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Asai T
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Kim YC
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)
90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Cruz NF
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Kerr C
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Kim YK
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90173 Laminar and Prelaminar Tissue Characteristics of Glaucomatous Eyes Using Enhanced Depth Imaging OCT
Pakravan M
Ophthalmology. Glaucoma 2021; 4: 95-101 (IGR: 21-3)
90265 Joint disc and cup segmentation based on recurrent fully convolutional network
Zhang H
PLoS ONE 2020; 15: e0238983 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Thakur S
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90188 The role of lamina cribrosa tissue stiffness and fibrosis as fundamental biomechanical drivers of pathological glaucoma cupping
Irnaten M
American Journal of Physiology and Cell Physiology 2020; 319: C611-C623 (IGR: 21-3)
90612 The role of the disc damage likelihood scale in glaucoma detection by community optometrists
Zeri F
Ophthalmic and Physiological Optics 2020; 40: 752-759 (IGR: 21-3)
90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Araie M
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Xu Y
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim JA
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Trope GE
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
90786 Decellularizing the Porcine Optic Nerve Head: Toward a Model to Study the Mechanobiology of Glaucoma
Brown BN
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)
90222 Disc-fovea Angle Is Associated With Visual Field Defect Location in Patients With Glaucoma
Prata TS
Journal of Glaucoma 2020; 29: 964-969 (IGR: 21-3)
90187 Optic disc and optic cup segmentation based on anatomy guided cascade network
Liu W
Computer Methods and Programs in Biomedicine 2020; 197: 105717 (IGR: 21-3)
90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Labounkova I
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Kim DH
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90193 Probability distribution guided optic disc and cup segmentation from fundus images
Tang X
Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020; 2020: 1976-1979 (IGR: 21-3)
89918 Deep Learning for Accurate Diagnosis of Glaucomatous Optic Neuropathy Using Digital Fundus Image: A Meta-Analysis
Atique S
Studies in health technology and informatics 2020; 270: 153-157 (IGR: 21-3)
90265 Joint disc and cup segmentation based on recurrent fully convolutional network
Wang F
PLoS ONE 2020; 15: e0238983 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Dyrda A
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Lee J
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Turpin A
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90689 The occurrence of optic disc haemorrhage in primary open-angle glaucoma eyes with lower normal pressure and its relating factors
Acta Ophthalmologica 2021; 99: e28-e35 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Lynn MN
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Millar JC
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Sugiyama K
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90833 Comparison of Lamina Cribrosa Curvature in Pseudoexfoliation and Primary Open-Angle Glaucoma
Jo YH
American Journal of Ophthalmology 2020; 223: 1-8 (IGR: 21-3)
90744 Evaluation of retina nerve fiber layer, ganglion cell-inner plexiform layer and lamina cribrosa in clinically unilateral exfoliative glaucoma
Erdoğan H
International Ophthalmology 2020; 40: 2691-2697 (IGR: 21-3)
90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim H
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Fawcett RJ
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Liao J
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90189 Evidence-based understanding of disc hemorrhage in glaucoma
Kee C
Survey of Ophthalmology 2021; 66: 412-422 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Wu Z
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Salazar-Quiñones L
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90281 Long-term morphologic fundus and optic nerve head pattern of progressive myopia in congenital glaucoma distinguished by age at first surgery
Kee C
Scientific reports 2020; 10: 10041 (IGR: 21-3)
90612 The role of the disc damage likelihood scale in glaucoma detection by community optometrists
Tatham AJ
Ophthalmic and Physiological Optics 2020; 40: 752-759 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Pease M
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Kikawa T
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Kim EK
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Alagoz N
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90456 Correlation between ocular perfusion pressure and translaminar pressure difference in glaucoma: Evidence for a three-pressure disease?
Kasahara N
European Journal of Ophthalmology 2020; 0: 1120672120960584 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Shieh E
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90436 Automated glaucoma screening method based on image segmentation and feature extraction
Zou B
Medical and Biological Engineering and Computing 2020; 58: 2567-2586 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Tham YC
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90188 The role of lamina cribrosa tissue stiffness and fibrosis as fundamental biomechanical drivers of pathological glaucoma cupping
Wallace DM
American Journal of Physiology and Cell Physiology 2020; 319: C611-C623 (IGR: 21-3)
90784 Progressive retinal nerve fibre layer thinning and choroidal microvasculature dropout at the location of disc haemorrhage in glaucoma
Kim TW
British Journal of Ophthalmology 2021; 105: 674-680 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Jeoung JW
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Akiba M
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90174 Association of Scleral Deformation Around the Optic Nerve Head With Central Visual Function in Normal-Tension Glaucoma and Myopia
Park CK
American Journal of Ophthalmology 2020; 217: 287-296 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Tanihara H
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Tun SBB
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Jin YP
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Stern JH
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Tao Y
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90441 Imaging video plethysmography shows reduced signal amplitude in glaucoma patients in the area of the microvascular tissue of the optic nerve head
Horn F
Graefe's Archive for Clinical and Experimental Ophthalmology 2021; 259: 483-494 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Burgett KM
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
De Moraes CG
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
McKendrick AM
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90188 The role of lamina cribrosa tissue stiffness and fibrosis as fundamental biomechanical drivers of pathological glaucoma cupping
Quill B
American Journal of Physiology and Cell Physiology 2020; 319: C611-C623 (IGR: 21-3)
89918 Deep Learning for Accurate Diagnosis of Glaucomatous Optic Neuropathy Using Digital Fundus Image: A Meta-Analysis
Li YJ
Studies in health technology and informatics 2020; 270: 153-157 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Braaf B
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Korneva A
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Pasaoglu IB
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90786 Decellularizing the Porcine Optic Nerve Head: Toward a Model to Study the Mechanobiology of Glaucoma
Vande Geest JP
Translational vision science & technology 2020; 9: 17 (IGR: 21-3)
90436 Automated glaucoma screening method based on image segmentation and feature extraction
Fan Z
Medical and Biological Engineering and Computing 2020; 58: 2567-2586 (IGR: 21-3)
90187 Optic disc and optic cup segmentation based on anatomy guided cascade network
Lin X
Computer Methods and Programs in Biomedicine 2020; 197: 105717 (IGR: 21-3)
90833 Comparison of Lamina Cribrosa Curvature in Pseudoexfoliation and Primary Open-Angle Glaucoma
Song MK
American Journal of Ophthalmology 2020; 223: 1-8 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Güemes-Villahoz N
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Luque-Fernández MÁ
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Kiehlbauch C
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90222 Disc-fovea Angle Is Associated With Visual Field Defect Location in Patients With Glaucoma
Ribeiro GB
Journal of Glaucoma 2020; 29: 964-969 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Xiong J
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Kimball E
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90188 The role of lamina cribrosa tissue stiffness and fibrosis as fundamental biomechanical drivers of pathological glaucoma cupping
O'Brien C
American Journal of Physiology and Cell Physiology 2020; 319: C611-C623 (IGR: 21-3)
90222 Disc-fovea Angle Is Associated With Visual Field Defect Location in Patients With Glaucoma
Paula JS
Journal of Glaucoma 2020; 29: 964-969 (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Gentili F
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Fernandez-Perez C
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Chauhan BC
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Lim ZW
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Vakoc BJ
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Araie M
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Clark AF
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Miki A
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Shen J
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Solmaz B
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Gómez A
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Verticchio Vercellin AC
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Ritch R
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Kim HC
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Temple S
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90116 Astrocyte responses to experimental glaucoma in mouse optic nerve head
Kimball E
PLoS ONE 2020; 15: e0238104 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Barathi VA
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Basarir B
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Rowe LW
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90399 CNS axonal degeneration and transport deficits at the optic nerve head precede structural and functional loss of retinal ganglion cells in a mouse model of glaucoma
Zode GS
Molecular Neurodegeneration 2020; 15: 48 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Liu J
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90292 A Topographic Comparison of OCT Minimum Rim Width (BMO-MRW) and Circumpapillary Retinal Nerve Fiber Layer (cRNFL) Thickness Measures in Eyes With or Suspected Glaucoma
Hood DC
Journal of Glaucoma 2020; 29: 671-680 (IGR: 21-3)
90810 Diagnostic validity of optic nerve head colorimetric assessment and optical coherence tomography angiography in patients with glaucoma
Garcia-Feijoo J
British Journal of Ophthalmology 2021; 105: 957-963 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Mora C
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Matsushita K
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Mani B
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90745 Postural Changes and the Trans-Lamina Cribrosa Pressure Difference: A Pilot Study in Neurosurgical Patients without Glaucoma
Buys YM
Ophthalmology. Glaucoma 2020; 3: 269-273 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Rowe LW
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Tomita G
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90199 The optic nerve lamina region is a neural progenitor cell niche
Mehrabian Z
Proceedings of the National Academy of Sciences of the United States of America 2020; 117: 19287-19298 (IGR: 21-3)
90039 Deep-learning-based enhanced optic-disc photography
Park KH
PLoS ONE 2020; 15: e0239913 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Manners S
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Girard MJA
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Bouma BE
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Wong TT
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Aung T
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90852 Comparison of the lamina cribrosa parameters in eyes with exfoliation syndrome, exfoliation glaucoma and healthy subjects
Yasar T
Photodiagnosis and photodynamic therapy 2020; 31: 101832 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Kawasaki R
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Eckert GJ
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Matsumoto C
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
de Boer JF
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Milla E
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Graham S
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90692 A Retrospective Comparison of Deep Learning to Manual Annotations for Optic Disc and Optic Cup Segmentation in Fundus Photographs
Zhang X;
Translational vision science & technology 2020; 9: 33 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Fukuchi T
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Aung T
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90637 Artifact Rates for 2D Retinal Nerve Fiber Layer Thickness Versus 3D Neuroretinal Rim Thickness Using Spectral-Domain Optical Coherence Tomography
Chen TC
Translational vision science & technology 2020; 9: 10 (IGR: 21-3)
90284 Longitudinal assessment of optic nerve head changes using optical coherence tomography in a primate microbead model of ocular hypertension
Aihara M
Scientific reports 2020; 10: 14709 (IGR: 21-3)
90862 Effect of peripapillary tilt direction and magnitude on central visual field defects in primary open-angle glaucoma with high myopia
Nishida K
Japanese Journal of Ophthalmology 2020; 64: 414-422 (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Yu DY
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Muniesa M
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90285 Baseline structural characteristics of the optic nerve head and retinal nerve fiber layer are associated with progressive visual field loss in patients with open-angle glaucoma
Harris A
PLoS ONE 2020; 15: e0236819 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Tomidokoro A
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90811 Recurrent Optic Disc Hemorrhage and Its Association with Visual Field Deterioration in Glaucoma
Morgan WH
Ophthalmology. Glaucoma 2020; 3: 443-452 (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Antón A
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90437 Asian-specific vertical cup-to-disc ratio cut-off for glaucoma screening: An evidence-based recommendation from a multi-ethnic Asian population
Cheng CY
Clinical and Experimental Ophthalmology 2020; 48: 1210-1218 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Hangai M
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
90491 SD-OCT peripapillary nerve fibre layer and ganglion cell complex parameters in glaucoma: principal component analysis
Díaz-Alemán VT
British Journal of Ophthalmology 2021; 105: 496-501 (IGR: 21-3)
90854 Spatial and Temporal Relationship between Structural Progression and Disc Hemorrhage in Glaucoma in a 3-Year Prospective Study
Kawata H; Inai M; Tanaka Y;
Ophthalmology. Glaucoma 2020; 0: (IGR: 21-3)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Korneva A
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
Oikawa K
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Zhang L
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86832 The Effects of Glaucoma on the Pressure-Induced Strain Response of the Human Lamina Cribrosa
Midgett D
Investigative Ophthalmology and Visual Science 2020; 61: 41 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Verticchio Vercellin AC
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Jin Y
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Jasty U
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
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 (IGR: 21-2)
86706 Association of lamina cribrosa morphometry with retinal nerve fiber layer loss and visual field defects in primary open angle glaucoma
Naz AS
Pakistan journal of medical sciences 2020; 36: 521-525 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Kiyota N
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
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 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Lee J
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Hou TY
Scientific reports 2020; 10: 5608 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Zhao Z
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Shukla AG
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Sung MS
Scientific reports 2020; 10: 4607 (IGR: 21-2)
86495 Optic Disc and Cup Image Segmentation Utilizing Contour-Based Transformation and Sequence Labeling Networks
Xie Z
Journal of Medical Systems 2020; 44: 96 (IGR: 21-2)
86370 Visual Field Cluster Map Corresponding to Bruch Membrane Opening-minimum Rim Area Sectors in Open-angle Glaucoma
Choi HS
Journal of Glaucoma 2020; 29: 485-491 (IGR: 21-2)
86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Kim JA
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)
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 (IGR: 21-2)
86689 Newly Onset Optic Disc Pit Maculopathy (ODP-M) in a Patient With Primary Angle-closure Glaucoma (PACG) After Surgical Iridectomy: A Case Report
Li C
Journal of Glaucoma 2020; 29: e44-e49 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Shukla AG
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86587 Factors affecting optic nerve head biomechanics in a rat model of glaucoma
Schwaner SA
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20190695 (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)
86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Simsek M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)
86142 The inflation response of the human lamina cribrosa and sclera: Analysis of deformation and interaction
Midgett DE
Acta biomaterialia 2020; 106: 225-241 (IGR: 21-2)
86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Lee SH
Scientific reports 2020; 10: 6761 (IGR: 21-2)
86329 Nasalization of Central Retinal Vessel Trunk Predicts Rapid Progression of Central Visual Field in Open-Angle Glaucoma
Shon K
Scientific reports 2020; 10: 3789 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Gietzelt C
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
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)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Harris A
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Sirinek PE
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86370 Visual Field Cluster Map Corresponding to Bruch Membrane Opening-minimum Rim Area Sectors in Open-angle Glaucoma
Park SP
Journal of Glaucoma 2020; 29: 485-491 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Schaub J
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86142 The inflation response of the human lamina cribrosa and sclera: Analysis of deformation and interaction
Jefferys JL
Acta biomaterialia 2020; 106: 225-241 (IGR: 21-2)
86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Araie M
American Journal of Ophthalmology 2020; 216: 28-36 (IGR: 21-2)
86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Kuang TM
Scientific reports 2020; 10: 5608 (IGR: 21-2)
86329 Nasalization of Central Retinal Vessel Trunk Predicts Rapid Progression of Central Visual Field in Open-Angle Glaucoma
Hye Jo Y
Scientific reports 2020; 10: 3789 (IGR: 21-2)
86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Kim TW
Scientific reports 2020; 10: 6761 (IGR: 21-2)
86517 The Relationship Between Optic Nerve Cup-to-Disc Ratio and Retinal Nerve Fiber Layer Thickness in Suspected Pediatric Glaucoma
Machen L
Journal of Pediatric Ophthalmology & Strabismus 2020; 57: 90-96 (IGR: 21-2)
86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Kocer AM
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Beotra MR
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
von Goscinski C
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86587 Factors affecting optic nerve head biomechanics in a rat model of glaucoma
Feola AJ
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20190695 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Wang X
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86689 Newly Onset Optic Disc Pit Maculopathy (ODP-M) in a Patient With Primary Angle-closure Glaucoma (PACG) After Surgical Iridectomy: A Case Report
Guo C
Journal of Glaucoma 2020; 29: e44-e49 (IGR: 21-2)
86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Mendez-Hernandez C
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Xu L
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Shiga Y
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Harris A
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Schaub J
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
Ver Hoeve JN
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86495 Optic Disc and Cup Image Segmentation Utilizing Contour-Based Transformation and Sequence Labeling Networks
Ling T
Journal of Medical Systems 2020; 44: 96 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Kim JS
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86832 The Effects of Glaucoma on the Pressure-Induced Strain Response of the Human Lamina Cribrosa
Liu B
Investigative Ophthalmology and Visual Science 2020; 61: 41 (IGR: 21-2)
86517 The Relationship Between Optic Nerve Cup-to-Disc Ratio and Retinal Nerve Fiber Layer Thickness in Suspected Pediatric Glaucoma
Machen L
Journal of Pediatric Ophthalmology & Strabismus 2020; 57: 90-96 (IGR: 21-2)
86706 Association of lamina cribrosa morphometry with retinal nerve fiber layer loss and visual field defects in primary open angle glaucoma
Qamar A
Pakistan journal of medical sciences 2020; 36: 521-525 (IGR: 21-2)
86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Heo H
Scientific reports 2020; 10: 4607 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Siesky B
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Shibata H
American Journal of Ophthalmology 2020; 216: 28-36 (IGR: 21-2)
86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Piao H
Scientific reports 2020; 10: 4607 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Ding X
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
De Moraes CG
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
Teixeira LBC
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Baskaran M
Investigative Ophthalmology and Visual Science 2020; 61: 27 (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)
86689 Newly Onset Optic Disc Pit Maculopathy (ODP-M) in a Patient With Primary Angle-closure Glaucoma (PACG) After Surgical Iridectomy: A Case Report
Yang Y
Journal of Glaucoma 2020; 29: e44-e49 (IGR: 21-2)
86517 The Relationship Between Optic Nerve Cup-to-Disc Ratio and Retinal Nerve Fiber Layer Thickness in Suspected Pediatric Glaucoma
Jang I
Journal of Pediatric Ophthalmology & Strabismus 2020; 57: 90-96 (IGR: 21-2)
86706 Association of lamina cribrosa morphometry with retinal nerve fiber layer loss and visual field defects in primary open angle glaucoma
Haque SU
Pakistan journal of medical sciences 2020; 36: 521-525 (IGR: 21-2)
86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Cevik S
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)
86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Lee EJ
Scientific reports 2020; 10: 6761 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Lemke J
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Arribas-Pardo P
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Jefferys J
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86142 The inflation response of the human lamina cribrosa and sclera: Analysis of deformation and interaction
Quigley HA
Acta biomaterialia 2020; 106: 225-241 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Irnadiastputri SFR
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86495 Optic Disc and Cup Image Segmentation Utilizing Contour-Based Transformation and Sequence Labeling Networks
Yang Y
Journal of Medical Systems 2020; 44: 96 (IGR: 21-2)
86517 The Relationship Between Optic Nerve Cup-to-Disc Ratio and Retinal Nerve Fiber Layer Thickness in Suspected Pediatric Glaucoma
Jang I
Journal of Pediatric Ophthalmology & Strabismus 2020; 57: 90-96 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Lee HJ
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86832 The Effects of Glaucoma on the Pressure-Induced Strain Response of the Human Lamina Cribrosa
Ling YTT
Investigative Ophthalmology and Visual Science 2020; 61: 41 (IGR: 21-2)
86370 Visual Field Cluster Map Corresponding to Bruch Membrane Opening-minimum Rim Area Sectors in Open-angle Glaucoma
Na KI
Journal of Glaucoma 2020; 29: 485-491 (IGR: 21-2)
86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Piao H
Scientific reports 2020; 10: 4607 (IGR: 21-2)
86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)
86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Ko YC
Scientific reports 2020; 10: 5608 (IGR: 21-2)
86329 Nasalization of Central Retinal Vessel Trunk Predicts Rapid Progression of Central Visual Field in Open-Angle Glaucoma
Won Shin J
Scientific reports 2020; 10: 3789 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Tanga L
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Yasuda M
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86587 Factors affecting optic nerve head biomechanics in a rat model of glaucoma
Ethier CR
Journal of the Royal Society, Interface / the Royal Society 2020; 17: 20190695 (IGR: 21-2)
86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Girard MJA
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)
86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Girard MJA
Scientific reports 2020; 10: 6761 (IGR: 21-2)
86517 The Relationship Between Optic Nerve Cup-to-Disc Ratio and Retinal Nerve Fiber Layer Thickness in Suspected Pediatric Glaucoma
Cao D
Journal of Pediatric Ophthalmology & Strabismus 2020; 57: 90-96 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Kim SJ
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Sen E
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)
86689 Newly Onset Optic Disc Pit Maculopathy (ODP-M) in a Patient With Primary Angle-closure Glaucoma (PACG) After Surgical Iridectomy: A Case Report
Yu M
Journal of Glaucoma 2020; 29: e44-e49 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Siesky B
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Schaub F
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Guo Y
Scientific reports 2020; 10: 4607 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Kimball E
Experimental Eye Research 2020; 196: 108035 (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)
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Murata K
American Journal of Ophthalmology 2020; 216: 28-36 (IGR: 21-2)
86832 The Effects of Glaucoma on the Pressure-Induced Strain Response of the Human Lamina Cribrosa
Jefferys JL
Investigative Ophthalmology and Visual Science 2020; 61: 41 (IGR: 21-2)
86142 The inflation response of the human lamina cribrosa and sclera: Analysis of deformation and interaction
Nguyen TD
Acta biomaterialia 2020; 106: 225-241 (IGR: 21-2)
86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Salazar Quiñones L
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Mohan RE
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Blumberg DM
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Kimball E
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Rowe LW
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86495 Optic Disc and Cup Image Segmentation Utilizing Contour-Based Transformation and Sequence Labeling Networks
Shu R
Journal of Medical Systems 2020; 44: 96 (IGR: 21-2)
86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Chang YF
Scientific reports 2020; 10: 5608 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Aizawa N
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86329 Nasalization of Central Retinal Vessel Trunk Predicts Rapid Progression of Central Visual Field in Open-Angle Glaucoma
Kwon J
Scientific reports 2020; 10: 3789 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Wu Y
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86706 Association of lamina cribrosa morphometry with retinal nerve fiber layer loss and visual field defects in primary open angle glaucoma
Zaman Y
Pakistan journal of medical sciences 2020; 36: 521-525 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
Snyder KC
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Tun TA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Rowe LW
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Aung T
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
Kiland JA
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86495 Optic Disc and Cup Image Segmentation Utilizing Contour-Based Transformation and Sequence Labeling Networks
Liu BJ
Journal of Medical Systems 2020; 44: 96 (IGR: 21-2)
86832 The Effects of Glaucoma on the Pressure-Induced Strain Response of the Human Lamina Cribrosa
Quigley HA
Investigative Ophthalmology and Visual Science 2020; 61: 41 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Wang X
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86661 Comparison of Lamina Cribrosa Morphology in Eyes with Ocular Hypertension and Normal-Tension Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2020; 61: 4 (IGR: 21-2)
86776 Focal lamina cribrosa defects are not associated with steep lamina cribrosa curvature but with choroidal microvascular dropout
Mari JM
Scientific reports 2020; 10: 6761 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Hermann MM
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Omodaka K
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86732 Evaluation of the optic nerve head vessel density in the patients with asymmetric pseudoexfoliative glaucoma: an OCT angiography study
Elgin U
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1493-1501 (IGR: 21-2)
86329 Nasalization of Central Retinal Vessel Trunk Predicts Rapid Progression of Central Visual Field in Open-Angle Glaucoma
Jeong D
Scientific reports 2020; 10: 3789 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Kim YK
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Pease ME
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Liu CJ
Scientific reports 2020; 10: 5608 (IGR: 21-2)
86418 Parapapillary atrophy and changes in the optic nerve head and posterior pole in high myopia
Park SW
Scientific reports 2020; 10: 4607 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Verticchio Vercellin AC
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86689 Newly Onset Optic Disc Pit Maculopathy (ODP-M) in a Patient With Primary Angle-closure Glaucoma (PACG) After Surgical Iridectomy: A Case Report
Ge J
Journal of Glaucoma 2020; 29: e44-e49 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Cioffi GA
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Quaranta L
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86706 Association of lamina cribrosa morphometry with retinal nerve fiber layer loss and visual field defects in primary open angle glaucoma
Faheem F
Pakistan journal of medical sciences 2020; 36: 521-525 (IGR: 21-2)
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Ishikawa M
American Journal of Ophthalmology 2020; 216: 28-36 (IGR: 21-2)
86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Fernandez-Perez C
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Zhu X
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Tsuda S
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Perera SA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86329 Nasalization of Central Retinal Vessel Trunk Predicts Rapid Progression of Central Visual Field in Open-Angle Glaucoma
Kook MS
Scientific reports 2020; 10: 3789 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
Ellinwood NM
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Mathew S
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86560 Optic Disc and Macular Vessel Density Measured by Optical Coherence Tomography Angiography in Open-Angle and Angle-Closure Glaucoma
Chen MJ
Scientific reports 2020; 10: 5608 (IGR: 21-2)
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Yoshitomi T
American Journal of Ophthalmology 2020; 216: 28-36 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Rowe LW
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Perera SA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Park KH
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86832 The Effects of Glaucoma on the Pressure-Induced Strain Response of the Human Lamina Cribrosa
Nguyen TD
Investigative Ophthalmology and Visual Science 2020; 61: 41 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Dietlein TS
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Nawathe M
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86788 Gender-related Influences on Superficial Papillary Microcirculation Measured with Optical Coherence Tomography Angiography in Patients with Glaucoma
Garcia-Feijoo J
Current Eye Research 2020; 0: 1-9 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Fu Y
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Rowe LW
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86689 Newly Onset Optic Disc Pit Maculopathy (ODP-M) in a Patient With Primary Angle-closure Glaucoma (PACG) After Surgical Iridectomy: A Case Report
Fan Z
Journal of Glaucoma 2020; 29: e44-e49 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Skaat A
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Cursiefen C
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86833 Optical Coherence Tomography Angiography of Perilimbal Vasculature in Port-Wine Stain and Sturge-Weber Syndrome Patients
Guo W
Investigative Ophthalmology and Visual Science 2020; 61: 43 (IGR: 21-2)
86283 Discriminating glaucomatous and compressive optic neuropathy on spectral-domain optical coherence tomography with deep learning classifier
Jeoung JW
British Journal of Ophthalmology 2020; 104: 1717-1723 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Girkin CA
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Torabi R
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86203 Optic disc haemorrhage and primary open-angle glaucoma: a clinical review
Pasquale LR
British Journal of Ophthalmology 2020; 104: 1488-1491 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Boote C
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86653 Sub-region-Specific Optic Nerve Head Glial Activation in Glaucoma
McLellan GJ
Molecular Neurobiology 2020; 57: 2620-2638 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Strouthidis NG
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86674 Clinical Assessment of Scleral Canal Area in Glaucoma Using Spectral-Domain Optical Coherence Tomography
Iwase T
American Journal of Ophthalmology 2020; 216: 28-36 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Johnson TV
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Pak K
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Agnifili L
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Pitha I
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Aung T
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Weinreb RN
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Jonas JB
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Heindl LM
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86141 The optic nerve head vasoreactive response to systemic hyperoxia and visual field defect progression in open-angle glaucoma, a pilot study
Kunikata H; Nakazawa T
Acta Ophthalmologica 2020; 98: e747-e753 (IGR: 21-2)
86861 A method to quantify regional axonal transport blockade at the optic nerve head after short term intraocular pressure elevation in mice
Quigley H
Experimental Eye Research 2020; 196: 108035 (IGR: 21-2)
86354 Dynamics of structural reversal in Bruch's membrane opening-based morphometrics after glaucoma drainage device surgery
Enders P
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1227-1236 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Boote C
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Riva I
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Schmetterer L
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Zangwill LM
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86761 Effect of Changing Heart Rate on the Ocular Pulse and Dynamic Biomechanical Behavior of the Optic Nerve Head
Girard MJA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86478 In Vivo Measurements of Prelamina and Lamina Cribrosa Biomechanical Properties in Humans
Girard MJA
Investigative Ophthalmology and Visual Science 2020; 61: 27 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Hood DC
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
86562 Optic nerve head diurnal vessel density variations in glaucoma and ocular hypertension measured by optical coherence tomography angiography
Oddone F
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 1237-1251 (IGR: 21-2)
86696 Disc Hemorrhages Are Associated With the Presence and Progression of Glaucomatous Central Visual Field Defects
Liebmann JM
Journal of Glaucoma 2020; 29: 429-434 (IGR: 21-2)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Nitta K
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84935 Lamina cribrosa defect and progress of glaucoma
Liu XY
Chinese Journal of Ophthalmology 2020; 56: 17-20 (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Hogan B
Eye 2020; 34: 2029-2035 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Ju WK
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Maupin E
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
85025 A neuroglia-based interpretation of glaucomatous neuroretinal rim thinning in the optic nerve head
Lee EJ
Progress in Retinal and Eye Research 2020; 0: 100840 (IGR: 21-1)
85077 Case Report: Glaucoma-associated Peripapillary Retinoschisis with Corresponding Lamina Cribrosa Defect
Roberts JD
Optometry and Vision Science 2020; 97: 104-109 (IGR: 21-1)
84590 Under pressure: Cerebrospinal fluid contribution to the physiological homeostasis of the eye
Mirra S
Seminars in Cell and Developmental Biology 2019; 0: (IGR: 21-1)
84745 Progressive Optic Disc Tilt in Young Myopic Glaucomatous Eyes
Yoon JY
Korean Journal of Ophthalmology 2019; 33: 520-527 (IGR: 21-1)
84293 Correlating Structural and Functional Damage in Glaucoma
Torres LA
Journal of Glaucoma 2019; 28: 1079-1085 (IGR: 21-1)
84606 Intracranial pressure modulates aqueous humour dynamics of the eye
Ficarrotta KR
Journal of Physiology 2020; 598: 403-413 (IGR: 21-1)
84734 Optic Disc and Cup Segmentation in Retinal Images for Glaucoma Diagnosis by Locally Statistical Active Contour Model with Structure Prior
Zhou W
Computational and mathematical methods in medicine 2019; 2019: 8973287 (IGR: 21-1)
84492 Relationship between pattern electroretinogram and optic disc morphology in glaucoma
Jeon SJ
PLoS ONE 2019; 14: e0220992 (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Kojima H
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84819 Relationship between optic disc hemorrhage and corneal hysteresis
Radcliffe NM
Canadian Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84557 Agreement between Fourier-domain and swept-source optical coherence tomography used for optic nerve head measurements
Kudsieh B
Journal Français d'Ophtalmologie 2020; 43: 25-30 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Landi L
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Li R
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Wong BJ
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Ocansey S
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Yang H
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84606 Intracranial pressure modulates aqueous humour dynamics of the eye
Ficarrotta KR
Journal of Physiology 2020; 598: 403-413 (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Kojima H
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Kuroda F
Scientific reports 2020; 10: 729 (IGR: 21-1)
84691 The Influence of Translaminar Pressure Gradient and Intracranial Pressure in Glaucoma: A Review
Price DA
Journal of Glaucoma 2020; 29: 141-146 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Aoki S
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
84623 The role of intracranial pressure in glaucoma and therapeutic implications
Baneke AJ
Eye 2020; 34: 178-191 (IGR: 21-1)
84554 Relationship between ocular risk factors for glaucoma and optic disc rim in normal eyes
Iwase A
British Journal of Ophthalmology 2020; 104: 1120-1124 (IGR: 21-1)
85211 Connective Tissue Remodeling in Myopia and its Potential Role in Increasing Risk of Glaucoma
Grytz R
Current opinion in biomedical engineering 2020; 15: 40-50 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Chen A
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Wang X
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
84606 Intracranial pressure modulates aqueous humour dynamics of the eye
Passaglia CL
Journal of Physiology 2020; 598: 403-413 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Moghimi S
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84492 Relationship between pattern electroretinogram and optic disc morphology in glaucoma
Park HL
PLoS ONE 2019; 14: e0220992 (IGR: 21-1)
84935 Lamina cribrosa defect and progress of glaucoma
Fan N
Chinese Journal of Ophthalmology 2020; 56: 17-20 (IGR: 21-1)
85077 Case Report: Glaucoma-associated Peripapillary Retinoschisis with Corresponding Lamina Cribrosa Defect
Hunter A
Optometry and Vision Science 2020; 97: 104-109 (IGR: 21-1)
84691 The Influence of Translaminar Pressure Gradient and Intracranial Pressure in Glaucoma: A Review
Harris A
Journal of Glaucoma 2020; 29: 141-146 (IGR: 21-1)
84554 Relationship between ocular risk factors for glaucoma and optic disc rim in normal eyes
Sawaguchi S
British Journal of Ophthalmology 2020; 104: 1120-1124 (IGR: 21-1)
84557 Agreement between Fourier-domain and swept-source optical coherence tomography used for optic nerve head measurements
Fernandez-Vigo JI
Journal Français d'Ophtalmologie 2020; 43: 25-30 (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Baudin F
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
85211 Connective Tissue Remodeling in Myopia and its Potential Role in Increasing Risk of Glaucoma
Yang H
Current opinion in biomedical engineering 2020; 15: 40-50 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Kiuchi Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Shim MS
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Liu L
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84745 Progressive Optic Disc Tilt in Young Myopic Glaucomatous Eyes
Sung KR
Korean Journal of Ophthalmology 2019; 33: 520-527 (IGR: 21-1)
84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Iwase T
Scientific reports 2020; 10: 729 (IGR: 21-1)
84623 The role of intracranial pressure in glaucoma and therapeutic implications
Aubry J
Eye 2020; 34: 178-191 (IGR: 21-1)
84293 Correlating Structural and Functional Damage in Glaucoma
Hatanaka M
Journal of Glaucoma 2019; 28: 1079-1085 (IGR: 21-1)
85025 A neuroglia-based interpretation of glaucomatous neuroretinal rim thinning in the optic nerve head
Han JC
Progress in Retinal and Eye Research 2020; 0: 100840 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Luo H
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Shimamoto S
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Abu EK
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Casciaro F
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
84590 Under pressure: Cerebrospinal fluid contribution to the physiological homeostasis of the eye
Marfany G
Seminars in Cell and Developmental Biology 2019; 0: (IGR: 21-1)
84734 Optic Disc and Cup Segmentation in Retinal Images for Glaucoma Diagnosis by Locally Statistical Active Contour Model with Structure Prior
Yi Y
Computational and mathematical methods in medicine 2019; 2019: 8973287 (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Hirooka K
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84819 Relationship between optic disc hemorrhage and corneal hysteresis
Tracer N
Canadian Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Trew C
Eye 2020; 34: 2029-2035 (IGR: 21-1)
84745 Progressive Optic Disc Tilt in Young Myopic Glaucomatous Eyes
Yun SC
Korean Journal of Ophthalmology 2019; 33: 520-527 (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Nitta E
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84691 The Influence of Translaminar Pressure Gradient and Intracranial Pressure in Glaucoma: A Review
Siesky B
Journal of Glaucoma 2020; 29: 141-146 (IGR: 21-1)
84554 Relationship between ocular risk factors for glaucoma and optic disc rim in normal eyes
Tanaka K
British Journal of Ophthalmology 2020; 104: 1120-1124 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Wei Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Hardin C
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84819 Relationship between optic disc hemorrhage and corneal hysteresis
De Moraes CGV
Canadian Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Arnould L
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Owusu-Ansah A
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Wajima R
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Wang J
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Telani S
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
85211 Connective Tissue Remodeling in Myopia and its Potential Role in Increasing Risk of Glaucoma
Hua Y
Current opinion in biomedical engineering 2020; 15: 40-50 (IGR: 21-1)
84623 The role of intracranial pressure in glaucoma and therapeutic implications
Viswanathan AC
Eye 2020; 34: 178-191 (IGR: 21-1)
85077 Case Report: Glaucoma-associated Peripapillary Retinoschisis with Corresponding Lamina Cribrosa Defect
Mega J
Optometry and Vision Science 2020; 97: 104-109 (IGR: 21-1)
84590 Under pressure: Cerebrospinal fluid contribution to the physiological homeostasis of the eye
Garcia-Fernàndez J
Seminars in Cell and Developmental Biology 2019; 0: (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Zangwill LM
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Tokumo K
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
84557 Agreement between Fourier-domain and swept-source optical coherence tomography used for optic nerve head measurements
De-Pablo-Gómez-de-Liaño L
Journal Français d'Ophtalmologie 2020; 43: 25-30 (IGR: 21-1)
84734 Optic Disc and Cup Segmentation in Retinal Images for Glaucoma Diagnosis by Locally Statistical Active Contour Model with Structure Prior
Gao Y
Computational and mathematical methods in medicine 2019; 2019: 8973287 (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Annoh R
Eye 2020; 34: 2029-2035 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Kim KY
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
84492 Relationship between pattern electroretinogram and optic disc morphology in glaucoma
Jung KI
PLoS ONE 2019; 14: e0220992 (IGR: 21-1)
84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Yamamoto K
Scientific reports 2020; 10: 729 (IGR: 21-1)
85025 A neuroglia-based interpretation of glaucomatous neuroretinal rim thinning in the optic nerve head
Park DY
Progress in Retinal and Eye Research 2020; 0: 100840 (IGR: 21-1)
84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Ra E
Scientific reports 2020; 10: 729 (IGR: 21-1)
84492 Relationship between pattern electroretinogram and optic disc morphology in glaucoma
Park CK
PLoS ONE 2019; 14: e0220992 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Zang P
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Mensah S
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84734 Optic Disc and Cup Segmentation in Retinal Images for Glaucoma Diagnosis by Locally Statistical Active Contour Model with Structure Prior
Dai J
Computational and mathematical methods in medicine 2019; 2019: 8973287 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Christopher M
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84623 The role of intracranial pressure in glaucoma and therapeutic implications
Plant GT
Eye 2020; 34: 178-191 (IGR: 21-1)
84557 Agreement between Fourier-domain and swept-source optical coherence tomography used for optic nerve head measurements
Fernández-Vigo C
Journal Français d'Ophtalmologie 2020; 43: 25-30 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Fang Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Wang YX
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Sonoda S
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Fujino Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
85025 A neuroglia-based interpretation of glaucomatous neuroretinal rim thinning in the optic nerve head
Kee C
Progress in Retinal and Eye Research 2020; 0: 100840 (IGR: 21-1)
84691 The Influence of Translaminar Pressure Gradient and Intracranial Pressure in Glaucoma: A Review
Mathew S
Journal of Glaucoma 2020; 29: 141-146 (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Tachibana G
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
85211 Connective Tissue Remodeling in Myopia and its Potential Role in Increasing Risk of Glaucoma
Samuels BC
Current opinion in biomedical engineering 2020; 15: 40-50 (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Seydou A
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Yi Loo C
Eye 2020; 34: 2029-2035 (IGR: 21-1)
84745 Progressive Optic Disc Tilt in Young Myopic Glaucomatous Eyes
Shin JW
Korean Journal of Ophthalmology 2019; 33: 520-527 (IGR: 21-1)
84819 Relationship between optic disc hemorrhage and corneal hysteresis
Tello C
Canadian Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85077 Case Report: Glaucoma-associated Peripapillary Retinoschisis with Corresponding Lamina Cribrosa Defect
Cesaro T
Optometry and Vision Science 2020; 97: 104-109 (IGR: 21-1)
84554 Relationship between ocular risk factors for glaucoma and optic disc rim in normal eyes
Tsutsumi T
British Journal of Ophthalmology 2020; 104: 1120-1124 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Park TL
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Traverso CE
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Tian T
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
84819 Relationship between optic disc hemorrhage and corneal hysteresis
Liebmann JM
Canadian Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85077 Case Report: Glaucoma-associated Peripapillary Retinoschisis with Corresponding Lamina Cribrosa Defect
Greenberg PB
Optometry and Vision Science 2020; 97: 104-109 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Edmunds B
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84557 Agreement between Fourier-domain and swept-source optical coherence tomography used for optic nerve head measurements
Ruiz Moreno JM
Journal Français d'Ophtalmologie 2020; 43: 25-30 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Matsuura M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
85211 Connective Tissue Remodeling in Myopia and its Potential Role in Increasing Risk of Glaucoma
Sigal IA
Current opinion in biomedical engineering 2020; 15: 40-50 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Jeoung JW
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84989 Correlation between blood flow on optic nerve head and structural and functional changes in eyes with glaucoma
Terasaki H
Scientific reports 2020; 10: 729 (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Yamada Y
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Ling Tan H
Eye 2020; 34: 2029-2035 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Oduro-Boateng J
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Sakamoto T
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Ahn S
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
84554 Relationship between ocular risk factors for glaucoma and optic disc rim in normal eyes
Araie M
British Journal of Ophthalmology 2020; 104: 1120-1124 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Harris A
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Belghith A
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Binquet C
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Domoto M
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Verticchio Vercellin AC
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
85222 Assessment of primary open-angle glaucoma peripapillary and macular choroidal area using enhanced depth imaging optical coherence tomography
Kiuchi Y
PLoS ONE 2020; 15: e0231214 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Edwards G
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Shan Tang L
Eye 2020; 34: 2029-2035 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Lombardi L
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84819 Relationship between optic disc hemorrhage and corneal hysteresis
Ritch R
Canadian Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Kojo RA
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Li M
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Albert C
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Bron AM
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Ekici E
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Murata H
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
84557 Agreement between Fourier-domain and swept-source optical coherence tomography used for optic nerve head measurements
Fernández-Vigo JÁ
Journal Français d'Ophtalmologie 2020; 43: 25-30 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Bowd C
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Saint L
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
84619 Positive predictive value of optic disc haemorrhages for open angle glaucoma
Tatham AJ
Eye 2020; 34: 2029-2035 (IGR: 21-1)
84628 Inhibition of cAMP/PKA Pathway Protects Optic Nerve Head Astrocytes against Oxidative Stress by Akt/Bax Phosphorylation-Mediated Mfn1/2 Oligomerization
Weinreb RN
Oxidative medicine and cellular longevity 2019; 2019: 8060962 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Kyei S
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Davis E
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84988 Accuracy of the ISNT rule and its variants for differentiating glaucomatous from normal eyes in a population-based study
Creuzot-Garcher CP
British Journal of Ophthalmology 2020; 104: 1412-1417 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Nakakura S
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Cai Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Takeda R
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Vianna JR
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Takahashi Y
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84801 Association between optic nerve head morphology in open-angle glaucoma and corneal biomechanical parameters measured with Corvis ST
Asaoka R
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 629-637 (IGR: 21-1)
84706 Evaluation of Cerebrospinal Fluid Pressure by a Formula and Its Role in the Pathogenesis of Glaucoma
Iester M
Journal of Ophthalmology 2019; 2019: 1840481 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Sharpe GP
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Fazio MA
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Morrison JC
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
84725 Structure-function relationship between Bruch's membrane opening-minimum rim width and perimetry in open-angle glaucoma subtypes
Pan Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2020; 258: 595-605 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Boadi-Kusi SB
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Reynaud J
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Amoah-Smith O
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Jia Y
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
85182 The Effect of Brimonidine 0.1% on Disc Hemorrhage in Primary Open-Angle Glaucoma Patients
Sugiyama K
Clinical Ophthalmology 2020; 14: 213-219 (IGR: 21-1)
84612 Relationship of Corneal Hysteresis and Anterior Lamina Cribrosa Displacement in Glaucoma
Girkin CA; Weinreb RN
American Journal of Ophthalmology 2020; 212: 134-143 (IGR: 21-1)
84860 Measuring Glaucomatous Focal Perfusion Loss in the Peripapillary Retina Using OCT Angiography
Huang D
Ophthalmology 2020; 127: 484-491 (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Morny EKA
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Demirel S
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Darko-Takyi C
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Mansberger SL
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Abraham CH
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Fortune B
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Appiah Nyamekye B
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Nicolela M; Gardiner SK
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
85152 Normative Values of Retinal Nerve Fibre Layer Thickness and Optic Nerve Head Parameters and Their Association with Visual Function in an African Population
Ilechie AA
Journal of Ophthalmology 2020; 2020: 7150673 (IGR: 21-1)
84861 OCT Structural Abnormality Detection in Glaucoma using Topographically Correspondent Rim and Retinal Nerve Fiber Layer Criteria
Chauhan BC; Burgoyne CF
American Journal of Ophthalmology 2019; 0: (IGR: 21-1)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Girkin CA
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Phene S
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Bajwa MN
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Tong W
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Pujari A
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82242 Peripapillary border tissue of the choroid and peripapillary scleral flange in human eyes
Jonas RA
Acta Ophthalmologica 2020; 98: e43-e49 (IGR: 20-4)
82099 Adaptive weighted locality-constrained sparse coding for glaucoma diagnosis
Zhou W
Medical and Biological Engineering and Computing 2019; 57: 2055-2067 (IGR: 20-4)
82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Park DY
Journal of Glaucoma 2019; 28: 969-973 (IGR: 20-4)
82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Kim YC
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Mao Z
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Ko MWL
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82821 Unfolding the enigma of lamina cribrosa morphometry and its association with glaucoma
Saba A
Pakistan journal of medical sciences 2019; 35: 1730-1735 (IGR: 20-4)
82402 Longitudinal reproducibility of spectral domain optical coherence tomography in children with physiologic cupping and stable glaucoma
Xu L
Journal of AAPOS 2019; 23: 262.e1-262.e6 (IGR: 20-4)
82293 Current concepts of cerebrospinal fluid dynamics and the translaminar cribrosa pressure gradient: a paradigm of optic disk disease
Liu KC
Survey of Ophthalmology 2020; 65: 48-66 (IGR: 20-4)
82357 Lamina cribrosa pore movement during acute intraocular pressure rise
Wang YX
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82425 Ocular and systemic risk factors associated with recurrent disc hemorrhage in primary open-angle glaucoma
Seol BR
PLoS ONE 2019; 14: e0222166 (IGR: 20-4)
82209 Direct Cup-to-Disc Ratio Estimation for Glaucoma Screening via Semi-supervised Learning
Zhao R
IEEE journal of biomedical and health informatics 2019; 0: (IGR: 20-4)
82873 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Patient Specific Model
Satekenova E
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5370-5373 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Zhang Q
Eye 2019; 0: (IGR: 20-4)
82514 Making a Correct Diagnosis of Glaucoma: Data From the EMGT
Öhnell H
Journal of Glaucoma 2019; 28: 859-864 (IGR: 20-4)
82592 Association of Corneal Hysteresis With Lamina Cribrosa Curvature in Primary Open Angle Glaucoma
Lee KM
Investigative Ophthalmology and Visual Science 2019; 60: 4171-4177 (IGR: 20-4)
82807 3d Biomechanical Response of the Optic Nerve Head: Initial Results From Porcine Globe Inflation Using High-frequency Ultrasound Elastography
Ma Y
Journal of Biomechanical Engineering 2019; 0: (IGR: 20-4)
82796 Multi-indices quantification of optic nerve head in fundus image via multitask collaborative learning
Zhao R
Medical Image Analysis 2020; 60: 101593 (IGR: 20-4)
82453 Fully automated method for glaucoma screening using robust optic nerve head detection and unsupervised segmentation based cup-to-disc ratio computation in retinal fundus images
Mvoulana A
Computerized Medical Imaging and Graphics 2019; 77: 101643 (IGR: 20-4)
82870 3D Reconstruction of the Optic Nerve Head of a Phantom Eye from Images Obtained using a Slit Lamp Fitted with Low Cost Add-Ons
Coghill I
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4717-4720 (IGR: 20-4)
82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Bayraktar S
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)
82215 Morphological features of parapapillary beta zone and gamma zone in chronic primary angle-closure glaucoma
Shang K
Eye 2019; 33: 1378-1386 (IGR: 20-4)
82200 Rate of three-dimensional neuroretinal rim thinning in glaucomatous eyes with optic disc haemorrhage
Kim YW
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82340 Characteristics of Patients Showing Discrepancy Between Bruch's Membrane Opening-Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness
Cho HK
Journal of clinical medicine 2019; 8: (IGR: 20-4)
82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Lee KM
Scientific reports 2019; 9: 10999 (IGR: 20-4)
81967 In vivo characterization of the deformation of the human optic nerve head using optical coherence tomography and digital volume correlation
Midgett DE
Acta biomaterialia 2019; 96: 385-399 (IGR: 20-4)
82524 Relationship between corneal deformation amplitude and optic nerve head structure in primary open-angle glaucoma
Jung Y
Medicine 2019; 98: e17223 (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Bhalla M
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Han JC
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Snyder BM
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Rogers TW
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Du Z
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Wu Z
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Ko MWL
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Han X
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Liu S
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82258 Evaluation of the lamina cribrosa thickness and depth in patients with migraine
Sirakaya E
International Ophthalmology 2020; 40: 89-98 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Torres LA
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82340 Characteristics of Patients Showing Discrepancy Between Bruch's Membrane Opening-Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness
Kee C
Journal of clinical medicine 2019; 8: (IGR: 20-4)
82870 3D Reconstruction of the Optic Nerve Head of a Phantom Eye from Images Obtained using a Slit Lamp Fitted with Low Cost Add-Ons
Jordan KC
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4717-4720 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Sharpe GP
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82357 Lamina cribrosa pore movement during acute intraocular pressure rise
Zhang Q
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Miki A
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82200 Rate of three-dimensional neuroretinal rim thinning in glaucomatous eyes with optic disc haemorrhage
Lee WJ
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82258 Evaluation of the lamina cribrosa thickness and depth in patients with migraine
Kucuk B
International Ophthalmology 2020; 40: 89-98 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Li R
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Fazio MA
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
81967 In vivo characterization of the deformation of the human optic nerve head using optical coherence tomography and digital volume correlation
Quigley HA
Acta biomaterialia 2019; 96: 385-399 (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Heisler M
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82242 Peripapillary border tissue of the choroid and peripapillary scleral flange in human eyes
Holbach L
Acta Ophthalmologica 2020; 98: e43-e49 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Nam SM
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Qassim A
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Dunn RC
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82821 Unfolding the enigma of lamina cribrosa morphometry and its association with glaucoma
Usmani A
Pakistan journal of medical sciences 2019; 35: 1730-1735 (IGR: 20-4)
82524 Relationship between corneal deformation amplitude and optic nerve head structure in primary open-angle glaucoma
Park HL
Medicine 2019; 98: e17223 (IGR: 20-4)
82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Sultanova G
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Zhang Y
Eye 2019; 0: (IGR: 20-4)
82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Han SH
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Malik MI
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Romero M
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82807 3d Biomechanical Response of the Optic Nerve Head: Initial Results From Porcine Globe Inflation Using High-frequency Ultrasound Elastography
Pavlatos E
Journal of Biomechanical Engineering 2019; 0: (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Hong J
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Kim JM
Scientific reports 2019; 9: 10999 (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Jaccard N
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82873 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Patient Specific Model
Ko MWL
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5370-5373 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Lai CCC
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82796 Multi-indices quantification of optic nerve head in fundus image via multitask collaborative learning
Li S
Medical Image Analysis 2020; 60: 101593 (IGR: 20-4)
82453 Fully automated method for glaucoma screening using robust optic nerve head detection and unsupervised segmentation based cup-to-disc ratio computation in retinal fundus images
Kachouri R
Computerized Medical Imaging and Graphics 2019; 77: 101643 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Vianna JR
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Swamy DR
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82293 Current concepts of cerebrospinal fluid dynamics and the translaminar cribrosa pressure gradient: a paradigm of optic disk disease
Fleischman D
Survey of Ophthalmology 2020; 65: 48-66 (IGR: 20-4)
82099 Adaptive weighted locality-constrained sparse coding for glaucoma diagnosis
Yi Y
Medical and Biological Engineering and Computing 2019; 57: 2055-2067 (IGR: 20-4)
82873 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Patient Specific Model
Ko MWL
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5370-5373 (IGR: 20-4)
82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Han JC
Journal of Glaucoma 2019; 28: 969-973 (IGR: 20-4)
82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Cho BJ
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)
82514 Making a Correct Diagnosis of Glaucoma: Data From the EMGT
Bengtsson B
Journal of Glaucoma 2019; 28: 859-864 (IGR: 20-4)
82425 Ocular and systemic risk factors associated with recurrent disc hemorrhage in primary open-angle glaucoma
Jeoung JW
PLoS ONE 2019; 14: e0222166 (IGR: 20-4)
82209 Direct Cup-to-Disc Ratio Estimation for Glaucoma Screening via Semi-supervised Learning
Chen X
IEEE journal of biomedical and health informatics 2019; 0: (IGR: 20-4)
82592 Association of Corneal Hysteresis With Lamina Cribrosa Curvature in Primary Open Angle Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2019; 60: 4171-4177 (IGR: 20-4)
82215 Morphological features of parapapillary beta zone and gamma zone in chronic primary angle-closure glaucoma
Hu X
Eye 2019; 33: 1378-1386 (IGR: 20-4)
82402 Longitudinal reproducibility of spectral domain optical coherence tomography in children with physiologic cupping and stable glaucoma
Freedman SF
Journal of AAPOS 2019; 23: 262.e1-262.e6 (IGR: 20-4)
82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Lee EJ
Scientific reports 2019; 9: 10999 (IGR: 20-4)
81967 In vivo characterization of the deformation of the human optic nerve head using optical coherence tomography and digital volume correlation
Nguyen TD
Acta biomaterialia 2019; 96: 385-399 (IGR: 20-4)
82524 Relationship between corneal deformation amplitude and optic nerve head structure in primary open-angle glaucoma
Park CK
Medicine 2019; 98: e17223 (IGR: 20-4)
82453 Fully automated method for glaucoma screening using robust optic nerve head detection and unsupervised segmentation based cup-to-disc ratio computation in retinal fundus images
Akil M
Computerized Medical Imaging and Graphics 2019; 77: 101643 (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Han SX
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Reis ASC
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Park DY
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)
82873 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Patient Specific Model
Kim JR
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5370-5373 (IGR: 20-4)
82402 Longitudinal reproducibility of spectral domain optical coherence tomography in children with physiologic cupping and stable glaucoma
Silverstein E
Journal of AAPOS 2019; 23: 262.e1-262.e6 (IGR: 20-4)
82215 Morphological features of parapapillary beta zone and gamma zone in chronic primary angle-closure glaucoma
Dai Y
Eye 2019; 33: 1378-1386 (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Lu X
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82807 3d Biomechanical Response of the Optic Nerve Head: Initial Results From Porcine Globe Inflation Using High-frequency Ultrasound Elastography
Clayson K
Journal of Biomechanical Engineering 2019; 0: (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Bowd C
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Hammel N
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Carbonaro F
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82873 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Patient Specific Model
Kim JR
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5370-5373 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Qian X
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Lee EJ
Journal of Glaucoma 2019; 28: 969-973 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Ng PCK
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82200 Rate of three-dimensional neuroretinal rim thinning in glaucomatous eyes with optic disc haemorrhage
Seol BR
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Selvan H
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82258 Evaluation of the lamina cribrosa thickness and depth in patients with migraine
Agadayi A
International Ophthalmology 2020; 40: 89-98 (IGR: 20-4)
82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Jung KI
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)
82514 Making a Correct Diagnosis of Glaucoma: Data From the EMGT
Heijl A
Journal of Glaucoma 2019; 28: 859-864 (IGR: 20-4)
82425 Ocular and systemic risk factors associated with recurrent disc hemorrhage in primary open-angle glaucoma
Park KH
PLoS ONE 2019; 14: e0222166 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Mei S
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82592 Association of Corneal Hysteresis With Lamina Cribrosa Curvature in Primary Open Angle Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2019; 60: 4171-4177 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Hutchison DM
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82821 Unfolding the enigma of lamina cribrosa morphometry and its association with glaucoma
Islam QU
Pakistan journal of medical sciences 2019; 35: 1730-1735 (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Siddiqui SA
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
An J
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82293 Current concepts of cerebrospinal fluid dynamics and the translaminar cribrosa pressure gradient: a paradigm of optic disk disease
Lee AG
Survey of Ophthalmology 2020; 65: 48-66 (IGR: 20-4)
82099 Adaptive weighted locality-constrained sparse coding for glaucoma diagnosis
Bao J
Medical and Biological Engineering and Computing 2019; 57: 2055-2067 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Khunsongkiet P
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82209 Direct Cup-to-Disc Ratio Estimation for Glaucoma Screening via Semi-supervised Learning
Xiyao L
IEEE journal of biomedical and health informatics 2019; 0: (IGR: 20-4)
82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Cebeci Z
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Lim V
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82357 Lamina cribrosa pore movement during acute intraocular pressure rise
Yang H
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82870 3D Reconstruction of the Optic Nerve Head of a Phantom Eye from Images Obtained using a Slit Lamp Fitted with Low Cost Add-Ons
Black RA
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4717-4720 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Xin C
Eye 2019; 0: (IGR: 20-4)
82807 3d Biomechanical Response of the Optic Nerve Head: Initial Results From Porcine Globe Inflation Using High-frequency Ultrasound Elastography
Kwok S
Journal of Biomechanical Engineering 2019; 0: (IGR: 20-4)
82357 Lamina cribrosa pore movement during acute intraocular pressure rise
Chen JD
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Chow BHY
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Altinkurt E
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Zemborain ZZ
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Jia X
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Lu G
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Loon SC
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Mao Y
Eye 2019; 0: (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Agarwal D
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82107 Anterior Optic Nerve Head Perfusion is Dependent on Adjacent Parapapillary Choroidal perfusion
Kim TW
Scientific reports 2019; 9: 10999 (IGR: 20-4)
82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Lee EJ
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)
82293 Current concepts of cerebrospinal fluid dynamics and the translaminar cribrosa pressure gradient: a paradigm of optic disk disease
Killer HE
Survey of Ophthalmology 2020; 65: 48-66 (IGR: 20-4)
82099 Adaptive weighted locality-constrained sparse coding for glaucoma diagnosis
Wang W
Medical and Biological Engineering and Computing 2019; 57: 2055-2067 (IGR: 20-4)
82005 Comparison of Diagnostic Power of Optic Nerve Head and Posterior Sclera Configuration Parameters on Myopic Normal Tension Glaucoma
Park CK
Journal of Glaucoma 2019; 28: 834-842 (IGR: 20-4)
82209 Direct Cup-to-Disc Ratio Estimation for Glaucoma Screening via Semi-supervised Learning
Zailiang C
IEEE journal of biomedical and health informatics 2019; 0: (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Zangalli CS
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Ausayakhun S
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82402 Longitudinal reproducibility of spectral domain optical coherence tomography in children with physiologic cupping and stable glaucoma
Muir K
Journal of AAPOS 2019; 23: 262.e1-262.e6 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Liu Y
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Lemij HG
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Marshall H
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Medeiros FA
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82870 3D Reconstruction of the Optic Nerve Head of a Phantom Eye from Images Obtained using a Slit Lamp Fitted with Low Cost Add-Ons
Livingstone IAT
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4717-4720 (IGR: 20-4)
82364 Analysis of the Optic Disc and Peripapillary Structures in Monozygotic Twins
Kee C
Journal of Glaucoma 2019; 28: 969-973 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Dong Y
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Dengel A
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82592 Association of Corneal Hysteresis With Lamina Cribrosa Curvature in Primary Open Angle Glaucoma
Girard MJA
Investigative Ophthalmology and Visual Science 2019; 60: 4171-4177 (IGR: 20-4)
82258 Evaluation of the lamina cribrosa thickness and depth in patients with migraine
Yilmaz N
International Ophthalmology 2020; 40: 89-98 (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Sarunic MV
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82821 Unfolding the enigma of lamina cribrosa morphometry and its association with glaucoma
Assad T
Pakistan journal of medical sciences 2019; 35: 1730-1735 (IGR: 20-4)
82200 Rate of three-dimensional neuroretinal rim thinning in glaucomatous eyes with optic disc haemorrhage
Kim YK
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Vermeer KA
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82209 Direct Cup-to-Disc Ratio Estimation for Glaucoma Screening via Semi-supervised Learning
Guo F
IEEE journal of biomedical and health informatics 2019; 0: (IGR: 20-4)
82592 Association of Corneal Hysteresis With Lamina Cribrosa Curvature in Primary Open Angle Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2019; 60: 4171-4177 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Weinreb RN
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Woo MJS
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Sihota R
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82870 3D Reconstruction of the Optic Nerve Head of a Phantom Eye from Images Obtained using a Slit Lamp Fitted with Low Cost Add-Ons
Giardini ME
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 4717-4720 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Leeungurasatien T
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82817 New Circumpapillary Retinal Nerve Fiber Layer Thickness and Bruch's Membrane Opening-Minimum Rim Width Assessment in Nonglaucomatous Eyes with Large Discs
Izgi B
Journal of Ophthalmology 2019; 2019: 3431217 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Burk RO
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Cao K
Eye 2019; 0: (IGR: 20-4)
82402 Longitudinal reproducibility of spectral domain optical coherence tomography in children with physiologic cupping and stable glaucoma
El-Dairi M
Journal of AAPOS 2019; 23: 262.e1-262.e6 (IGR: 20-4)
82200 Rate of three-dimensional neuroretinal rim thinning in glaucomatous eyes with optic disc haemorrhage
Jeoung JW
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Zhou T
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82293 Current concepts of cerebrospinal fluid dynamics and the translaminar cribrosa pressure gradient: a paradigm of optic disk disease
Chen JJ
Survey of Ophthalmology 2020; 65: 48-66 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Krause J
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82357 Lamina cribrosa pore movement during acute intraocular pressure rise
Wang N
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Beg MF
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Lee SH
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82371 Clinical Course and Risk Factors for Visual Field Progression in Normal-Tension Glaucoma With Myopia Without Glaucoma Medications
Kee C
American Journal of Ophthalmology 2020; 209: 77-87 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Suwandono ME
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Li Y
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82807 3d Biomechanical Response of the Optic Nerve Head: Initial Results From Porcine Globe Inflation Using High-frequency Ultrasound Elastography
Pan X
Journal of Biomechanical Engineering 2019; 0: (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Lin Z
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Maruyama K
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Shafait F
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Suwandono ME
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Ong JS
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82807 3d Biomechanical Response of the Optic Nerve Head: Initial Results From Porcine Globe Inflation Using High-frequency Ultrasound Elastography
Liu J
Journal of Biomechanical Engineering 2019; 0: (IGR: 20-4)
82293 Current concepts of cerebrospinal fluid dynamics and the translaminar cribrosa pressure gradient: a paradigm of optic disk disease
Bhatti MT
Survey of Ophthalmology 2020; 65: 48-66 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
He Y
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Jan C
Eye 2019; 0: (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Mackenzie PJ
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82592 Association of Corneal Hysteresis With Lamina Cribrosa Curvature in Primary Open Angle Glaucoma
Weinreb RN
Investigative Ophthalmology and Visual Science 2019; 60: 4171-4177 (IGR: 20-4)
82200 Rate of three-dimensional neuroretinal rim thinning in glaucomatous eyes with optic disc haemorrhage
Park KH
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Neumeier W
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Shuang Y
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Reus NJ
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Gupta S
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82357 Lamina cribrosa pore movement during acute intraocular pressure rise
Jonas JB
British Journal of Ophthalmology 2019; 0: (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Thenappan A
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Zhou Y
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82209 Direct Cup-to-Disc Ratio Estimation for Glaucoma Screening via Semi-supervised Learning
Li S
IEEE journal of biomedical and health informatics 2019; 0: (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Reis ASC
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Liebmann JM
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Kitade N
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Leiter MR
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Yim KHC
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Kawasaki R
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Proudfoot J
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Sevastopolsky A
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
81946 Evaluation of an AI system for the automated detection of glaucoma from stereoscopic optic disc photographs: the European Optic Disc Assessment Study
Trikha S
Eye 2019; 33: 1791-1797 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Hassall MM
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Weng DSD
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82023 Two-stage framework for optic disc localization and glaucoma classification in retinal fundus images using deep learning
Ahmed S
BMC Medical Informatics and Decision Making 2019; 19: 136 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Usui S
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Di X
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Schaekermann M
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82064 Longitudinal Analysis of Bruch Membrane Opening Morphometry in Myopic Glaucoma
Lee S
Journal of Glaucoma 2019; 28: 889-895 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Costa VP
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Kim JR
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Gupta N
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Weng DSD
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Guo C
Eye 2019; 0: (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Liu Y
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Qu Y
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Proudfoot J
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82874 Investigation of the Optic Nerve Head Morphology Influence to the Optic Nerve Head Biomechanics - Population Specific Model
Kim JR
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2019; 2019: 5374-5377 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Weng DSD
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Jiang L
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Joye AS
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Tsamis E
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Hysi PG
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82648 Joint optic disc and cup segmentation using semi-supervised conditional GANs
Zhang H
Computers in Biology and Medicine 2019; 115: 103485 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Zangwill LM
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Matsushita K
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Tsamis E
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Sayres R
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Wang N
Eye 2019; 0: (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Tsamis E
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Kanagasingam Y
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82474 Clinical, ultrasonographic and optical coherence tomography correlation of optic nerve head cupping in glaucoma patients
Dada T
Indian Journal of Ophthalmology 2019; 67: 1663-1666 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Nicolela MT
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82500 Determinants of maximum cup depth in non-glaucoma and primary open-angle glaucoma subjects: a population-based study
Thomas R
Eye 2019; 0: (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Foster PJ
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Joiner DB
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Chauhan BC
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Berlinberg EJ
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Joiner DB
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Nishida K
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82721 Racial Differences in the Association of Anterior Lamina Cribrosa Surface Depth and Glaucoma Severity in the African Descent and Glaucoma Evaluation Study (ADAGES)
Belghith A
Investigative Ophthalmology and Visual Science 2019; 60: 4496-4502 (IGR: 20-4)
82802 Reliability of Graders and Comparison with an Automated Algorithm for Vertical Cup-Disc Ratio Grading in Fundus Photographs
Koh V
Annals of the Academy of Medicine, Singapore 2019; 48: 282-289 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Wu DJ; Bora A
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82834 Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Chan K
Biomedical optics express 2019; 10: 5832-5851 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Liu Y
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Ritch R
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Khaw PT
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82098 Influence of Bruch's Membrane Opening Area in Diagnosing Glaucoma With Neuroretinal Parameters From Optical Coherence Tomography
Vianna JR
American Journal of Ophthalmology 2019; 208: 94-102 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Humayun MS
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Semturs C
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
De Moraes CGV
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Ramirez DA
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Chen Z
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Mackey DA; Gharahkhani P
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Misra A
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82723 Qualitative evaluation of neuroretinal rim and retinal nerve fibre layer on optical coherence tomography to detect glaucomatous damage
Hood DC
British Journal of Ophthalmology 2020; 104: 980-984 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Moe CA
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82812 Quantitative confocal optical coherence elastography for evaluating biomechanics of optic nerve head using Lamb wave model
Zhou Q
Neurophotonics 2019; 6: 041112 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Huang AE
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Khawaja AP; Hewitt AW
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Stamper RL
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Spitze A
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82193 Accuracy of computer-assisted vertical cup-to-disk ratio grading for glaucoma screening
Keenan JD
PLoS ONE 2019; 14: e0220362 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Craig JE
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Medeiros FA
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
82838 Genome-wide association analysis of 95 549 individuals identifies novel loci and genes influencing optic disc morphology
Macgregor S
Human Molecular Genetics 2019; 28: 3680-3690 (IGR: 20-4)
82499 Deep Learning and Glaucoma Specialists: The Relative Importance of Optic Disc Features to Predict Glaucoma Referral in Fundus Photographs
Maa AY; Gandhi M; Corrado GS; Peng L; Webster DR
Ophthalmology 2019; 126: 1627-1639 (IGR: 20-4)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Tan NYQ
Scientific reports 2019; 9: 6612 (IGR: 20-3)
81275 Clinical characteristics of glaucoma patients with disc hemorrhage in different locations
Hsia Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1955-1962 (IGR: 20-3)
80917 Association between focal lamina cribrosa defects and optic disc haemorrhage in glaucoma
Mistry V
British Journal of Ophthalmology 2020; 104: 98-103 (IGR: 20-3)
81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Gardiner SK
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)
81241 Determinants of Macular Layers and Optic Disc Characteristics on SD-OCT: The Rhineland Study
Mauschitz MM
Translational vision science & technology 2019; 8: 34 (IGR: 20-3)
81108 Lamina Cribrosa Depth and Shape in Glaucoma Suspects. Comparison to Glaucoma Patients and Healthy Controls
Krzyżanowska-Berkowska P
Current Eye Research 2019; 44: 1026-1033 (IGR: 20-3)
81064 Optic Disc Tilt and Glaucoma Progression in Myopic Glaucoma: A Longitudinal Match-Pair Case-Control Study
Seol BR
Investigative Ophthalmology and Visual Science 2019; 60: 2127-2133 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Amedo AO
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Behkam R
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81203 Difference in Topographic Pattern of Prelaminar and Neuroretinal Rim Thinning Between Nonarteritic Anterior Ischemic Optic Neuropathy and Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2019; 60: 2461-2467 (IGR: 20-3)
80958 Optic Disc Microhemorrhage in Primary Open-Angle Glaucoma: Clinical Implications for Visual Field Progression
Ha A
Investigative Ophthalmology and Visual Science 2019; 60: 1824-1832 (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Jiang Y
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Mitsch C
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Wen JC
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80919 Effects of chronic elevated intraocular pressure on parameters of optical coherence tomography in rhesus monkeys
Yan ZC
International Journal of Ophthalmology 2019; 12: 542-548 (IGR: 20-3)
80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Han JC
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)
81438 Identifying the Critical Factors Governing Translaminar Pressure Differential Through a Compartmental Model
Kaskar OG
Investigative Ophthalmology and Visual Science 2019; 60: 3204-3214 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Hong S
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80634 Posterior scleral deformations around optic disc are associated with visual field damage in open-angle glaucoma patients with myopia
Kim EK
PLoS ONE 2019; 14: e0213714 (IGR: 20-3)
81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Kim JA
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)
80895 Relative Contributions of Intracranial Pressure and Intraocular Pressure on Lamina Cribrosa Behavior
Tong J
Journal of Ophthalmology 2019; 2019: 3064949 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Ghahari E
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80501 Utility of multicolor optic disc photography in evaluation of glaucomatous optic disc in myopic eyes: A novel approach
Basu T
Indian Journal of Ophthalmology 2019; 67: 412-414 (IGR: 20-3)
81423 Compressive mechanical properties of rat and pig optic nerve head
Boazak EM
Journal of Biomechanics 2019; 93: 204-208 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Pilat AV
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Nitta K
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)
81146 Machine Learning in the Detection of the Glaucomatous Disc and Visual Field
Smits DJ
Seminars in Ophthalmology 2019; 34: 232-242 (IGR: 20-3)
81012 Rim-to-Disc Ratio Outperforms Cup-to-Disc Ratio for Glaucoma Prescreening
Kumar JRH
Scientific reports 2019; 9: 7099 (IGR: 20-3)
80659 Frequencies of 4 Distinct Patterns of Glaucomatous Disc Appearance and Their Clinical Associations in Japanese Population-based Studies
Iwase A
Journal of Glaucoma 2019; 28: 487-492 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Sun YX
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80823 Swept-Source OCT for Evaluating the Lamina Cribrosa: A Report by the American Academy of Ophthalmology
Takusagawa HL
Ophthalmology 2019; 126: 1315-1323 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Moghimi S
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Cakmak S
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
81176 Diagnostic criteria for detection of retinal nerve fibre layer thickness and neuroretinal rim width abnormalities in glaucoma
Zheng F
British Journal of Ophthalmology 2020; 104: 270-275 (IGR: 20-3)
81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Kim JA
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Sarmento AGL
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Vajaranant TS
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
80914 Robust optic disc and cup segmentation with deep learning for glaucoma detection
Yu S
Computerized Medical Imaging and Graphics 2019; 74: 61-71 (IGR: 20-3)
80526 Relationship Between Optical Coherence Tomography Angiography Peripapillary Vessel Density and Lamina Cribrosa Depth
Eah KS
Journal of Glaucoma 2019; 28: 459-464 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Al-Aswad LA
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Pilat AV
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
81284 Superior segmental optic hypoplasia as a differential diagnosis of glaucoma
Yamamoto T
Taiwan journal of ophthalmology 2019; 9: 63-66 (IGR: 20-3)
81422 Two-year analysis of changes in the optic nerve and retina following anti-VEGF treatments in diabetic macular edema patients
Filek R
Clinical Ophthalmology 2019; 13: 1087-1096 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Gupta L
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Zhang Q
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)
80932 Optic nerve head damage relation to intracranial pressure and corneal properties of eye in glaucoma risk assessment
Kharmyssov C
Medical and Biological Engineering and Computing 2019; 57: 1591-1603 (IGR: 20-3)
81385 Optic disk hemorrhage and vitreous hemorrhage after phacoemulsification in a normal tension glaucoma patient: A case report
Hu R
Medicine 2019; 98: e16215 (IGR: 20-3)
81038 Glaucoma as a dangerous interplay between ocular fluid and cerebrospinal fluid
Wostyn P
Medical Hypotheses 2019; 127: 97-99 (IGR: 20-3)
80781 Correlation of the Retinal Parapapillary Perfusion and the Retinal Vessel Oxygen Saturation in Glaucoma Patients
Hasan SM
Investigative Ophthalmology and Visual Science 2019; 60: 1309-1315 (IGR: 20-3)
80915 Optic Nerve Lipidomics Reveal Impaired Glucosylsphingosine Lipids Pathway in Glaucoma
Chauhan MZ
Investigative Ophthalmology and Visual Science 2019; 60: 1789-1798 (IGR: 20-3)
80568 Vertical disc tilt and features of the optic nerve head anatomy are related to visual field defect in myopic eyes
Park HL
Scientific reports 2019; 9: 3485 (IGR: 20-3)
81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Kim TW
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)
80895 Relative Contributions of Intracranial Pressure and Intraocular Pressure on Lamina Cribrosa Behavior
Ghate D
Journal of Ophthalmology 2019; 2019: 3064949 (IGR: 20-3)
80914 Robust optic disc and cup segmentation with deep learning for glaucoma detection
Xiao D
Computerized Medical Imaging and Graphics 2019; 74: 61-71 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Kollech HG
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Xie Y
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80932 Optic nerve head damage relation to intracranial pressure and corneal properties of eye in glaucoma risk assessment
Abdildin YG
Medical and Biological Engineering and Computing 2019; 57: 1591-1603 (IGR: 20-3)
80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Choi JH
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Zangwill LM
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80634 Posterior scleral deformations around optic disc are associated with visual field damage in open-angle glaucoma patients with myopia
Park HL
PLoS ONE 2019; 14: e0213714 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Kapoor R
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Kim TW
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)
81385 Optic disk hemorrhage and vitreous hemorrhage after phacoemulsification in a normal tension glaucoma patient: A case report
Shen L
Medicine 2019; 98: e16215 (IGR: 20-3)
81423 Compressive mechanical properties of rat and pig optic nerve head
d'Humières J
Journal of Biomechanics 2019; 93: 204-208 (IGR: 20-3)
81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Sugiyama K
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)
81012 Rim-to-Disc Ratio Outperforms Cup-to-Disc Ratio for Glaucoma Prescreening
Seelamantula CS
Scientific reports 2019; 9: 7099 (IGR: 20-3)
80781 Correlation of the Retinal Parapapillary Perfusion and the Retinal Vessel Oxygen Saturation in Glaucoma Patients
Hammer M
Investigative Ophthalmology and Visual Science 2019; 60: 1309-1315 (IGR: 20-3)
81422 Two-year analysis of changes in the optic nerve and retina following anti-VEGF treatments in diabetic macular edema patients
Hooper P
Clinical Ophthalmology 2019; 13: 1087-1096 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Rahmatnejad K
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
80659 Frequencies of 4 Distinct Patterns of Glaucomatous Disc Appearance and Their Clinical Associations in Japanese Population-based Studies
Araie M
Journal of Glaucoma 2019; 28: 487-492 (IGR: 20-3)
81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Cull G
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)
80823 Swept-Source OCT for Evaluating the Lamina Cribrosa: A Report by the American Academy of Ophthalmology
Hoguet A
Ophthalmology 2019; 126: 1315-1323 (IGR: 20-3)
80568 Vertical disc tilt and features of the optic nerve head anatomy are related to visual field defect in myopic eyes
Kim YC
Scientific reports 2019; 9: 3485 (IGR: 20-3)
81275 Clinical characteristics of glaucoma patients with disc hemorrhage in different locations
Su CC
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1955-1962 (IGR: 20-3)
80917 Association between focal lamina cribrosa defects and optic disc haemorrhage in glaucoma
An D
British Journal of Ophthalmology 2020; 104: 98-103 (IGR: 20-3)
80915 Optic Nerve Lipidomics Reveal Impaired Glucosylsphingosine Lipids Pathway in Glaucoma
Valencia AK
Investigative Ophthalmology and Visual Science 2019; 60: 1789-1798 (IGR: 20-3)
81064 Optic Disc Tilt and Glaucoma Progression in Myopic Glaucoma: A Longitudinal Match-Pair Case-Control Study
Park KH
Investigative Ophthalmology and Visual Science 2019; 60: 2127-2133 (IGR: 20-3)
80919 Effects of chronic elevated intraocular pressure on parameters of optical coherence tomography in rhesus monkeys
Yang XJ
International Journal of Ophthalmology 2019; 12: 542-548 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Hallak J
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Xu L
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)
80958 Optic Disc Microhemorrhage in Primary Open-Angle Glaucoma: Clinical Implications for Visual Field Progression
Kim YK
Investigative Ophthalmology and Visual Science 2019; 60: 1824-1832 (IGR: 20-3)
80501 Utility of multicolor optic disc photography in evaluation of glaucomatous optic disc in myopic eyes: A novel approach
Garg B
Indian Journal of Ophthalmology 2019; 67: 412-414 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Holzer S
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
81203 Difference in Topographic Pattern of Prelaminar and Neuroretinal Rim Thinning Between Nonarteritic Anterior Ischemic Optic Neuropathy and Glaucoma
Han JC
Investigative Ophthalmology and Visual Science 2019; 60: 2461-2467 (IGR: 20-3)
81146 Machine Learning in the Detection of the Glaucomatous Disc and Visual Field
Elze T
Seminars in Ophthalmology 2019; 34: 232-242 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Koomson NY
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Yang H
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Bowd C
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81176 Diagnostic criteria for detection of retinal nerve fibre layer thickness and neuroretinal rim width abnormalities in glaucoma
Yu M
British Journal of Ophthalmology 2020; 104: 270-275 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Tham YC
Scientific reports 2019; 9: 6612 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Kapoor R
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Shah S
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
81108 Lamina Cribrosa Depth and Shape in Glaucoma Suspects. Comparison to Glaucoma Patients and Healthy Controls
Czajor K
Current Eye Research 2019; 44: 1026-1033 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Sarmento A
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Chen CL
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Duan L
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
80526 Relationship Between Optical Coherence Tomography Angiography Peripapillary Vessel Density and Lamina Cribrosa Depth
Shin JW
Journal of Glaucoma 2019; 28: 459-464 (IGR: 20-3)
81241 Determinants of Macular Layers and Optic Disc Characteristics on SD-OCT: The Rhineland Study
Holz FG
Translational vision science & technology 2019; 8: 34 (IGR: 20-3)
81438 Identifying the Critical Factors Governing Translaminar Pressure Differential Through a Compartmental Model
Fleischman D
Investigative Ophthalmology and Visual Science 2019; 60: 3204-3214 (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Altan C
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Chu CK
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81203 Difference in Topographic Pattern of Prelaminar and Neuroretinal Rim Thinning Between Nonarteritic Anterior Ischemic Optic Neuropathy and Glaucoma
Park DY
Investigative Ophthalmology and Visual Science 2019; 60: 2461-2467 (IGR: 20-3)
80958 Optic Disc Microhemorrhage in Primary Open-Angle Glaucoma: Clinical Implications for Visual Field Progression
Baek SU
Investigative Ophthalmology and Visual Science 2019; 60: 1824-1832 (IGR: 20-3)
81146 Machine Learning in the Detection of the Glaucomatous Disc and Visual Field
Wang H
Seminars in Ophthalmology 2019; 34: 232-242 (IGR: 20-3)
81422 Two-year analysis of changes in the optic nerve and retina following anti-VEGF treatments in diabetic macular edema patients
Sheidow TG
Clinical Ophthalmology 2019; 13: 1087-1096 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Kobia Acquah E
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
80659 Frequencies of 4 Distinct Patterns of Glaucomatous Disc Appearance and Their Clinical Associations in Japanese Population-based Studies
Kuwayama Y
Journal of Glaucoma 2019; 28: 487-492 (IGR: 20-3)
81176 Diagnostic criteria for detection of retinal nerve fibre layer thickness and neuroretinal rim width abnormalities in glaucoma
Leung CK
British Journal of Ophthalmology 2020; 104: 270-275 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Rezaei KA
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80526 Relationship Between Optical Coherence Tomography Angiography Peripapillary Vessel Density and Lamina Cribrosa Depth
Sung KR
Journal of Glaucoma 2019; 28: 459-464 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Thakku SG
Scientific reports 2019; 9: 6612 (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Topcu H
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Souza LL
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Jana A
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Sheth V
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Wajima R
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Liu XX
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
81385 Optic disk hemorrhage and vitreous hemorrhage after phacoemulsification in a normal tension glaucoma patient: A case report
Wang X
Medicine 2019; 98: e16215 (IGR: 20-3)
81241 Determinants of Macular Layers and Optic Disc Characteristics on SD-OCT: The Rhineland Study
Finger RP
Translational vision science & technology 2019; 8: 34 (IGR: 20-3)
80781 Correlation of the Retinal Parapapillary Perfusion and the Retinal Vessel Oxygen Saturation in Glaucoma Patients
Meller D
Investigative Ophthalmology and Visual Science 2019; 60: 1309-1315 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Gogte P
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Fortune B
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Gardiner SK
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80932 Optic nerve head damage relation to intracranial pressure and corneal properties of eye in glaucoma risk assessment
Kostas KV
Medical and Biological Engineering and Computing 2019; 57: 1591-1603 (IGR: 20-3)
80568 Vertical disc tilt and features of the optic nerve head anatomy are related to visual field defect in myopic eyes
Jung Y
Scientific reports 2019; 9: 3485 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Zangwill LM
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81275 Clinical characteristics of glaucoma patients with disc hemorrhage in different locations
Wang TH
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1955-1962 (IGR: 20-3)
81108 Lamina Cribrosa Depth and Shape in Glaucoma Suspects. Comparison to Glaucoma Patients and Healthy Controls
Syga P
Current Eye Research 2019; 44: 1026-1033 (IGR: 20-3)
80917 Association between focal lamina cribrosa defects and optic disc haemorrhage in glaucoma
Barry CJ
British Journal of Ophthalmology 2020; 104: 98-103 (IGR: 20-3)
80915 Optic Nerve Lipidomics Reveal Impaired Glucosylsphingosine Lipids Pathway in Glaucoma
Piqueras MC
Investigative Ophthalmology and Visual Science 2019; 60: 1789-1798 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Sheth V
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Park DY
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)
81423 Compressive mechanical properties of rat and pig optic nerve head
Read AT
Journal of Biomechanics 2019; 93: 204-208 (IGR: 20-3)
80634 Posterior scleral deformations around optic disc are associated with visual field damage in open-angle glaucoma patients with myopia
Park CK
PLoS ONE 2019; 14: e0213714 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Manalastas PIC
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Lee EJ
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)
80895 Relative Contributions of Intracranial Pressure and Intraocular Pressure on Lamina Cribrosa Behavior
Kedar S
Journal of Ophthalmology 2019; 2019: 3064949 (IGR: 20-3)
80501 Utility of multicolor optic disc photography in evaluation of glaucomatous optic disc in myopic eyes: A novel approach
Mishra S
Indian Journal of Ophthalmology 2019; 67: 412-414 (IGR: 20-3)
81064 Optic Disc Tilt and Glaucoma Progression in Myopic Glaucoma: A Longitudinal Match-Pair Case-Control Study
Jeoung JW
Investigative Ophthalmology and Visual Science 2019; 60: 2127-2133 (IGR: 20-3)
80958 Optic Disc Microhemorrhage in Primary Open-Angle Glaucoma: Clinical Implications for Visual Field Progression
Baek SU
Investigative Ophthalmology and Visual Science 2019; 60: 1824-1832 (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Cheng J
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
81012 Rim-to-Disc Ratio Outperforms Cup-to-Disc Ratio for Glaucoma Prescreening
Kamath YS
Scientific reports 2019; 9: 7099 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Wassermann L
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Espeland MA
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
80914 Robust optic disc and cup segmentation with deep learning for glaucoma detection
Frost S
Computerized Medical Imaging and Graphics 2019; 74: 61-71 (IGR: 20-3)
80823 Swept-Source OCT for Evaluating the Lamina Cribrosa: A Report by the American Academy of Ophthalmology
Junk AK
Ophthalmology 2019; 126: 1315-1323 (IGR: 20-3)
81438 Identifying the Critical Factors Governing Translaminar Pressure Differential Through a Compartmental Model
Lee YZ
Investigative Ophthalmology and Visual Science 2019; 60: 3204-3214 (IGR: 20-3)
81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Lee EJ
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80919 Effects of chronic elevated intraocular pressure on parameters of optical coherence tomography in rhesus monkeys
Chen HR
International Journal of Ophthalmology 2019; 12: 542-548 (IGR: 20-3)
81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Wei WB
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Luo H
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80501 Utility of multicolor optic disc photography in evaluation of glaucomatous optic disc in myopic eyes: A novel approach
Goel S
Indian Journal of Ophthalmology 2019; 67: 412-414 (IGR: 20-3)
81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Girard MJA
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Gu Z
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Hill A
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81012 Rim-to-Disc Ratio Outperforms Cup-to-Disc Ratio for Glaucoma Prescreening
Jampala R
Scientific reports 2019; 9: 7099 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Chao JR
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80895 Relative Contributions of Intracranial Pressure and Intraocular Pressure on Lamina Cribrosa Behavior
Gu L
Journal of Ophthalmology 2019; 2019: 3064949 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Pasquale LR
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Purohit R
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
80915 Optic Nerve Lipidomics Reveal Impaired Glucosylsphingosine Lipids Pathway in Glaucoma
Enriquez-Algeciras M
Investigative Ophthalmology and Visual Science 2019; 60: 1789-1798 (IGR: 20-3)
81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Wang YX
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Suh MH
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Walters S
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Kim JM
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)
81146 Machine Learning in the Detection of the Glaucomatous Disc and Visual Field
Pasquale LR
Seminars in Ophthalmology 2019; 34: 232-242 (IGR: 20-3)
80914 Robust optic disc and cup segmentation with deep learning for glaucoma detection
Kanagasingam Y
Computerized Medical Imaging and Graphics 2019; 74: 61-71 (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Arici M
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
81108 Lamina Cribrosa Depth and Shape in Glaucoma Suspects. Comparison to Glaucoma Patients and Healthy Controls
Iskander DR
Current Eye Research 2019; 44: 1026-1033 (IGR: 20-3)
81422 Two-year analysis of changes in the optic nerve and retina following anti-VEGF treatments in diabetic macular edema patients
Gonder J
Clinical Ophthalmology 2019; 13: 1087-1096 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Pascal TM
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
81438 Identifying the Critical Factors Governing Translaminar Pressure Differential Through a Compartmental Model
Thorp BD
Investigative Ophthalmology and Visual Science 2019; 60: 3204-3214 (IGR: 20-3)
81203 Difference in Topographic Pattern of Prelaminar and Neuroretinal Rim Thinning Between Nonarteritic Anterior Ischemic Optic Neuropathy and Glaucoma
Kee C
Investigative Ophthalmology and Visual Science 2019; 60: 2461-2467 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Proudfoot J
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Tachibana G
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)
80919 Effects of chronic elevated intraocular pressure on parameters of optical coherence tomography in rhesus monkeys
Deng SF
International Journal of Ophthalmology 2019; 12: 542-548 (IGR: 20-3)
80823 Swept-Source OCT for Evaluating the Lamina Cribrosa: A Report by the American Academy of Ophthalmology
Nouri-Mahdavi K
Ophthalmology 2019; 126: 1315-1323 (IGR: 20-3)
81241 Determinants of Macular Layers and Optic Disc Characteristics on SD-OCT: The Rhineland Study
Breteler MMB
Translational vision science & technology 2019; 8: 34 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Siraj S
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Guo YQ
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80659 Frequencies of 4 Distinct Patterns of Glaucomatous Disc Appearance and Their Clinical Associations in Japanese Population-based Studies
Murata H
Journal of Glaucoma 2019; 28: 487-492 (IGR: 20-3)
81432 Increased Optic Nerve Head Capillary Blood Flow in Early Primary Open-Angle Glaucoma
Wang L
Investigative Ophthalmology and Visual Science 2019; 60: 3110-3118 (IGR: 20-3)
80568 Vertical disc tilt and features of the optic nerve head anatomy are related to visual field defect in myopic eyes
Park CK
Scientific reports 2019; 9: 3485 (IGR: 20-3)
80958 Optic Disc Microhemorrhage in Primary Open-Angle Glaucoma: Clinical Implications for Visual Field Progression
Park KH
Investigative Ophthalmology and Visual Science 2019; 60: 1824-1832 (IGR: 20-3)
81275 Clinical characteristics of glaucoma patients with disc hemorrhage in different locations
Huang JY
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1955-1962 (IGR: 20-3)
80917 Association between focal lamina cribrosa defects and optic disc haemorrhage in glaucoma
House PH
British Journal of Ophthalmology 2020; 104: 98-103 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Proudfoot J
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Purohit R
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Lee EJ
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)
81423 Compressive mechanical properties of rat and pig optic nerve head
Ethier CR
Journal of Biomechanics 2019; 93: 204-208 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Siraj S
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Oliveira LA
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Resch H
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Wang X
Scientific reports 2019; 9: 6612 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Hasenstab KA
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Urach S
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
81308 Size and Shape of Bruch's Membrane Opening in Relationship to Axial Length, Gamma Zone, and Macular Bruch's Membrane Defects
Jonas JB
Investigative Ophthalmology and Visual Science 2019; 60: 2591-2598 (IGR: 20-3)
81438 Identifying the Critical Factors Governing Translaminar Pressure Differential Through a Compartmental Model
Kuznetsov AV
Investigative Ophthalmology and Visual Science 2019; 60: 3204-3214 (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Pasaoglu I
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
80958 Optic Disc Microhemorrhage in Primary Open-Angle Glaucoma: Clinical Implications for Visual Field Progression
Jeoung JW
Investigative Ophthalmology and Visual Science 2019; 60: 1824-1832 (IGR: 20-3)
80501 Utility of multicolor optic disc photography in evaluation of glaucomatous optic disc in myopic eyes: A novel approach
Roy R
Indian Journal of Ophthalmology 2019; 67: 412-414 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Rios MFR
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
80917 Association between focal lamina cribrosa defects and optic disc haemorrhage in glaucoma
Morgan WH
British Journal of Ophthalmology 2020; 104: 98-103 (IGR: 20-3)
80919 Effects of chronic elevated intraocular pressure on parameters of optical coherence tomography in rhesus monkeys
Zhu YT
International Journal of Ophthalmology 2019; 12: 542-548 (IGR: 20-3)
80552 Border Tissue Morphology Is Spatially Associated with Focal Lamina Cribrosa Defect and Deep-Layer Microvasculature Dropout in Open-Angle Glaucoma
Kee C
American Journal of Ophthalmology 2019; 203: 89-102 (IGR: 20-3)
81058 Relationship between lamina cribrosa curvature and the microvasculature in treatment-naïve eyes
Mari JM
British Journal of Ophthalmology 2019; 0: (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Proudlock FA
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Fudemberg SJ
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
80659 Frequencies of 4 Distinct Patterns of Glaucomatous Disc Appearance and Their Clinical Associations in Japanese Population-based Studies
Yamamoto T
Journal of Glaucoma 2019; 28: 487-492 (IGR: 20-3)
80823 Swept-Source OCT for Evaluating the Lamina Cribrosa: A Report by the American Academy of Ophthalmology
Radhakrishnan S
Ophthalmology 2019; 126: 1315-1323 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Baskaran M
Scientific reports 2019; 9: 6612 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Penteado RC
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Hardin C
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Klein BE
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Xia H
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Vemulakonda A
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80915 Optic Nerve Lipidomics Reveal Impaired Glucosylsphingosine Lipids Pathway in Glaucoma
Bhattacharya SK
Investigative Ophthalmology and Visual Science 2019; 60: 1789-1798 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Gong D
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81422 Two-year analysis of changes in the optic nerve and retina following anti-VEGF treatments in diabetic macular edema patients
Chakrabarti S
Clinical Ophthalmology 2019; 13: 1087-1096 (IGR: 20-3)
81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Girard MJA
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Atuahene J
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Danford F
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81297 Associations between changes in radial peripapillary capillaries and occurrence of disc hemorrhage in normal-tension glaucoma
Yamada Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1963-1970 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Pang RQ
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Abbott J
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
80823 Swept-Source OCT for Evaluating the Lamina Cribrosa: A Report by the American Academy of Ophthalmology
Chen TC
Ophthalmology 2019; 126: 1315-1323 (IGR: 20-3)
81195 Intereye Comparison of Lamina Cribrosa Curvature in Normal Tension Glaucoma Patients With Unilateral Damage
Mari JM
Investigative Ophthalmology and Visual Science 2019; 60: 2423-2430 (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Fu H
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Hou H
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Zhang X
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hou H
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
81422 Two-year analysis of changes in the optic nerve and retina following anti-VEGF treatments in diabetic macular edema patients
Hutnik CM
Clinical Ophthalmology 2019; 13: 1087-1096 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Garg A
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Tan MCL
Scientific reports 2019; 9: 6612 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Domingues TAL
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Kiss B
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Akowuah PK
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Hou H
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hou H
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Mantravadi AV
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Howerton S
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81438 Identifying the Critical Factors Governing Translaminar Pressure Differential Through a Compartmental Model
Grace L
Investigative Ophthalmology and Visual Science 2019; 60: 3204-3214 (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Basarir B
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Sharpe GP
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Hou H
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80919 Effects of chronic elevated intraocular pressure on parameters of optical coherence tomography in rhesus monkeys
Zhuo YH
International Journal of Ophthalmology 2019; 12: 542-548 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Luttrell I
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hou H
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80501 Utility of multicolor optic disc photography in evaluation of glaucomatous optic disc in myopic eyes: A novel approach
Saurabh K
Indian Journal of Ophthalmology 2019; 67: 412-414 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Meuer SM
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hasenstab K
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Hommer A
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Rapp SR
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Paula JS
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Cao K
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Penteado RC
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Djeagbo PT
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Gopal K
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Mari JM
Scientific reports 2019; 9: 6612 (IGR: 20-3)
81431 Detection and characterisation of optic nerve and retinal changes in primary congenital glaucoma using hand-held optical coherence tomography
Gottlob I
BMJ open ophthalmology 2019; 4: e000194 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Wang RK
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Gopal K
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Ram S
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Caprioli J
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80833 Comparison of the Lamina Cribrosa Measurements Obtained by Spectral-Domain and Swept-Source Optical Coherence Tomography
Solmaz B
Current Eye Research 2019; 44: 968-974 (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Li C
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Katz LJ
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Haan MN
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
81084 Reproducibility of minimum rim width and retinal nerve fibre layer thickness using the Anatomic Positioning System in glaucoma patients
Waisbourd M
Canadian Journal of Ophthalmology 2019; 54: 335-341 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Patel V
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80537 Optic Nerve Head Perfusion Before and After Intravitreal Antivascular Growth Factor Injections Using Optical Coherence Tomography-based Microangiography
Chen PP
Journal of Glaucoma 2019; 28: 188-193 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Rodríguez JJ
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Demirel S
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80913 JointRCNN: A Region-based Convolutional Neural Network for Optic Disc and Cup Segmentation
Liu J
IEEE Transactions on Bio-Medical Engineering 2020; 67: 335-343 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Manalastas PIC
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80962 Comparison of the clinical estimation of cup-to-disk ratio by direct ophthalmoscopy and optical coherence tomography
Baafi R
Therapeutic advances in ophthalmology 2019; 11: 2515841419827268 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Vass C
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
80973 Determining Optic Nerve Cupping Using Optical Coherence Tomography (OCT) Versus a New Electronic Mobile Device
Lira RPC
Journal of Glaucoma 2019; 28: 398-403 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Strouthidis NG
Scientific reports 2019; 9: 6612 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Tian N
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Ghahari E
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Moghimi S
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Aung T
Scientific reports 2019; 9: 6612 (IGR: 20-3)
81204 An association between large optic nerve cupping and cognitive function
Maki PM
American Journal of Ophthalmology 2019; 206: 40-47 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Girkin CA
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Bowd C
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Utzinger U
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Wang HZ
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Sameer T
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80774 Comparison of Spectralis and Cirrus spectral domain optical coherence tomography for the objective morphometric assessment of the neuroretinal rim width
Schmidt-Erfurth U
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 1265-1275 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Rogers TW
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Liebmann JM
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Girkin CA
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Zhang C
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Girard MJA
Scientific reports 2019; 9: 6612 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Shoji T
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
80461 Association Between Lamina Cribrosa Defects and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Weinreb RN
JAMA ophthalmology 2019; 137: 425-433 (IGR: 20-3)
80946 Changes in the Anterior Lamina Cribrosa Morphology with Glaucoma Severity
Cheng CY
Scientific reports 2019; 9: 6612 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Christopher M
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Nicolas J
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80516 Racioethnic differences in the biomechanical response of the lamina cribrosa
Vande Geest JP
Acta biomaterialia 2019; 88: 131-140 (IGR: 20-3)
81157 Spontaneous focal lamina cribrosa defect in glaucoma and its relationship with nonprogressive glaucomatous neuropathy
Wang NL
Chinese Journal of Ophthalmology 2019; 55: 338-346 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Mardin CY; Quigley HA
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
De Moraes CG
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Yarmohammadi A
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Scheuerle AF
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
80645 Association of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced Glaucoma
Weinreb RN
American Journal of Ophthalmology 2019; 204: 51-61 (IGR: 20-3)
81330 Evaluation of a Deep Learning System for Identifying Glaucomatous Optic Neuropathy Based on Color Fundus Photographs
Moazami G
Journal of Glaucoma 2019; 28: 1029-1034 (IGR: 20-3)
81050 OCT-Detected Optic Nerve Head Neural Canal Direction, Obliqueness and Minimum Cross-Sectional Area in Healthy Eyes
Fortune B; Chauhan BC; Burgoyne CF
American Journal of Ophthalmology 2019; 0: (IGR: 20-3)
79674 Linear discriminant score for differentiating early primary open angle glaucoma from glaucoma suspects
Deshpande GA
Indian Journal of Ophthalmology 2019; 67: 75-81 (IGR: 20-2)
79503 Anatomical Characterization of an Optic Disc Notch Using SD-OCT in Glaucoma
Rao A
Seminars in Ophthalmology 2018; 33: 878-885 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Torres LA
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Yamada Y
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79863 A Deep Learning Algorithm to Quantify Neuroretinal Rim Loss From Optic Disc Photographs
Thompson AC
American Journal of Ophthalmology 2019; 201: 9-18 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Omodaka K
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
80031 The Effects of Optic Nerve Head Tilt on Visual Field Defects in Myopic Normal Tension Glaucoma: The Intereye Comparison Study
Choi JH
Journal of Glaucoma 2019; 28: 341-346 (IGR: 20-2)
80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Park JH
Medicine 2019; 98: e14044 (IGR: 20-2)
79392 The impact of disc hemorrhage studies on our understanding of glaucoma: a systematic review 50 years after the rediscovery of disc hemorrhage
Yamamoto T
Japanese Journal of Ophthalmology 2019; 63: 7-25 (IGR: 20-2)
80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Toshev AP
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Mathieu E
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Bouillot A
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Tehrani S
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79698 Influence of uveitis on Bruch's membrane opening minimum rim width and retinal nerve fibre layer thickness measurements
Kriegel MF
British Journal of Ophthalmology 2019; 103: 1413-1417 (IGR: 20-2)
79439 A Unified Optic Nerve Head and Optic Cup Segmentation Using Unsupervised Neural Networks for Glaucoma Screening
Ghassabi Z
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 5942-5945 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Addis V
Eye 2019; 33: 838-844 (IGR: 20-2)
79703 Myopic optic disc changes and its role in glaucoma
Tan NYQ
Current Opinions in Ophthalmology 2019; 30: 89-96 (IGR: 20-2)
79420 Age related changes of the central lamina cribrosa thickness, depth and prelaminar tissue in healthy Chinese subjects
Xiao H
International Journal of Ophthalmology 2018; 11: 1842-1847 (IGR: 20-2)
79399 Sonographic Assessment of Optic Disc Cupping and its Diagnostic Performance in Glaucoma
Chaurasia S
Journal of Glaucoma 2019; 28: 131-138 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Jiang Y
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Kiessling D
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79498 Relationship between the rate of change in lamina cribrosa depth and the rate of retinal nerve fiber layer thinning following glaucoma surgery
Krzyżanowska-Berkowska P
PLoS ONE 2018; 13: e0206040 (IGR: 20-2)
79736 Relationship between Progressive Changes in Lamina Cribrosa Depth and Deterioration of Visual Field Loss in Glaucomatous Eyes
Kim YN
Korean Journal of Ophthalmology 2018; 32: 470-477 (IGR: 20-2)
79898 Screening Glaucoma With Red-free Fundus Photography Using Deep Learning Classifier and Polar Transformation
Lee J
Journal of Glaucoma 2019; 28: 258-264 (IGR: 20-2)
79560 Lamina Cribrosa Morphology in Glaucomatous Eyes with Hemifield Defect in a Korean Population
Kim JA
Ophthalmology 2019; 126: 692-701 (IGR: 20-2)
79591 Automatic Assessment of Biometric Parameters in Optic Nerve Head Area by "Zhongshan ONH Calculator (ZOC)"
Li F
Current Eye Research 2019; 44: 551-557 (IGR: 20-2)
79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Wang XM
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)
79546 The relationship between optic nerve head deformation and visual field defects in myopic eyes with primary open-angle glaucoma
Hung CH
PLoS ONE 2018; 13: e0209755 (IGR: 20-2)
79782 Short-term Optic Disc Cupping Reversal in a Patient With Mild Juvenile Open-angle Glaucoma Due to Early Idiopathic Intracranial Hypertension
Umfress AC
Journal of Glaucoma 2019; 28: e53-e57 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Nascimento E Silva R
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79598 From Machine to Machine: An OCT-Trained Deep Learning Algorithm for Objective Quantification of Glaucomatous Damage in Fundus Photographs
Medeiros FA
Ophthalmology 2019; 126: 513-521 (IGR: 20-2)
79736 Relationship between Progressive Changes in Lamina Cribrosa Depth and Deterioration of Visual Field Loss in Glaucomatous Eyes
Shin JW
Korean Journal of Ophthalmology 2018; 32: 470-477 (IGR: 20-2)
79503 Anatomical Characterization of an Optic Disc Notch Using SD-OCT in Glaucoma
Kaza H
Seminars in Ophthalmology 2018; 33: 878-885 (IGR: 20-2)
79898 Screening Glaucoma With Red-free Fundus Photography Using Deep Learning Classifier and Polar Transformation
Kim Y
Journal of Glaucoma 2019; 28: 258-264 (IGR: 20-2)
79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Pierru A
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)
79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Sun XH
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Christ H
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Gupta N
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79439 A Unified Optic Nerve Head and Optic Cup Segmentation Using Unsupervised Neural Networks for Glaucoma Screening
Shanbehzadeh J
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 5942-5945 (IGR: 20-2)
79591 Automatic Assessment of Biometric Parameters in Optic Nerve Head Area by "Zhongshan ONH Calculator (ZOC)"
Yu K
Current Eye Research 2019; 44: 551-557 (IGR: 20-2)
79420 Age related changes of the central lamina cribrosa thickness, depth and prelaminar tissue in healthy Chinese subjects
Xu XY
International Journal of Ophthalmology 2018; 11: 1842-1847 (IGR: 20-2)
79560 Lamina Cribrosa Morphology in Glaucomatous Eyes with Hemifield Defect in a Korean Population
Kim TW
Ophthalmology 2019; 126: 692-701 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Maekawa S
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79598 From Machine to Machine: An OCT-Trained Deep Learning Algorithm for Objective Quantification of Glaucomatous Damage in Fundus Photographs
Jammal AA
Ophthalmology 2019; 126: 513-521 (IGR: 20-2)
79498 Relationship between the rate of change in lamina cribrosa depth and the rate of retinal nerve fiber layer thinning following glaucoma surgery
Czajor K
PLoS ONE 2018; 13: e0206040 (IGR: 20-2)
80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Yoo C
Medicine 2019; 98: e14044 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Chiou CA
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
80031 The Effects of Optic Nerve Head Tilt on Visual Field Defects in Myopic Normal Tension Glaucoma: The Intereye Comparison Study
Han JC
Journal of Glaucoma 2019; 28: 341-346 (IGR: 20-2)
80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Schuster AK
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)
79782 Short-term Optic Disc Cupping Reversal in a Patient With Mild Juvenile Open-angle Glaucoma Due to Early Idiopathic Intracranial Hypertension
Mawn LA
Journal of Glaucoma 2019; 28: e53-e57 (IGR: 20-2)
79698 Influence of uveitis on Bruch's membrane opening minimum rim width and retinal nerve fibre layer thickness measurements
Heiligenhaus A
British Journal of Ophthalmology 2019; 103: 1413-1417 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Oyeniran E
Eye 2019; 33: 838-844 (IGR: 20-2)
79546 The relationship between optic nerve head deformation and visual field defects in myopic eyes with primary open-angle glaucoma
Lee SH
PLoS ONE 2018; 13: e0209755 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Xia H
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79674 Linear discriminant score for differentiating early primary open angle glaucoma from glaucoma suspects
Bawankule PK
Indian Journal of Ophthalmology 2019; 67: 75-81 (IGR: 20-2)
79703 Myopic optic disc changes and its role in glaucoma
Sng CCA
Current Opinions in Ophthalmology 2019; 30: 89-96 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Jarrar F
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
79863 A Deep Learning Algorithm to Quantify Neuroretinal Rim Loss From Optic Disc Photographs
Jammal AA
American Journal of Ophthalmology 2019; 201: 9-18 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Higashide T
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79399 Sonographic Assessment of Optic Disc Cupping and its Diagnostic Performance in Glaucoma
Garg R
Journal of Glaucoma 2019; 28: 131-138 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Davis L
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79698 Influence of uveitis on Bruch's membrane opening minimum rim width and retinal nerve fibre layer thickness measurements
Heinz C
British Journal of Ophthalmology 2019; 103: 1413-1417 (IGR: 20-2)
79498 Relationship between the rate of change in lamina cribrosa depth and the rate of retinal nerve fiber layer thinning following glaucoma surgery
Helemejko I
PLoS ONE 2018; 13: e0206040 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Daniel E
Eye 2019; 33: 838-844 (IGR: 20-2)
79420 Age related changes of the central lamina cribrosa thickness, depth and prelaminar tissue in healthy Chinese subjects
Zhong YM
International Journal of Ophthalmology 2018; 11: 1842-1847 (IGR: 20-2)
80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Ul Hassan SN
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)
79560 Lamina Cribrosa Morphology in Glaucomatous Eyes with Hemifield Defect in a Korean Population
Lee EJ
Ophthalmology 2019; 126: 692-701 (IGR: 20-2)
79591 Automatic Assessment of Biometric Parameters in Optic Nerve Head Area by "Zhongshan ONH Calculator (ZOC)"
Zhang L
Current Eye Research 2019; 44: 551-557 (IGR: 20-2)
79703 Myopic optic disc changes and its role in glaucoma
Ang M
Current Opinions in Ophthalmology 2019; 30: 89-96 (IGR: 20-2)
79782 Short-term Optic Disc Cupping Reversal in a Patient With Mild Juvenile Open-angle Glaucoma Due to Early Idiopathic Intracranial Hypertension
Joos KM
Journal of Glaucoma 2019; 28: e53-e57 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
An G
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Blumen-Ohana E
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Cepurna WO
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79674 Linear discriminant score for differentiating early primary open angle glaucoma from glaucoma suspects
Raje DV
Indian Journal of Ophthalmology 2019; 67: 75-81 (IGR: 20-2)
79736 Relationship between Progressive Changes in Lamina Cribrosa Depth and Deterioration of Visual Field Loss in Glaucomatous Eyes
Sung KR
Korean Journal of Ophthalmology 2018; 32: 470-477 (IGR: 20-2)
79898 Screening Glaucoma With Red-free Fundus Photography Using Deep Learning Classifier and Polar Transformation
Kim JH
Journal of Glaucoma 2019; 28: 258-264 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Xu Y
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Gietzelt C
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79863 A Deep Learning Algorithm to Quantify Neuroretinal Rim Loss From Optic Disc Photographs
Medeiros FA
American Journal of Ophthalmology 2019; 201: 9-18 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Wang M
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79399 Sonographic Assessment of Optic Disc Cupping and its Diagnostic Performance in Glaucoma
Beri S
Journal of Glaucoma 2019; 28: 131-138 (IGR: 20-2)
79546 The relationship between optic nerve head deformation and visual field defects in myopic eyes with primary open-angle glaucoma
Lin SY
PLoS ONE 2018; 13: e0209755 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Paczka-Giorgi LA
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Dai Y
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)
79598 From Machine to Machine: An OCT-Trained Deep Learning Algorithm for Objective Quantification of Glaucomatous Damage in Fundus Photographs
Thompson AC
Ophthalmology 2019; 126: 513-521 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Sharpe GP
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Jung JH
Medicine 2019; 98: e14044 (IGR: 20-2)
79439 A Unified Optic Nerve Head and Optic Cup Segmentation Using Unsupervised Neural Networks for Glaucoma Screening
Nouri-Mahdavi K
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 5942-5945 (IGR: 20-2)
80031 The Effects of Optic Nerve Head Tilt on Visual Field Defects in Myopic Normal Tension Glaucoma: The Intereye Comparison Study
Kee C
Journal of Glaucoma 2019; 28: 341-346 (IGR: 20-2)
79503 Anatomical Characterization of an Optic Disc Notch Using SD-OCT in Glaucoma
Padhy D
Seminars in Ophthalmology 2018; 33: 878-885 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Udagawa S
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Cheng J
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Wang H
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79399 Sonographic Assessment of Optic Disc Cupping and its Diagnostic Performance in Glaucoma
Pakhare A
Journal of Glaucoma 2019; 28: 131-138 (IGR: 20-2)
79560 Lamina Cribrosa Morphology in Glaucomatous Eyes with Hemifield Defect in a Korean Population
Girard MJA
Ophthalmology 2019; 126: 692-701 (IGR: 20-2)
79498 Relationship between the rate of change in lamina cribrosa depth and the rate of retinal nerve fiber layer thinning following glaucoma surgery
Iskander DR
PLoS ONE 2018; 13: e0206040 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Hutchison DM
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Salowe R
Eye 2019; 33: 838-844 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Takeshima S
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Zhou X
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79591 Automatic Assessment of Biometric Parameters in Optic Nerve Head Area by "Zhongshan ONH Calculator (ZOC)"
Gao K
Current Eye Research 2019; 44: 551-557 (IGR: 20-2)
79674 Linear discriminant score for differentiating early primary open angle glaucoma from glaucoma suspects
Chakraborty M
Indian Journal of Ophthalmology 2019; 67: 75-81 (IGR: 20-2)
79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Kong XM
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)
79503 Anatomical Characterization of an Optic Disc Notch Using SD-OCT in Glaucoma
Das G
Seminars in Ophthalmology 2018; 33: 878-885 (IGR: 20-2)
79898 Screening Glaucoma With Red-free Fundus Photography Using Deep Learning Classifier and Polar Transformation
Park KH
Journal of Glaucoma 2019; 28: 258-264 (IGR: 20-2)
79546 The relationship between optic nerve head deformation and visual field defects in myopic eyes with primary open-angle glaucoma
Lin SL
PLoS ONE 2018; 13: e0209755 (IGR: 20-2)
80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Girard MJA
Medicine 2019; 98: e14044 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Delf RK
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79420 Age related changes of the central lamina cribrosa thickness, depth and prelaminar tissue in healthy Chinese subjects
Liu X
International Journal of Ophthalmology 2018; 11: 1842-1847 (IGR: 20-2)
80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Pfeiffer N
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Tsuda S
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Brasnu E
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Schaub F
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Shoji MK
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Dietlein TS
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Lozano DC
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
80029 Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma
Hoffmann EM
Journal of Glaucoma 2019; 28: 243-251 (IGR: 20-2)
79546 The relationship between optic nerve head deformation and visual field defects in myopic eyes with primary open-angle glaucoma
Chen YC
PLoS ONE 2018; 13: e0209755 (IGR: 20-2)
79503 Anatomical Characterization of an Optic Disc Notch Using SD-OCT in Glaucoma
Sarangi S
Seminars in Ophthalmology 2018; 33: 878-885 (IGR: 20-2)
79591 Automatic Assessment of Biometric Parameters in Optic Nerve Head Area by "Zhongshan ONH Calculator (ZOC)"
Chen X
Current Eye Research 2019; 44: 551-557 (IGR: 20-2)
79447 The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma
Chen YH
Chinese Journal of Ophthalmology 2018; 54: 811-819 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Zorger R
Eye 2019; 33: 838-844 (IGR: 20-2)
79560 Lamina Cribrosa Morphology in Glaucomatous Eyes with Hemifield Defect in a Korean Population
Mari JM
Ophthalmology 2019; 126: 692-701 (IGR: 20-2)
79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Baudouin C
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Fu H
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Ferracioli-Oda E
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Sakaguchi K
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Shiga Y
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Ahari A
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Mari JM
Medicine 2019; 98: e14044 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Hatanaka M
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
80065 The association between prelaminar tissue thickness and peripapillary choroidal thickness in untreated normal-tension glaucoma patients
Kim YY
Medicine 2019; 98: e14044 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Duan L
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Takada N
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Lee R
Eye 2019; 33: 838-844 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Nitta K
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79931 Changes in choroidal thickness and optic nerve head morphology after filtering surgery: nonpenetrating deep sclerectomy versus trabeculectomy
Labbé A
BMC Ophthalmology 2019; 19: 24 (IGR: 20-2)
79591 Automatic Assessment of Biometric Parameters in Optic Nerve Head Area by "Zhongshan ONH Calculator (ZOC)"
Zhang X
Current Eye Research 2019; 44: 551-557 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Choe TE
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Lani R
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Cursiefen C
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Chou JC
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Pistilli M
Eye 2019; 33: 838-844 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
D'Souza EE
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
80032 The Relationship Between Interocular Asymmetry of Visual Field Defects and Optic Nerve Head Blood Flow in Patients With Glaucoma
Sugiyama K
Journal of Glaucoma 2019; 28: 231-237 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Johnson EC
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Heindl LM
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Nicolela MT
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Hanna J
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Kikawa T
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Meng Z
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
79745 Reduced Cerebrospinal Fluid Inflow to the Optic Nerve in Glaucoma
Yücel YH
Investigative Ophthalmology and Visual Science 2018; 59: 5876-5884 (IGR: 20-2)
79343 Impact of ab-interno trabeculectomy on Bruch's membrane opening-based morphometry of the optic nerve head for glaucoma progression analysis
Enders P
Graefe's Archive for Clinical and Experimental Ophthalmology 2019; 257: 339-347 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Greenstein SH
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Maguire M
Eye 2019; 33: 838-844 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Vianna JR
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Takahashi H
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79932 Optic Nerve Head Astrocytes Display Axon-Dependent and -Independent Reactivity in Response to Acutely Elevated Intraocular Pressure
Morrison JC
Investigative Ophthalmology and Visual Science 2019; 60: 312-321 (IGR: 20-2)
79441 Optic Disc and Cup Segmentation with Blood Vessel Removal from Fundus Images for Glaucoma Detection
Liu J
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2018; 2018: 862-865 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Cui Q
Eye 2019; 33: 838-844 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Yokota H
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79380 Clinical relevance of protruded retinal layers in minimum rim width measurement of the optic nerve head
Chauhan BC
British Journal of Ophthalmology 2019; 103: 1401-1405 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Brauner SC
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Akiba M
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
Miller-Ellis E
Eye 2019; 33: 838-844 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Alves MR
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79397 Pilot study for three-dimensional assessment of laminar pore structure in patients with glaucoma, as measured with swept source optical coherence tomography
Nakazawa T
PLoS ONE 2018; 13: e0207600 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Pasquale LR
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
80006 Non-physician grader reliability in measuring morphological features of the optic nerve head in stereo digital images
O'Brien JM; Sankar PS
Eye 2019; 33: 838-844 (IGR: 20-2)
79577 Microvasculature of the Optic Nerve Head and Peripapillary Region in Patients With Primary Open-Angle Glaucoma
Shen LQ
Journal of Glaucoma 2019; 28: 281-288 (IGR: 20-2)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Martucci A
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
78898 Three dimensional neuro-retinal rim thickness and retinal nerve fiber layer thickness using high-definition optical coherence tomography for open-angle glaucoma
Subramaniam S
Japanese Journal of Ophthalmology 2018; 62: 634-642 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Rabiolo A
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Wilde C
Eye 2019; 33: 580-586 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Nguyen C
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
78844 An efficient optic cup segmentation method decreasing the influences of blood vessels
Yang C
Biomedical engineering online 2018; 17: 130 (IGR: 20-1)
78439 In vivo optic nerve head mechanical response to intraocular and cerebrospinal fluid pressure: imaging protocol and quantification method
Fazio MA
Scientific reports 2018; 8: 12639 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Yoshikawa T
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Numa S
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Vonor K
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78974 Histological investigation of human glaucomatous eyes: Extracellular fibrotic changes and galectin 3 expression in the trabecular meshwork and optic nerve head
Belmares R
Clinical anatomy (New York, N.Y.) 2018; 31: 1031-1049 (IGR: 20-1)
78856 Three-dimensional surface presentation of optic nerve head from SPECTRALIS OCT images: observing glaucoma patients
Al-Hinnawi AM
International Ophthalmology 2019; 39: 1939-1947 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Michelessi M
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78429 Peripapillary sclera architecture revisited: A tangential fiber model and its biomechanical implications
Voorhees AP
Acta biomaterialia 2018; 79: 113-122 (IGR: 20-1)
79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Kosior-Jarecka E
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Esfandiari H
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
79018 The Translaminar Pressure Gradient: Papilledema After Trabeculectomy Treated With Optic Nerve Sheath Fenestration
Radke PM
Journal of Glaucoma 2018; 27: e154-e157 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Moghimi S
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Akagi T
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
79256 A Fully Automated 3D In-vivo Delineation and Shape Parameterization of the Human Lamina Cribrosa in Optical Coherence Tomography
Syga P
IEEE Transactions on Bio-Medical Engineering 2019; 66: 1422-1428 (IGR: 20-1)
79152 The assessment of structural changes on optic nerve head and macula in primary open angle glaucoma and ocular hypertension
Dagdelen K
International Journal of Ophthalmology 2018; 11: 1631-1637 (IGR: 20-1)
78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Kim JA
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Bata AM
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
78422 Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
Sawada Y
Ophthalmology 2018; 125: 1886-1897 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Resch H
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
78947 Optical coherence tomography evaluation of the optic nerve head neuro-retinal rim in glaucoma
Fortune B
Clinical and Experimental Optometry 2019; 102: 286-290 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Riva I
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78439 In vivo optic nerve head mechanical response to intraocular and cerebrospinal fluid pressure: imaging protocol and quantification method
Clark ME
Scientific reports 2018; 8: 12639 (IGR: 20-1)
78974 Histological investigation of human glaucomatous eyes: Extracellular fibrotic changes and galectin 3 expression in the trabecular meshwork and optic nerve head
Raychaudhuri U
Clinical anatomy (New York, N.Y.) 2018; 31: 1031-1049 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Toschi N
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Wróbel-Dudzińska D
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Midgett D
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Nekoozadeh S
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Mitsch C
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)
79152 The assessment of structural changes on optic nerve head and macula in primary open angle glaucoma and ocular hypertension
Dirican E
International Journal of Ophthalmology 2018; 11: 1631-1637 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Poostchi A
Eye 2019; 33: 580-586 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Fondi K
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Efatizadeh A
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
78898 Three dimensional neuro-retinal rim thickness and retinal nerve fiber layer thickness using high-definition optical coherence tomography for open-angle glaucoma
Jeoung JW
Japanese Journal of Ophthalmology 2018; 62: 634-642 (IGR: 20-1)
78844 An efficient optic cup segmentation method decreasing the influences of blood vessels
Lu M
Biomedical engineering online 2018; 17: 130 (IGR: 20-1)
79018 The Translaminar Pressure Gradient: Papilledema After Trabeculectomy Treated With Optic Nerve Sheath Fenestration
Rubinstein TJ
Journal of Glaucoma 2018; 27: e154-e157 (IGR: 20-1)
78422 Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
Araie M
Ophthalmology 2018; 125: 1886-1897 (IGR: 20-1)
78429 Peripapillary sclera architecture revisited: A tangential fiber model and its biomechanical implications
Jan NJ
Acta biomaterialia 2018; 79: 113-122 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Zangwill LM
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Gelormini F
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Obayashi K
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Ayéna KD
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78856 Three-dimensional surface presentation of optic nerve head from SPECTRALIS OCT images: observing glaucoma patients
Alqasem AM
International Ophthalmology 2019; 39: 1939-1947 (IGR: 20-1)
79256 A Fully Automated 3D In-vivo Delineation and Shape Parameterization of the Human Lamina Cribrosa in Optical Coherence Tomography
Sieluzycki C
IEEE Transactions on Bio-Medical Engineering 2019; 66: 1422-1428 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Akagi T
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Kimball E
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
78856 Three-dimensional surface presentation of optic nerve head from SPECTRALIS OCT images: observing glaucoma patients
Al-Naami BO
International Ophthalmology 2019; 39: 1939-1947 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Hassanpour K
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
78429 Peripapillary sclera architecture revisited: A tangential fiber model and its biomechanical implications
Hua Y
Acta biomaterialia 2018; 79: 113-122 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Shoji T
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Witkowska KJ
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79018 The Translaminar Pressure Gradient: Papilledema After Trabeculectomy Treated With Optic Nerve Sheath Fenestration
Hamilton SR
Journal of Glaucoma 2018; 27: e154-e157 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Kimball E
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Hassanpour K
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Motamed-Gorji N
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
79256 A Fully Automated 3D In-vivo Delineation and Shape Parameterization of the Human Lamina Cribrosa in Optical Coherence Tomography
Krzyzanowska-Berkowska P
IEEE Transactions on Bio-Medical Engineering 2019; 66: 1422-1428 (IGR: 20-1)
78898 Three dimensional neuro-retinal rim thickness and retinal nerve fiber layer thickness using high-definition optical coherence tomography for open-angle glaucoma
Lee WJ
Japanese Journal of Ophthalmology 2018; 62: 634-642 (IGR: 20-1)
78422 Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
Shibata H
Ophthalmology 2018; 125: 1886-1897 (IGR: 20-1)
78439 In vivo optic nerve head mechanical response to intraocular and cerebrospinal fluid pressure: imaging protocol and quantification method
Bruno L
Scientific reports 2018; 8: 12639 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Miyata K
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Sacconi R
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Uji A
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Pereira I
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
78974 Histological investigation of human glaucomatous eyes: Extracellular fibrotic changes and galectin 3 expression in the trabecular meshwork and optic nerve head
Maansson S
Clinical anatomy (New York, N.Y.) 2018; 31: 1031-1049 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Cesareo M
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Hassanpour K
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Martini E
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Łukasik U
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Narendran R
Eye 2019; 33: 580-586 (IGR: 20-1)
78844 An efficient optic cup segmentation method decreasing the influences of blood vessels
Duan Y
Biomedical engineering online 2018; 17: 130 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Maneh N
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78429 Peripapillary sclera architecture revisited: A tangential fiber model and its biomechanical implications
Yang B
Acta biomaterialia 2018; 79: 113-122 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Macnab HK
Eye 2019; 33: 580-586 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Suda K
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Figus M
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Girard MJA
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)
79256 A Fully Automated 3D In-vivo Delineation and Shape Parameterization of the Human Lamina Cribrosa in Optical Coherence Tomography
Iskander DR
IEEE Transactions on Bio-Medical Engineering 2019; 66: 1422-1428 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Chen R
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Cicinelli MV
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
78422 Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
Ishikawa M
Ophthalmology 2018; 125: 1886-1897 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Jefferys J
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Schwarzhans F
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
78844 An efficient optic cup segmentation method decreasing the influences of blood vessels
Liu B
Biomedical engineering online 2018; 17: 130 (IGR: 20-1)
79268 Disc haemorrhages in Polish Caucasian patients with normal tension glaucoma
Żarnowski T
Acta Ophthalmologica 2019; 97: 68-73 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Werkmeister RM
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Nononsaa KB
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78974 Histological investigation of human glaucomatous eyes: Extracellular fibrotic changes and galectin 3 expression in the trabecular meshwork and optic nerve head
Clark AF
Clinical anatomy (New York, N.Y.) 2018; 31: 1031-1049 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Doozandeh A
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Giannini C
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
78898 Three dimensional neuro-retinal rim thickness and retinal nerve fiber layer thickness using high-definition optical coherence tomography for open-angle glaucoma
Kim YK
Japanese Journal of Ophthalmology 2018; 62: 634-642 (IGR: 20-1)
78439 In vivo optic nerve head mechanical response to intraocular and cerebrospinal fluid pressure: imaging protocol and quantification method
Girkin CA
Scientific reports 2018; 8: 12639 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Ueda T
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Suh MH
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
79018 The Translaminar Pressure Gradient: Papilledema After Trabeculectomy Treated With Optic Nerve Sheath Fenestration
Jamil AL
Journal of Glaucoma 2018; 27: e154-e157 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Kurumatani N
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Amédomé KM
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78422 Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
Iwata T
Ophthalmology 2018; 125: 1886-1897 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Hommer A
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Yaseri M
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
78429 Peripapillary sclera architecture revisited: A tangential fiber model and its biomechanical implications
Sigal IA
Acta biomaterialia 2018; 79: 113-122 (IGR: 20-1)
78898 Three dimensional neuro-retinal rim thickness and retinal nerve fiber layer thickness using high-definition optical coherence tomography for open-angle glaucoma
Park KH
Japanese Journal of Ophthalmology 2018; 62: 634-642 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Saunders LJ
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Hillman JG
Eye 2019; 33: 580-586 (IGR: 20-1)
79018 The Translaminar Pressure Gradient: Papilledema After Trabeculectomy Treated With Optic Nerve Sheath Fenestration
Sires BS
Journal of Glaucoma 2018; 27: e154-e157 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Pocobelli G
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
78871 Microvascular Changes in Peripapillary and Optic Nerve Head Tissues After Trabeculectomy in Primary Open-Angle Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2018; 59: 4614-4621 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Nakanishi H
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Frezzotti P
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Nguyen TD
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Fard MA
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Triolo G
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Wasserman L
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Mohammadi M
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Yarmohammadi A
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Garaci F
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Hommer A
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Bettin P
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Saeki K
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Dzidzinyo K
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Schaub J
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Agnifili L
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Alexander P
Eye 2019; 33: 580-586 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Kameda T
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Schaub J
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Vass C
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
78857 Factors associated with lamina cribrosa displacement after trabeculectomy measured by optical coherence tomography in advanced primary open-angle glaucoma
Loewen NA
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 2391-2398 (IGR: 20-1)
78422 Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT
Yoshitomi T
Ophthalmology 2018; 125: 1886-1897 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Nouri-Mahdavi K
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Reitner A
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
79158 Association between glaucomatous optic disc and depressive symptoms independent of light exposure profiles: a cross-sectional study of the HEIJO-KYO cohort
Ogata N
British Journal of Ophthalmology 2019; 103: 1119-1122 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Resch H
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Ikeda HO
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Manni G
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Mancino R
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Amoaku WM
Eye 2019; 33: 580-586 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Santos MAK
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Manalastas PIC
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Pease M
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
79113 Lamina Cribrosa and Choroid Features and Their Relationship to Stage of Pseudoexfoliation Glaucoma
Weinreb RN
Investigative Ophthalmology and Visual Science 2018; 59: 5355-5365 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Quaranta L
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
79112 Spectral Domain Optical Coherence Tomography Assessment of Macular and Optic Nerve Alterations in Patients with Glaucoma and Correlation with Visual Field Index
Nucci C
Journal of Ophthalmology 2018; 2018: 6581846 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Kuaovi Koko RA
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
79287 Visualization of the Lamina Cribrosa Microvasculature in Normal and Glaucomatous Eyes: A Swept-source Optical Coherence Tomography Angiography Study
Tsujikawa A
Journal of Glaucoma 2018; 27: 1032-1035 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Penteado RC
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
78879 Optic nerve head morphology in primary open-angle glaucoma and nonarteritic anterior ischaemic optic neuropathy measured with spectral domain optical coherence tomography
Vass C
Acta Ophthalmologica 2018; 96: e1018-e1024 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Bandello F
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Schmidl D
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79122 Prevalence of optic disc haemorrhages in an elderly UK Caucasian population and possible association with reticular pseudodrusen-the Bridlington Eye Assessment Project (BEAP): a cross-sectional study (2002-2006)
Vernon SA
Eye 2019; 33: 580-586 (IGR: 20-1)
78784 Age-Related Changes in Quantitative Strain of Mouse Astrocytic Lamina Cribrosa and Peripapillary Sclera Using Confocal Microscopy in an Explant Model
Quigley H
Investigative Ophthalmology and Visual Science 2018; 59: 5157-5166 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Popa-Cherecheanu A
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79201 Comparison of methods to quantify macular and peripapillary vessel density in optical coherence tomography angiography
Querques G
PLoS ONE 2018; 13: e0205773 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Miglior S
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78513 Optic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiography
Weinreb RN
PLoS ONE 2018; 13: e0201729 (IGR: 20-1)
79179 Optic disc features on OCT in glaucomatous and normal black Africans
Banla M; Balo KP
Journal Français d'Ophtalmologie 2018; 41: 847-851 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Chua J
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Posarelli C; Fazio S
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78907 Optic nerve head blood flow regulation during changes in arterial blood pressure in patients with primary open-angle glaucoma
Garhöfer G; Schmetterer L
Acta Ophthalmologica 2019; 97: e36-e41 (IGR: 20-1)
79196 Macular versus nerve fibre layer versus optic nerve head imaging for diagnosing glaucoma at different stages of the disease: Multicenter Italian Glaucoma Imaging Study
Oddone F
Acta Ophthalmologica 2019; 97: e207-e215 (IGR: 20-1)
78192 Regional Deformation of the Optic Nerve Head and Peripapillary Sclera During IOP Elevation
Pavlatos E
Investigative Ophthalmology and Visual Science 2018; 59: 3779-3788 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Ha A
Ophthalmology 2018; 0: (IGR: 19-4)
78075 Undilated versus dilated monoscopic smartphone-based fundus photography for optic nerve head evaluation
Wintergerst MWM
Scientific reports 2018; 8: 10228 (IGR: 19-4)
77686 Valsalva Maneuver and Peripapillary OCT Angiography Vessel Density
Holló G
Journal of Glaucoma 2018; 27: e133-e136 (IGR: 19-4)
77918 Association between the Frequency of Optic Disk Hemorrhage and Progression of NTG Related with the Initial Location of RNFL Defect
Cho HK
Ophthalmic Research 2018; 60: 152-160 (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Kadziauskienė A
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
78056 Joint Optic Disc and Cup Segmentation Based on Multi-Label Deep Network and Polar Transformation
Fu H
IEEE Transactions on Medical Imaging 2018; 37: 1597-1605 (IGR: 19-4)
78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Han JC
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)
78164 Intracranial pressure and glaucoma: Is there a new therapeutic perspective on the horizon?
Wostyn P
Medical Hypotheses 2018; 118: 98-102 (IGR: 19-4)
77653 Associations between structure and function are different in healthy and glaucomatous eyes
Chu FI
PLoS ONE 2018; 13: e0196814 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Lavinsky F
Ophthalmology 2018; 0: (IGR: 19-4)
77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Moyal L
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Devalla SK
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Schwaner SA
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Adiarti R
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)
77955 Four Questions for Every Clinician Diagnosing and Monitoring Glaucoma
Hood DC
Journal of Glaucoma 2018; 27: 657-664 (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Gietzelt C
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Moghimi S
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Torres LA
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Koh V
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Tanito M
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Choi JH
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)
77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Ekantini R
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Vianna JR
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78164 Intracranial pressure and glaucoma: Is there a new therapeutic perspective on the horizon?
Van Dam D
Medical Hypotheses 2018; 118: 98-102 (IGR: 19-4)
78056 Joint Optic Disc and Cup Segmentation Based on Multi-Label Deep Network and Polar Transformation
Cheng J
IEEE Transactions on Medical Imaging 2018; 37: 1597-1605 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Kim TJ
Ophthalmology 2018; 0: (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Renukanand PK
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Blumen-Ohana E
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Kight AM
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Zangwill LM
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78075 Undilated versus dilated monoscopic smartphone-based fundus photography for optic nerve head evaluation
Brinkmann CK
Scientific reports 2018; 8: 10228 (IGR: 19-4)
77955 Four Questions for Every Clinician Diagnosing and Monitoring Glaucoma
De Moraes CG
Journal of Glaucoma 2018; 27: 657-664 (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Lemke J
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Nitta K
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Jašinskienė E
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Tham YC
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Wu M
Ophthalmology 2018; 0: (IGR: 19-4)
78192 Regional Deformation of the Optic Nerve Head and Peripapillary Sclera During IOP Elevation
Ma Y
Investigative Ophthalmology and Visual Science 2018; 59: 3779-3788 (IGR: 19-4)
77653 Associations between structure and function are different in healthy and glaucomatous eyes
Marín-Franch I
PLoS ONE 2018; 13: e0196814 (IGR: 19-4)
77918 Association between the Frequency of Optic Disk Hemorrhage and Progression of NTG Related with the Initial Location of RNFL Defect
Lee MG
Ophthalmic Research 2018; 60: 152-160 (IGR: 19-4)
78075 Undilated versus dilated monoscopic smartphone-based fundus photography for optic nerve head evaluation
Holz FG
Scientific reports 2018; 8: 10228 (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Schaub F
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Sreedhar BK
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Perry RN
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Penteado RC
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Cheung CY
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Katai M
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Agni AN
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)
78056 Joint Optic Disc and Cup Segmentation Based on Multi-Label Deep Network and Polar Transformation
Xu Y
IEEE Transactions on Medical Imaging 2018; 37: 1597-1605 (IGR: 19-4)
77918 Association between the Frequency of Optic Disk Hemorrhage and Progression of NTG Related with the Initial Location of RNFL Defect
Kee C
Ophthalmic Research 2018; 60: 152-160 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Jarrar F
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Park DY
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)
77653 Associations between structure and function are different in healthy and glaucomatous eyes
Ramezani K
PLoS ONE 2018; 13: e0196814 (IGR: 19-4)
78164 Intracranial pressure and glaucoma: Is there a new therapeutic perspective on the horizon?
De Deyn PP
Medical Hypotheses 2018; 118: 98-102 (IGR: 19-4)
78192 Regional Deformation of the Optic Nerve Head and Peripapillary Sclera During IOP Elevation
Clayson K
Investigative Ophthalmology and Visual Science 2018; 59: 3779-3788 (IGR: 19-4)
77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Blumen M
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Girard MJA
Ophthalmology 2018; 0: (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Ašoklis R
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Schuman JS
Ophthalmology 2018; 0: (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Hermann MM
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Lucy KA
Ophthalmology 2018; 0: (IGR: 19-4)
77653 Associations between structure and function are different in healthy and glaucomatous eyes
Racette L
PLoS ONE 2018; 13: e0196814 (IGR: 19-4)
78192 Regional Deformation of the Optic Nerve Head and Peripapillary Sclera During IOP Elevation
Pan X
Investigative Ophthalmology and Visual Science 2018; 59: 3779-3788 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Mari JM
Ophthalmology 2018; 0: (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Sharpe GP
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Lesinskas E
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Mani B
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Blatrix C
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)
78075 Undilated versus dilated monoscopic smartphone-based fundus photography for optic nerve head evaluation
Finger RP
Scientific reports 2018; 8: 10228 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Subramanian G
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Kitaoka Y
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78056 Joint Optic Disc and Cup Segmentation Based on Multi-Label Deep Network and Polar Transformation
Wong DWK
IEEE Transactions on Medical Imaging 2018; 37: 1597-1605 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hasenstab K
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Pazos M
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Wong TY
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)
78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Wong TY
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Chabolle F
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)
78242 Deep Optic Nerve Head Morphology Is Associated With Pattern of Glaucomatous Visual Field Defect in Open-Angle Glaucoma
Kee C
Investigative Ophthalmology and Visual Science 2018; 59: 3842-3851 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Ghahari E
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Liu M
Ophthalmology 2018; 0: (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Dietlein TS
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Araie M
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78192 Regional Deformation of the Optic Nerve Head and Peripapillary Sclera During IOP Elevation
Liu J
Investigative Ophthalmology and Visual Science 2018; 59: 3779-3788 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Zhang L
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Kim YK
Ophthalmology 2018; 0: (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Yang H
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
78056 Joint Optic Disc and Cup Segmentation Based on Multi-Label Deep Network and Polar Transformation
Liu J
IEEE Transactions on Medical Imaging 2018; 37: 1597-1605 (IGR: 19-4)
77885 Retinal Arteriolar Narrowing in Young Adults With Glaucomatous Optic Disc
Sasongko MB
Journal of Glaucoma 2018; 27: 699-702 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Yokoyama Y
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Rekašius T
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hou H
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Perera S
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Song Y
Ophthalmology 2018; 0: (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hou H
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Aung T
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Johnson EC
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Omodaka K
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78056 Joint Optic Disc and Cup Segmentation Based on Multi-Label Deep Network and Polar Transformation
Cao X
IEEE Transactions on Medical Imaging 2018; 37: 1597-1605 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Hou H
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Cursiefen C
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
77556 Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study
Nordmann JP
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 1235-1243 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Caprioli J
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Park KH
Ophthalmology 2018; 0: (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Chua J
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Naito T
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Enders P
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Demirel S
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78012 Baseline Lamina Cribrosa Curvature and Subsequent Visual Field Progression Rate in Primary Open-Angle Glaucoma
Jeoung JW
Ophthalmology 2018; 0: (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Mari JM
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Cheng CY
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Fallon J
Ophthalmology 2018; 0: (IGR: 19-4)
78008 Diagnostic accuracy of macular ganglion cell-inner plexiform layer thickness for glaucoma detection in a population-based study: Comparison with optic nerve head imaging parameters
Cheng CY
PLoS ONE 2018; 13: e0199134 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Morrison JC
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Christopher M
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Chin KS
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Burgoyne CF
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Yamashita T
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Girkin CA
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78205 Structural Reversal of Disc Cupping After Trabeculectomy Alters Bruch Membrane Opening-Based Parameters to Assess Neuroretinal Rim
Heindl LM
American Journal of Ophthalmology 2018; 194: 143-152 (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Mari JM
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Yarmohammadi A
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
de Los Angeles Ramos Cadena M
Ophthalmology 2018; 0: (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Girard MJA
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
78112 A Methodology for Individual-Specific Modeling of Rat Optic Nerve Head Biomechanics in Glaucoma
Ross Ethier C
Journal of Biomechanical Engineering 2018; 140: (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Manalastas PIC
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Ishikawa H
Ophthalmology 2018; 0: (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Tun TA
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Hangai M
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Mizoue S
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Iwase A
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
77986 Can Macula and Optic Nerve Head Parameters Detect Glaucoma Progression in Eyes with Advanced Circumpapillary Retinal Nerve Fiber Layer Damage?
Wollstein G
Ophthalmology 2018; 0: (IGR: 19-4)
78039 Long-Term Shape, Curvature, and Depth Changes of the Lamina Cribrosa after Trabeculectomy
Schmetterer L
Ophthalmology 2018; 125: 1729-1740 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Strouthidis NG
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Shoji T
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Iwase A
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Liebmann JM
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78133 Validation of formula-predicted glaucomatous optic disc appearances: the Glaucoma Stereo Analysis Study
Nakazawa T
Acta Ophthalmologica 2018; 0: (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Bowd C
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Aung T
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
77939 Macular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in Glaucoma
Weinreb RN
Ophthalmology 2018; 125: 1720-1728 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Thiéry AH
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Mardin CY; Nakazawa T
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
78080 DRUNET: a dilated-residual U-Net deep learning network to segment optic nerve head tissues in optical coherence tomography images
Girard MJA
Biomedical optics express 2018; 9: 3244-3265 (IGR: 19-4)
78262 Protruded retinal layers within the optic nerve head neuroretinal rim
Quigley HA; Scheuerle AF; Sugiyama K; Tanihara H; Tomita G; Yanagi Y; Burgoyne CF; Chauhan BC
Acta Ophthalmologica 2018; 96: e493-e502 (IGR: 19-4)
77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Rebolleda G
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)
77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Park KH
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Lee JY
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Li Z
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
76335 Precision of Optic Nerve Head and Retinal Nerve Fiber Layer Parameter Measurements by Spectral-domain Optical Coherence Tomography
Schrems-Hoesl LM
Journal of Glaucoma 2018; 27: 407-414 (IGR: 19-3)
76741 Location of Disc Hemorrhage and Direction of Progression in Glaucomatous Retinal Nerve Fiber Layer Defects
Lee EJ
Journal of Glaucoma 2018; 27: 504-510 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Manalastas PIC
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Wang B
Scientific reports 2018; 8: 7281 (IGR: 19-3)
76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Özen Ö
Medical ultrasonography 2018; 1: 76-79 (IGR: 19-3)
76463 Evaluating displacement of lamina cribrosa following glaucoma surgery
Krzyżanowska-Berkowska P
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 791-800 (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Shim MS
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Mursch-Edlmayr AS
Scientific reports 2018; 8: 5343 (IGR: 19-3)
76586 Choroidal Microvasculature Dropout Is Associated with Progressive Retinal Nerve Fiber Layer Thinning in Glaucoma with Disc Hemorrhage
Park HL
Ophthalmology 2018; 125: 1003-1013 (IGR: 19-3)
76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
Rebolleda G
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
Chansangpetch S
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Mataki N
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Di Staso S
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)
77210 Influence of Disc Size on the Diagnostic Accuracy of Cirrus Spectral-Domain Optical Coherence Tomography in Glaucoma
Sato S
Journal of Ophthalmology 2018; 2018: 5692404 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Luo H
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Hong SW
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
76799 Evaluation of macular ganglion cell analysis compared to retinal nerve fiber layer thickness for preperimetric glaucoma diagnosis
Kaushik S
Indian Journal of Ophthalmology 2018; 66: 511-516 (IGR: 19-3)
77313 Evaluation of Prelaminar Region and Lamina Cribrosa with Enhanced Depth Imaging Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Ersöz MG
Turkish journal of ophthalmology 2018; 48: 109-114 (IGR: 19-3)
76917 Intracranial and Intraocular Pressure at the Lamina Cribrosa: Gradient Effects
Jóhannesson G
Current neurology and neuroscience reports 2018; 18: 25 (IGR: 19-3)
77233 Variability of vertical cup to disc ratio measurement and the effects of glaucoma 5-year risk estimation in untreated ocular hypertensive eyes
Chan PPM
British Journal of Ophthalmology 2019; 103: 361-368 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Enders P
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Wu Z
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
76439 Expression and activation of mitogen-activated protein kinases in the optic nerve head in a rat model of ocular hypertension
Mammone T
Molecular and Cellular Neurosciences 2018; 88: 270-291 (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Kim KY
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
76586 Choroidal Microvasculature Dropout Is Associated with Progressive Retinal Nerve Fiber Layer Thinning in Glaucoma with Disc Hemorrhage
Kim JW
Ophthalmology 2018; 125: 1003-1013 (IGR: 19-3)
77210 Influence of Disc Size on the Diagnostic Accuracy of Cirrus Spectral-Domain Optical Coherence Tomography in Glaucoma
Ukegawa K
Journal of Ophthalmology 2018; 2018: 5692404 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Koenigsman H
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
76463 Evaluating displacement of lamina cribrosa following glaucoma surgery
Melińska A
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 791-800 (IGR: 19-3)
77313 Evaluation of Prelaminar Region and Lamina Cribrosa with Enhanced Depth Imaging Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Kunak Mart D
Turkish journal of ophthalmology 2018; 48: 109-114 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Yang H
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Lucy KA
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Weng DSD
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
76799 Evaluation of macular ganglion cell analysis compared to retinal nerve fiber layer thickness for preperimetric glaucoma diagnosis
Kataria P
Indian Journal of Ophthalmology 2018; 66: 511-516 (IGR: 19-3)
76917 Intracranial and Intraocular Pressure at the Lamina Cribrosa: Gradient Effects
Eklund A
Current neurology and neuroscience reports 2018; 18: 25 (IGR: 19-3)
76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Agnifili L
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
Huang G
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Tomidokoro A
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Pérez-Sarriegui A
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Guo X
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
76335 Precision of Optic Nerve Head and Retinal Nerve Fiber Layer Parameter Measurements by Spectral-domain Optical Coherence Tomography
Schrems WA
Journal of Glaucoma 2018; 27: 407-414 (IGR: 19-3)
77233 Variability of vertical cup to disc ratio measurement and the effects of glaucoma 5-year risk estimation in untreated ocular hypertensive eyes
Chiu VSM
British Journal of Ophthalmology 2019; 103: 361-368 (IGR: 19-3)
76439 Expression and activation of mitogen-activated protein kinases in the optic nerve head in a rat model of ocular hypertension
Chidlow G
Molecular and Cellular Neurosciences 2018; 88: 270-291 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Weng DSD
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
de Juan V
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Adler W
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Luft N
Scientific reports 2018; 8: 5343 (IGR: 19-3)
77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Lee JW
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Weng DSD
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Belghith A
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Kim JM
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Özer MA
Medical ultrasonography 2018; 1: 76-79 (IGR: 19-3)
76741 Location of Disc Hemorrhage and Direction of Progression in Glaucomatous Retinal Nerve Fiber Layer Defects
Han JC
Journal of Glaucoma 2018; 27: 504-510 (IGR: 19-3)
76917 Intracranial and Intraocular Pressure at the Lamina Cribrosa: Gradient Effects
Lindén C
Current neurology and neuroscience reports 2018; 18: 25 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Shim SH
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Tosun A
Medical ultrasonography 2018; 1: 76-79 (IGR: 19-3)
77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Díez-Álvarez L
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)
76799 Evaluation of macular ganglion cell analysis compared to retinal nerve fiber layer thickness for preperimetric glaucoma diagnosis
Jain V
Indian Journal of Ophthalmology 2018; 66: 511-516 (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Bu JH
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Schuman JS
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77233 Variability of vertical cup to disc ratio measurement and the effects of glaucoma 5-year risk estimation in untreated ocular hypertensive eyes
Wong MOI
British Journal of Ophthalmology 2019; 103: 361-368 (IGR: 19-3)
76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
Muñoz-Negrete FJ
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Kiessling D
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
77210 Influence of Disc Size on the Diagnostic Accuracy of Cirrus Spectral-Domain Optical Coherence Tomography in Glaucoma
Nitta E
Journal of Ophthalmology 2018; 2018: 5692404 (IGR: 19-3)
76741 Location of Disc Hemorrhage and Direction of Progression in Glaucomatous Retinal Nerve Fiber Layer Defects
Kee C
Journal of Glaucoma 2018; 27: 504-510 (IGR: 19-3)
77313 Evaluation of Prelaminar Region and Lamina Cribrosa with Enhanced Depth Imaging Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Hazar L
Turkish journal of ophthalmology 2018; 48: 109-114 (IGR: 19-3)
76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Podkowinski D
Scientific reports 2018; 8: 5343 (IGR: 19-3)
77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Kim JM
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Thenappan A
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
76463 Evaluating displacement of lamina cribrosa following glaucoma surgery
Helemejko I
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 791-800 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Weinreb RN
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
76586 Choroidal Microvasculature Dropout Is Associated with Progressive Retinal Nerve Fiber Layer Thinning in Glaucoma with Disc Hemorrhage
Park CK
Ophthalmology 2018; 125: 1003-1013 (IGR: 19-3)
76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Di Staso F
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Xiao O
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
Coh P
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Araie M
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76439 Expression and activation of mitogen-activated protein kinases in the optic nerve head in a rat model of ocular hypertension
Casson RJ
Molecular and Cellular Neurosciences 2018; 88: 270-291 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Gardiner SK
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
76335 Precision of Optic Nerve Head and Retinal Nerve Fiber Layer Parameter Measurements by Spectral-domain Optical Coherence Tomography
Laemmer R
Journal of Glaucoma 2018; 27: 407-414 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Ren R
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Weber V
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Climastone H
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)
76775 Beta-peripapillary atrophy of the optic disc and its determinants in Japanese eyes: a population-based study
Iwase A
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Rajshekhar R
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Ring M
Scientific reports 2018; 8: 5343 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Hardin C
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
Oldenburg C
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
76439 Expression and activation of mitogen-activated protein kinases in the optic nerve head in a rat model of ocular hypertension
Wood JPM
Molecular and Cellular Neurosciences 2018; 88: 270-291 (IGR: 19-3)
77313 Evaluation of Prelaminar Region and Lamina Cribrosa with Enhanced Depth Imaging Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Ayıntap E
Turkish journal of ophthalmology 2018; 48: 109-114 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Lee PY
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Yang H
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Rajshekhar R
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Jonas JB
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Nam HS
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
76425 Evaluation of the optic nerve and scleral-choroidal-retinal layer with ultrasound elastography in glaucoma and physiological optic nerve head cupping
Özen S
Medical ultrasonography 2018; 1: 76-79 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Sigal IA
Scientific reports 2018; 8: 7281 (IGR: 19-3)
76335 Precision of Optic Nerve Head and Retinal Nerve Fiber Layer Parameter Measurements by Spectral-domain Optical Coherence Tomography
Kruse FE
Journal of Glaucoma 2018; 27: 407-414 (IGR: 19-3)
76463 Evaluating displacement of lamina cribrosa following glaucoma surgery
Robert Iskander D
Graefe's Archive for Clinical and Experimental Ophthalmology 2018; 256: 791-800 (IGR: 19-3)
77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
de Juan V
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)
76799 Evaluation of macular ganglion cell analysis compared to retinal nerve fiber layer thickness for preperimetric glaucoma diagnosis
Joshi G
Indian Journal of Ophthalmology 2018; 66: 511-516 (IGR: 19-3)
77210 Influence of Disc Size on the Diagnostic Accuracy of Cirrus Spectral-Domain Optical Coherence Tomography in Glaucoma
Hirooka K
Journal of Ophthalmology 2018; 2018: 5692404 (IGR: 19-3)
77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Nouri-Mahdavi K
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)
76757 Simultaneous evaluation of the lamina cribosa position and choroidal thickness changes following deep sclerectomy
Díez-Álvarez L
European Journal of Ophthalmology 2018; 0: 1120672117753702 (IGR: 19-3)
77313 Evaluation of Prelaminar Region and Lamina Cribrosa with Enhanced Depth Imaging Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Botan Güneş İ
Turkish journal of ophthalmology 2018; 48: 109-114 (IGR: 19-3)
76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Schmetterer L
Scientific reports 2018; 8: 5343 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
Amoozgar B
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Gardiner SK
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Suh MH
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Ciancaglini M
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)
76335 Precision of Optic Nerve Head and Retinal Nerve Fiber Layer Parameter Measurements by Spectral-domain Optical Coherence Tomography
Mardin CY
Journal of Glaucoma 2018; 27: 407-414 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Ritch R
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Yoo C
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
77252 Bruch's membrane opening-minimum rim width and visual field loss in glaucoma: a broken stick analysis
Caprioli J
International Journal of Ophthalmology 2018; 11: 828-834 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Sharpe GP
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Schaub F
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76799 Evaluation of macular ganglion cell analysis compared to retinal nerve fiber layer thickness for preperimetric glaucoma diagnosis
Raj S
Indian Journal of Ophthalmology 2018; 66: 511-516 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Liu R
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
77283 Lamina cribrosa position and Bruch's membrane opening differences between anterior ischemic optic neuropathy and open-angle glaucoma
Muñoz-Negrete FJ
European Journal of Ophthalmology 2018; 0: 1120672118782101 (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Jeong SW
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Bilonick RA
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Reynaud J
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Hermann MM
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Park TL
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
76799 Evaluation of macular ganglion cell analysis compared to retinal nerve fiber layer thickness for preperimetric glaucoma diagnosis
Pandav SS
Indian Journal of Ophthalmology 2018; 66: 511-516 (IGR: 19-3)
77313 Evaluation of Prelaminar Region and Lamina Cribrosa with Enhanced Depth Imaging Optical Coherence Tomography in Pseudoexfoliation Glaucoma
Konya HÖ
Turkish journal of ophthalmology 2018; 48: 109-114 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Caprioli J
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Lu C
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77269 Comparison of Widefield and Circumpapillary Circle Scans for Detecting Glaucomatous Neuroretinal Thinning on Optical Coherence Tomography
Hood DC
Translational vision science & technology 2018; 7: 11 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Yarmohammadi A
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Won YS
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
76813 Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study
Bolz M
Scientific reports 2018; 8: 5343 (IGR: 19-3)
76727 Diagnostic capability of optic nerve head rim width and retinal nerve fiber thickness in open-angle glaucoma
Scuderi GL
European Journal of Ophthalmology 2018; 28: 459-464 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Wang D
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
He M
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
Sankaridurg P
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Demirel S
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Medeiros FA
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Kinast RM
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Dietlein T
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Liu J
Scientific reports 2018; 8: 7281 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Hyun YY
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
76419 Differences in Optic Nerve Head, Retinal Nerve Fiber Layer, and Ganglion Cell Complex Parameters Between Caucasian and Chinese Subjects
Lin SC
Journal of Glaucoma 2018; 27: 350-356 (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Ellisman MH; Weinreb RN
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
76311 Association Between Optic Disc Hemorrhage and Renal Function in South Korea
Park KH
Journal of Glaucoma 2018; 27: 251-256 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Mansberger SL
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
76753 Optic Disc Features in Highly Myopic Eyes: The ZOC-BHVI High Myopia Cohort Study
He M
Optometry and Vision Science 2018; 95: 318-322 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Girkin CA
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Grulkowski I
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Girkin CA
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Cursiefen C
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Nadler Z
Scientific reports 2018; 8: 7281 (IGR: 19-3)
76779 Evaluation of two-dimensional Bruch's membrane opening minimum rim area for glaucoma diagnostics in a large patient cohort
Heindl LM
Acta Ophthalmologica 2018; 0: (IGR: 19-3)
76536 Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes
Ju WK
Cell Death and Disease 2018; 9: 285 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Liebmann JM
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Liebmann JM
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Fortune B
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
77080 Automated Beta Zone Parapapillary Area Measurement to Differentiate Between Healthy and Glaucoma Eyes
Zangwill LM
American Journal of Ophthalmology 2018; 191: 140-148 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Mardin CY
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Demirel S
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Ishikawa H
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Quigley HA
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Kagemann L
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77079 Glaucoma Specialist Optic Disc Margin, Rim Margin and Rim Width Discordance in Glaucoma and Glaucoma Suspect Eyes
Burgoyne CF
American Journal of Ophthalmology 2018; 192: 65-76 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Fujimoto JG
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Scheuerle AF; Fortune B
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
77057 Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa
Wollstein G
Scientific reports 2018; 8: 7281 (IGR: 19-3)
77201 Factors Influencing Central Lamina Cribrosa Depth: A Multicenter Study
Chauhan BC; Burgoyne CF
Investigative Ophthalmology and Visual Science 2018; 59: 2357-2370 (IGR: 19-3)
75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Kiyota N
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Yang H
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75275 Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy
Lee JY
Current Eye Research 2018; 43: 397-405 (IGR: 19-2)
75477 Optic disc hemorrhages in glaucoma and common clinical features
Ozturker ZK
Canadian Journal of Ophthalmology 2017; 52: 583-591 (IGR: 19-2)
75380 Optic disc segmentation for glaucoma screening system using fundus images
Almazroa A
Clinical Ophthalmology 2017; 11: 2017-2029 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Skaat A
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Han JC
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75611 Evolution of optic nerve photography for glaucoma screening: a review
Myers JS
Clinical and Experimental Ophthalmology 2018; 46: 169-176 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Chou JC
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75525 Evaluation of Retinal Nerve Fiber Layer Thinning in Myopic Glaucoma: Impact of Optic Disc Morphology
Na KI
Investigative Ophthalmology and Visual Science 2017; 58: 6265-6272 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Kitaoka Y
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75335 The Evolving Role of the Relationship between Optic Nerve Structure and Function in Glaucoma
Yohannan J
Ophthalmology 2017; 124: S66-S70 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Wang B
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75507 Relationship of corneal hysteresis and optic nerve parameters in healthy myopic subjects
Qiu K
Scientific reports 2017; 7: 17538 (IGR: 19-2)
75129 Measurement of Optic Disc Cup Surface Depth Using Cirrus HD-OCT
Kim YK
Journal of Glaucoma 2017; 26: 1072-1080 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Wang M
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75470 Imaging of the lamina cribrosa and its role in glaucoma: a review
Tan NY
Clinical and Experimental Ophthalmology 2018; 46: 177-188 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Haleem MS
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75440 Application of the ISNT rules on retinal nerve fibre layer thickness and neuroretinal rim area in healthy myopic eyes
Qiu K
Acta Ophthalmologica 2018; 96: 161-167 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Omodaka K
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75544 Impact of optic disc hemorrhage on subsequent glaucoma progression in mild-to-moderate myopia
Ha A
PLoS ONE 2017; 12: e0189706 (IGR: 19-2)
75608 Automatic CDR Estimation for Early Glaucoma Diagnosis
Fernandez-Granero MA
Journal of healthcare engineering 2017; 2017: 5953621 (IGR: 19-2)
75569 Evaluation of Ganglion Cell-Inner Plexiform Layer Thinning in Eyes With Optic Disc Hemorrhage: A Trend-Based Progression Analysis
Lee WJ
Investigative Ophthalmology and Visual Science 2017; 58: 6449-6456 (IGR: 19-2)
75525 Evaluation of Retinal Nerve Fiber Layer Thinning in Myopic Glaucoma: Impact of Optic Disc Morphology
Lee WJ
Investigative Ophthalmology and Visual Science 2017; 58: 6265-6272 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
An G
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75129 Measurement of Optic Disc Cup Surface Depth Using Cirrus HD-OCT
Ha A
Journal of Glaucoma 2017; 26: 1072-1080 (IGR: 19-2)
75544 Impact of optic disc hemorrhage on subsequent glaucoma progression in mild-to-moderate myopia
Kim YK
PLoS ONE 2017; 12: e0189706 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Reynaud J
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75569 Evaluation of Ganglion Cell-Inner Plexiform Layer Thinning in Eyes With Optic Disc Hemorrhage: A Trend-Based Progression Analysis
Kim YK
Investigative Ophthalmology and Visual Science 2017; 58: 6449-6456 (IGR: 19-2)
75440 Application of the ISNT rules on retinal nerve fibre layer thickness and neuroretinal rim area in healthy myopic eyes
Wang G
Acta Ophthalmologica 2018; 96: 161-167 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Muylaert S
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Han L
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Cousins CC
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Ko H
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75507 Relationship of corneal hysteresis and optic nerve parameters in healthy myopic subjects
Lu X
Scientific reports 2017; 7: 17538 (IGR: 19-2)
75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Kunikata H
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Tanito M
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75275 Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy
Kwon HJ
Current Eye Research 2018; 43: 397-405 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Elze T
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75335 The Evolving Role of the Relationship between Optic Nerve Structure and Function in Glaucoma
Boland MV
Ophthalmology 2017; 124: S66-S70 (IGR: 19-2)
75608 Automatic CDR Estimation for Early Glaucoma Diagnosis
Sarmiento A
Journal of healthcare engineering 2017; 2017: 5953621 (IGR: 19-2)
75611 Evolution of optic nerve photography for glaucoma screening: a review
Fudemberg SJ
Clinical and Experimental Ophthalmology 2018; 46: 169-176 (IGR: 19-2)
75380 Optic disc segmentation for glaucoma screening system using fundus images
Sun W
Clinical Ophthalmology 2017; 11: 2017-2029 (IGR: 19-2)
75477 Optic disc hemorrhages in glaucoma and common clinical features
Munro K
Canadian Journal of Ophthalmology 2017; 52: 583-591 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Tran H
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75470 Imaging of the lamina cribrosa and its role in glaucoma: a review
Koh V
Clinical and Experimental Ophthalmology 2018; 46: 177-188 (IGR: 19-2)
75440 Application of the ISNT rules on retinal nerve fibre layer thickness and neuroretinal rim area in healthy myopic eyes
Lu X
Acta Ophthalmologica 2018; 96: 161-167 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Smith MA
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Takahashi S
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)
75470 Imaging of the lamina cribrosa and its role in glaucoma: a review
Girard MJ
Clinical and Experimental Ophthalmology 2018; 46: 177-188 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Lockwood H
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Kim SH
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75477 Optic disc hemorrhages in glaucoma and common clinical features
Gupta N
Canadian Journal of Ophthalmology 2017; 52: 583-591 (IGR: 19-2)
75608 Automatic CDR Estimation for Early Glaucoma Diagnosis
Sanchez-Morillo D
Journal of healthcare engineering 2017; 2017: 5953621 (IGR: 19-2)
75380 Optic disc segmentation for glaucoma screening system using fundus images
Alodhayb S
Clinical Ophthalmology 2017; 11: 2017-2029 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Yokoyama Y
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Tsuda S
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75275 Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy
Park SJ
Current Eye Research 2018; 43: 397-405 (IGR: 19-2)
75569 Evaluation of Ganglion Cell-Inner Plexiform Layer Thinning in Eyes With Optic Disc Hemorrhage: A Trend-Based Progression Analysis
Park KH
Investigative Ophthalmology and Visual Science 2017; 58: 6449-6456 (IGR: 19-2)
75525 Evaluation of Retinal Nerve Fiber Layer Thinning in Myopic Glaucoma: Impact of Optic Disc Morphology
Kim YK
Investigative Ophthalmology and Visual Science 2017; 58: 6265-6272 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Li D
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75507 Relationship of corneal hysteresis and optic nerve parameters in healthy myopic subjects
Zhang R
Scientific reports 2017; 7: 17538 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Miller JB
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75544 Impact of optic disc hemorrhage on subsequent glaucoma progression in mild-to-moderate myopia
Jeoung JW
PLoS ONE 2017; 12: e0189706 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Hemert Jv
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75129 Measurement of Optic Disc Cup Surface Depth Using Cirrus HD-OCT
Lee WJ
Journal of Glaucoma 2017; 26: 1072-1080 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Mogil RS
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75611 Evolution of optic nerve photography for glaucoma screening: a review
Lee D
Clinical and Experimental Ophthalmology 2018; 46: 169-176 (IGR: 19-2)
75608 Automatic CDR Estimation for Early Glaucoma Diagnosis
Jiménez S
Journal of healthcare engineering 2017; 2017: 5953621 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Nitta K
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Shiga Y
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75275 Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy
Yoo C
Current Eye Research 2018; 43: 397-405 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Li B
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Kostanyan T
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Shiga Y
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)
75544 Impact of optic disc hemorrhage on subsequent glaucoma progression in mild-to-moderate myopia
Park KH
PLoS ONE 2017; 12: e0189706 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Furlanetto RL
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Williams G
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75470 Imaging of the lamina cribrosa and its role in glaucoma: a review
Cheng CY
Clinical and Experimental Ophthalmology 2018; 46: 177-188 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Rhee T
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75569 Evaluation of Ganglion Cell-Inner Plexiform Layer Thinning in Eyes With Optic Disc Hemorrhage: A Trend-Based Progression Analysis
Jeoung JW
Investigative Ophthalmology and Visual Science 2017; 58: 6449-6456 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Song BJ
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75525 Evaluation of Retinal Nerve Fiber Layer Thinning in Myopic Glaucoma: Impact of Optic Disc Morphology
Park KH
Investigative Ophthalmology and Visual Science 2017; 58: 6265-6272 (IGR: 19-2)
75380 Optic disc segmentation for glaucoma screening system using fundus images
Raahemifar K
Clinical Ophthalmology 2017; 11: 2017-2029 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Baniasadi N
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75440 Application of the ISNT rules on retinal nerve fibre layer thickness and neuroretinal rim area in healthy myopic eyes
Zhang R
Acta Ophthalmologica 2018; 96: 161-167 (IGR: 19-2)
75507 Relationship of corneal hysteresis and optic nerve parameters in healthy myopic subjects
Wang G
Scientific reports 2017; 7: 17538 (IGR: 19-2)
75129 Measurement of Optic Disc Cup Surface Depth Using Cirrus HD-OCT
Jeoung JW
Journal of Glaucoma 2017; 26: 1072-1080 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Shen LQ
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Fleming A
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75525 Evaluation of Retinal Nerve Fiber Layer Thinning in Myopic Glaucoma: Impact of Optic Disc Morphology
Jeoung JW
Investigative Ophthalmology and Visual Science 2017; 58: 6265-6272 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Nam SW
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75507 Relationship of corneal hysteresis and optic nerve parameters in healthy myopic subjects
Zhang M
Scientific reports 2017; 7: 17538 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Takada N
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Wirkner K
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75440 Application of the ISNT rules on retinal nerve fibre layer thickness and neuroretinal rim area in healthy myopic eyes
Sun L
Acta Ophthalmologica 2018; 96: 161-167 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Netto CF
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75380 Optic disc segmentation for glaucoma screening system using fundus images
Lakshminarayanan V
Clinical Ophthalmology 2017; 11: 2017-2029 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Hardin C
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75129 Measurement of Optic Disc Cup Surface Depth Using Cirrus HD-OCT
Park KH
Journal of Glaucoma 2017; 26: 1072-1080 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Katai M
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75275 Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy
Kim YY
Current Eye Research 2018; 43: 397-405 (IGR: 19-2)
75608 Automatic CDR Estimation for Early Glaucoma Diagnosis
Alemany P
Journal of healthcare engineering 2017; 2017: 5953621 (IGR: 19-2)
75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Omodaka K
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Schmitt SE
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Omodaka K
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Kirsten T
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75356 Factors associated with deep circulation in the peripapillary chorioretinal atrophy zone in normal-tension glaucoma with myopic disc
Nakazawa T
Acta Ophthalmologica 2018; 96: e290-e297 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Pasquale LR
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75608 Automatic CDR Estimation for Early Glaucoma Diagnosis
Fondón I
Journal of healthcare engineering 2017; 2017: 5953621 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Kass MA
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Kikawa T
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Banik R
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75440 Application of the ISNT rules on retinal nerve fibre layer thickness and neuroretinal rim area in healthy myopic eyes
Zhang M
Acta Ophthalmologica 2018; 96: 161-167 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Reyes L
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75275 Signal Alteration in the Optic Nerve Head on 3D T2-weighted MRI: a Potential Neuroimaging Sign of Glaucomatous Optic Neuropathy
Kim EY
Current Eye Research 2018; 43: 397-405 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Bilonick RA
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Hwang S
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Liebmann JM
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Takahashi H
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Wiggs JL
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Jan NJ
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Gardiner SK
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Thiery J
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
76017 A Small Disc Area Is a Risk Factor for Visual Field Loss Progression in Primary Open-Angle Glaucoma: The Glaucoma Stereo Analysis Study
Nakazawa T
Journal of Ophthalmology 2018; 2018: 8941489 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Lee GI
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75480 A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis
Song BJ
Journal of Medical Systems 2017; 42: 20 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Yokota H
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75698 Fundus Densitometry Findings Suggest Optic Disc Hemorrhages in Primary Open-Angle Glaucoma Have an Arterial Origin
Pasquale LR
American Journal of Ophthalmology 2018; 187: 108-116 (IGR: 19-2)
75412 3D Histomorphometric Reconstruction and Quantification of the Optic Nerve Head Connective Tissues
Burgoyne CF
Methods in molecular biology (Clifton, N.J.) 2018; 1695: 207-267 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Loeffler M
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Ritch R
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Kagemann L
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Sung J
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75179 Relationship Between Optic Nerve Head Drusen Volume and Structural and Functional Optic Nerve Damage
Park SC
Journal of Glaucoma 2017; 26: 1095-1100 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Engel C
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Song YM
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Tyler-Kabara EC
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Akiba M
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75314 Heritability of the morphology of optic nerve head and surrounding structures: The Healthy Twin Study
Kee C
PLoS ONE 2017; 12: e0187498 (IGR: 19-2)
75602 Age, ocular magnification, and circumpapillary retinal nerve fiber layer thickness
Rauscher FG
Journal of biomedical Optics 2017; 22: 1-19 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Ishikawa H
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
75568 Classification of optic disc shape in glaucoma using machine learning based on quantified ocular parameters
Nakazawa T
PLoS ONE 2017; 12: e0190012 (IGR: 19-2)
75342 In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure
Schuman JS; Sigal IA; Wollstein G
PLoS ONE 2017; 12: e0188302 (IGR: 19-2)
74092 Optic Disc Drusen and Family History of Glaucoma - Results of a Patient-directed Survey
Gramer G
Journal of Glaucoma 2017; 0: (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Enders P
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Mwanza JC
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Atilgan CU
Helicobacter 2017; 22: (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Perucho-González L
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Kabbara SW
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Li D
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74200 Racial Differences in the Extracellular Matrix and Histone Acetylation of the Lamina Cribrosa and Peripapillary Sclera
Park HL
Investigative Ophthalmology and Visual Science 2017; 58: 4143-4154 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Witkowska KJ
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74073 Morphology of the optic disc in the Tajimi Study population
Mataki N
Japanese Journal of Ophthalmology 2017; 61: 441-447 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Rao HL
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Sastre-Ibañez M
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Wang B
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Zhang Q
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74554 Optic Disc Drusen and Family History of Glaucoma-Results of a Patient-directed Survey
Gramer G
Journal of Glaucoma 2017; 26: 940-946 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Schaefer JL
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74609 Interocular symmetry of retinal nerve fiber layer and optic nerve head parameters measured by Cirrus high-definition optical coherence tomography in a normal pediatric population
Pawar N
Indian Journal of Ophthalmology 2017; 65: 955-962 (IGR: 19-1)
74450 Pilot study of the pulsatile neuro-peripapillary retinal deformation in glaucoma and its relationship with glaucoma risk factors
Hidalgo-Aguirre M
Current Eye Research 2017; 42: 1620-1627 (IGR: 19-1)
74349 Contrast based circular approximation for accurate and robust optic disc segmentation in retinal images
Sigut J
PeerJ 2017; 5: e3763 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Kim YK
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74118 Statins reduce TGF-beta2-modulation of the extracellular matrix in cultured astrocytes of the human optic nerve head
Kim ML
Experimental Eye Research 2017; 164: 55-63 (IGR: 19-1)
74791 Relationship between anterior segment and optic nerve head parameters in healthy subjects
Cankaya AB
Arquivos Brasileiros de Oftalmologia 2017; 80: 285-289 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Sandhu S
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Han S
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Enders P
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74444 The Upright Body Position Increases Translaminar Pressure Gradient in Normotensive and Hypertensive Rats
Skrzypecki J
Current Eye Research 2017; 42: 1634-1637 (IGR: 19-1)
74398 Correlation of echographic and photographic assessment of optic nerve head cupping in children
Sayed MS
Journal of AAPOS 2017; 21: 389-392 (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Tamimi EA
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74433 Reproducibility of Bruch Membrane Opening-Minimum Rim Width Measurements With Spectral Domain Optical Coherence Tomography
Park K
Journal of Glaucoma 2017; 26: 1041-1050 (IGR: 19-1)
74305 Morphometric parameters of the optic disc in normal and glaucomatous eyes based on time-domain optical coherence tomography image analysis
Buteikienė D
Medicina (Kaunas, Lithuania) 2017; 53: 242-252 (IGR: 19-1)
74829 Occult Optic Disc Pit Maculopathy in a Glaucomatous Disc
Nagesha CK
Middle East African Journal of Ophthalmology 2017; 24: 165-166 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Khoueir Z
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74068 Optic Nerve Head Drusen: Imaging Using Optical Coherence Tomography Angiography
Flores-Reyes E
Journal of Glaucoma 2017; 26: 845-849 (IGR: 19-1)
74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Wong A
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)
74080 Diagnostic accuracy of ganglion cell complex substructures in different stages of primary open-angle glaucoma
Elbendary AM
Canadian Journal of Ophthalmology 2017; 52: 355-360 (IGR: 19-1)
74302 A novel hypothesis for the pathogenesis of glaucomatous disc hemorrhage
Lee EJ
Progress in Retinal and Eye Research 2017; 60: 20-43 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Tsikata E
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74440 Translaminar Gradient and Glaucoma
Čmelo J
?eska a Slovenska Oftalmologie 2017; 73: 52-56 (IGR: 19-1)
74114 Finite Element Biomechanics of Optic Nerve Sheath Traction in Adduction
Shin A
Journal of Biomechanical Engineering 2017; 139: (IGR: 19-1)
74843 The impact of anthropometric and ocular parameters on optic cup-to-disc ratio
Fukuoka H
BMJ open ophthalmology 2017; 1: e000012 (IGR: 19-1)
74192 Glaucoma and optic nerve drusen: Limitations of optic nerve head OCT
Poli M
Journal Français d'Ophtalmologie 2017; 40: 542-546 (IGR: 19-1)
74096 Is the Optic Nerve Head Structure Impacted by a Diagnostic Lumbar Puncture in Humans?
Poli M
Journal of Glaucoma 2017; 26: 1036-1040 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Loureiro MM
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Li T
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Martinez-de-la-Casa JM
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Sung KR
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)
74073 Morphology of the optic disc in the Tajimi Study population
Tomidokoro A
Japanese Journal of Ophthalmology 2017; 61: 441-447 (IGR: 19-1)
74398 Correlation of echographic and photographic assessment of optic nerve head cupping in children
Dale EA
Journal of AAPOS 2017; 21: 389-392 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Vianna JR
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Ha A
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74791 Relationship between anterior segment and optic nerve head parameters in healthy subjects
Ozates S
Arquivos Brasileiros de Oftalmologia 2017; 80: 285-289 (IGR: 19-1)
74444 The Upright Body Position Increases Translaminar Pressure Gradient in Normotensive and Hypertensive Rats
Ufnal M
Current Eye Research 2017; 42: 1634-1637 (IGR: 19-1)
74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Matheos K
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)
74118 Statins reduce TGF-beta2-modulation of the extracellular matrix in cultured astrocytes of the human optic nerve head
Sung KR
Experimental Eye Research 2017; 164: 55-63 (IGR: 19-1)
74843 The impact of anthropometric and ocular parameters on optic cup-to-disc ratio
Tange C
BMJ open ophthalmology 2017; 1: e000012 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Zangwill LM
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74092 Optic Disc Drusen and Family History of Glaucoma - Results of a Patient-directed Survey
Gramer E
Journal of Glaucoma 2017; 0: (IGR: 19-1)
74433 Reproducibility of Bruch Membrane Opening-Minimum Rim Width Measurements With Spectral Domain Optical Coherence Tomography
Kim J
Journal of Glaucoma 2017; 26: 1041-1050 (IGR: 19-1)
74349 Contrast based circular approximation for accurate and robust optic disc segmentation in retinal images
Nunez O
PeerJ 2017; 5: e3763 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Bata AM
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Rudnisky C
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74068 Optic Nerve Head Drusen: Imaging Using Optical Coherence Tomography Angiography
Hoskens K
Journal of Glaucoma 2017; 26: 845-849 (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Méndez-Hernández CD
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74302 A novel hypothesis for the pathogenesis of glaucomatous disc hemorrhage
Han JC
Progress in Retinal and Eye Research 2017; 60: 20-43 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Verticchio Vercellin AC
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74114 Finite Element Biomechanics of Optic Nerve Sheath Traction in Adduction
Yoo L
Journal of Biomechanical Engineering 2017; 139: (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Jan C
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Meyer AM
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74192 Glaucoma and optic nerve drusen: Limitations of optic nerve head OCT
Colange J
Journal Français d'Ophtalmologie 2017; 40: 542-546 (IGR: 19-1)
74450 Pilot study of the pulsatile neuro-peripapillary retinal deformation in glaucoma and its relationship with glaucoma risk factors
Costantino S
Current Eye Research 2017; 42: 1620-1627 (IGR: 19-1)
74554 Optic Disc Drusen and Family History of Glaucoma-Results of a Patient-directed Survey
Gramer E
Journal of Glaucoma 2017; 26: 940-946 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Pradhan ZS
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74609 Interocular symmetry of retinal nerve fiber layer and optic nerve head parameters measured by Cirrus high-definition optical coherence tomography in a normal pediatric population
Maheshwari D
Indian Journal of Ophthalmology 2017; 65: 955-962 (IGR: 19-1)
74096 Is the Optic Nerve Head Structure Impacted by a Diagnostic Lumbar Puncture in Humans?
Denis P
Journal of Glaucoma 2017; 26: 1036-1040 (IGR: 19-1)
74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Huang LY
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)
74305 Morphometric parameters of the optic disc in normal and glaucomatous eyes based on time-domain optical coherence tomography image analysis
Kybartaitė-Žilienė A
Medicina (Kaunas, Lithuania) 2017; 53: 242-252 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Lucy KA
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74200 Racial Differences in the Extracellular Matrix and Histone Acetylation of the Lamina Cribrosa and Peripapillary Sclera
Kim JH
Investigative Ophthalmology and Visual Science 2017; 58: 4143-4154 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Kosekahya P
Helicobacter 2017; 22: (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Adler W
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74829 Occult Optic Disc Pit Maculopathy in a Glaucomatous Disc
Ganne P
Middle East African Journal of Ophthalmology 2017; 24: 165-166 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Bremen A
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Pyne JD
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Jassim F
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74080 Diagnostic accuracy of ganglion cell complex substructures in different stages of primary open-angle glaucoma
Abd El-Latef MH
Canadian Journal of Ophthalmology 2017; 52: 355-360 (IGR: 19-1)
74302 A novel hypothesis for the pathogenesis of glaucomatous disc hemorrhage
Kee C
Progress in Retinal and Eye Research 2017; 60: 20-43 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Schuman JS
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Rodgers CD
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74433 Reproducibility of Bruch Membrane Opening-Minimum Rim Width Measurements With Spectral Domain Optical Coherence Tomography
Lee J
Journal of Glaucoma 2017; 26: 1041-1050 (IGR: 19-1)
74305 Morphometric parameters of the optic disc in normal and glaucomatous eyes based on time-domain optical coherence tomography image analysis
Kriaučiūnienė L
Medicina (Kaunas, Lithuania) 2017; 53: 242-252 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Weinreb RN
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Guo CY
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74609 Interocular symmetry of retinal nerve fiber layer and optic nerve head parameters measured by Cirrus high-definition optical coherence tomography in a normal pediatric population
Ravindran M
Indian Journal of Ophthalmology 2017; 65: 955-962 (IGR: 19-1)
74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Budenz DL
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Schaub F
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Yozgat A
Helicobacter 2017; 22: (IGR: 19-1)
74398 Correlation of echographic and photographic assessment of optic nerve head cupping in children
Osigian CJ
Journal of AAPOS 2017; 21: 389-392 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Rebolleda G
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Paschalis EI
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Falkenstein I
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Park J
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)
74192 Glaucoma and optic nerve drusen: Limitations of optic nerve head OCT
Goutagny B
Journal Français d'Ophtalmologie 2017; 40: 542-546 (IGR: 19-1)
74114 Finite Element Biomechanics of Optic Nerve Sheath Traction in Adduction
Park J
Journal of Biomechanical Engineering 2017; 139: (IGR: 19-1)
74080 Diagnostic accuracy of ganglion cell complex substructures in different stages of primary open-angle glaucoma
Elsorogy HI
Canadian Journal of Ophthalmology 2017; 52: 355-360 (IGR: 19-1)
74096 Is the Optic Nerve Head Structure Impacted by a Diagnostic Lumbar Puncture in Humans?
Sellem E
Journal of Glaucoma 2017; 26: 1036-1040 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Danthurebandara VM
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74200 Racial Differences in the Extracellular Matrix and Histone Acetylation of the Lamina Cribrosa and Peripapillary Sclera
Jung Y
Investigative Ophthalmology and Visual Science 2017; 58: 4143-4154 (IGR: 19-1)
74843 The impact of anthropometric and ocular parameters on optic cup-to-disc ratio
Otsuka R
BMJ open ophthalmology 2017; 1: e000012 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Poon LY
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74073 Morphology of the optic disc in the Tajimi Study population
Araie M
Japanese Journal of Ophthalmology 2017; 61: 441-447 (IGR: 19-1)
74092 Optic Disc Drusen and Family History of Glaucoma - Results of a Patient-directed Survey
Weisschuh N
Journal of Glaucoma 2017; 0: (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Schaub F
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Arora S
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Calzetti G
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Muli DK
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
González-de-la-Rosa M
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Mundae R
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74349 Contrast based circular approximation for accurate and robust optic disc segmentation in retinal images
Fumero F
PeerJ 2017; 5: e3763 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Song YJ
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74068 Optic Nerve Head Drusen: Imaging Using Optical Coherence Tomography Angiography
Mansouri K
Journal of Glaucoma 2017; 26: 845-849 (IGR: 19-1)
74450 Pilot study of the pulsatile neuro-peripapillary retinal deformation in glaucoma and its relationship with glaucoma risk factors
Lesk MR
Current Eye Research 2017; 42: 1620-1627 (IGR: 19-1)
74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Prime Z
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)
74118 Statins reduce TGF-beta2-modulation of the extracellular matrix in cultured astrocytes of the human optic nerve head
Shin JA
Experimental Eye Research 2017; 164: 55-63 (IGR: 19-1)
74554 Optic Disc Drusen and Family History of Glaucoma-Results of a Patient-directed Survey
Weisschuh N
Journal of Glaucoma 2017; 26: 940-946 (IGR: 19-1)
74609 Interocular symmetry of retinal nerve fiber layer and optic nerve head parameters measured by Cirrus high-definition optical coherence tomography in a normal pediatric population
Ramakrishnan R
Indian Journal of Ophthalmology 2017; 65: 955-962 (IGR: 19-1)
74200 Racial Differences in the Extracellular Matrix and Histone Acetylation of the Lamina Cribrosa and Peripapillary Sclera
Park CK
Investigative Ophthalmology and Visual Science 2017; 58: 4143-4154 (IGR: 19-1)
74114 Finite Element Biomechanics of Optic Nerve Sheath Traction in Adduction
Demer JL
Journal of Biomechanical Engineering 2017; 139: (IGR: 19-1)
74080 Diagnostic accuracy of ganglion cell complex substructures in different stages of primary open-angle glaucoma
Enaam KM
Canadian Journal of Ophthalmology 2017; 52: 355-360 (IGR: 19-1)
74192 Glaucoma and optic nerve drusen: Limitations of optic nerve head OCT
Sellem E
Journal Français d'Ophtalmologie 2017; 40: 542-546 (IGR: 19-1)
74118 Statins reduce TGF-beta2-modulation of the extracellular matrix in cultured astrocytes of the human optic nerve head
Young Yoon J
Experimental Eye Research 2017; 164: 55-63 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Kassam F
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Fernández-Pérez C
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74843 The impact of anthropometric and ocular parameters on optic cup-to-disc ratio
Ando F
BMJ open ophthalmology 2017; 1: e000012 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Tsikata E
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Hermann MM
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74313 Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma
Danesh-Meyer HV
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 2219-2226 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Hermann MM
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74096 Is the Optic Nerve Head Structure Impacted by a Diagnostic Lumbar Puncture in Humans?
Aho-Glélé LS
Journal of Glaucoma 2017; 26: 1036-1040 (IGR: 19-1)
74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Shi W
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)
74349 Contrast based circular approximation for accurate and robust optic disc segmentation in retinal images
Gonzalez M
PeerJ 2017; 5: e3763 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Na KI
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Luft N
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Poon LY
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Sharpe GP
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Axman KF
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Hammel N
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Ishikawa H
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Rosenberg NC
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Yoon JY
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)
74073 Morphology of the optic disc in the Tajimi Study population
Iwase A
Japanese Journal of Ophthalmology 2017; 61: 441-447 (IGR: 19-1)
74398 Correlation of echographic and photographic assessment of optic nerve head cupping in children
Cavuoto KM
Journal of AAPOS 2017; 21: 389-392 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Dasari S
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Wang H
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Cifuentes-Canorea P
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74305 Morphometric parameters of the optic disc in normal and glaucomatous eyes based on time-domain optical coherence tomography image analysis
Barzdžiukas V
Medicina (Kaunas, Lithuania) 2017; 53: 242-252 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Sen E
Helicobacter 2017; 22: (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Wang FH
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74843 The impact of anthropometric and ocular parameters on optic cup-to-disc ratio
Shimokata H
BMJ open ophthalmology 2017; 1: e000012 (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Howerton SJ
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Leoncavallo AJ
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74096 Is the Optic Nerve Head Structure Impacted by a Diagnostic Lumbar Puncture in Humans?
Bron AM
Journal of Glaucoma 2017; 26: 1036-1040 (IGR: 19-1)
74349 Contrast based circular approximation for accurate and robust optic disc segmentation in retinal images
Arnay R
PeerJ 2017; 5: e3763 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Brauner S
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74032 Sub-classification of myopic glaucomatous eyes according to optic disc and peripapillary features
Shin JW
PLoS ONE 2017; 12: e0181841 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Liang YB
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Ben-David GS
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Lee WJ
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74305 Morphometric parameters of the optic disc in normal and glaucomatous eyes based on time-domain optical coherence tomography image analysis
Janulevičienė I
Medicina (Kaunas, Lithuania) 2017; 53: 242-252 (IGR: 19-1)
74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Huang G
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)
74398 Correlation of echographic and photographic assessment of optic nerve head cupping in children
Shi W
Journal of AAPOS 2017; 21: 389-392 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Taniguchi EV
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Berker N
Helicobacter 2017; 22: (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Fondi K
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Riyazuddin M
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Nieves-Moreno M
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Sáez-Francés F
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Douglas G
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Diestelhorst M
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74118 Statins reduce TGF-beta2-modulation of the extracellular matrix in cultured astrocytes of the human optic nerve head
Jang J
Experimental Eye Research 2017; 164: 55-63 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Bowd C
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Diestelhorst M
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Bilonick RA
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Hutchison DM
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Khoueir Z
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Dietlein T
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Morales-Fernandez L
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Choo ZN
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74305 Morphometric parameters of the optic disc in normal and glaucomatous eyes based on time-domain optical coherence tomography image analysis
Paunksnis A
Medicina (Kaunas, Lithuania) 2017; 53: 242-252 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Nicolela MT
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Caglayan M
Helicobacter 2017; 22: (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Davis MR
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Venugopal JP
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Sigal IA
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Medeiros FA
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Liu Y
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Dietlein T
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74398 Correlation of echographic and photographic assessment of optic nerve head cupping in children
Chang TC
Journal of AAPOS 2017; 21: 389-392 (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
Andrés-Guerrero V
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Lukowski ZL
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Cao K
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74486 Differences in Optical Coherence Tomography Assessment of Bruch Membrane Opening Compared to Stereoscopic Photography for Estimating Cup-to-Disc Ratio
Lee RK
American Journal of Ophthalmology 2017; 184: 34-41 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Edwards MC
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Jeoung JW
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Wozniak PA
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Puttaiah NK
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74242 Preliminary Study of the Differences in Optic Nerve Head Hemoglobin Measures Between Patients With and Without Childhood Glaucoma
García-Feijoó J
Journal of Pediatric Ophthalmology & Strabismus 2017; 54: 387-394 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Weinreb RN
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Verstraten K
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Cursiefen C
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Cursiefen C
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Saenz-Frances F
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Greer AB
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74255 Visibility of Optic Nerve Head Structures With Spectral-domain and Swept-source Optical Coherence Tomography
Chauhan BC
Journal of Glaucoma 2017; 26: 792-797 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Sendul SY
Helicobacter 2017; 22: (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Zhang Z
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Girkin CA
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Kagemann L
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74214 Valsalva Maneuver-induced Changes in Anterior Lamina Cribrosa Surface DEPTH: A Comparison Between Normal and Glaucomatous Eyes
Park KH
Journal of Glaucoma 2017; 26: 866-874 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Schmidl D
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Shieh E
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Shoji MK
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Miller JB
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Lu C
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Bolz M
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Altiparmak E
Helicobacter 2017; 22: (IGR: 19-1)
74235 Racioethnic Differences in Human Posterior Scleral and Optic Nerve Stump Deformation
Vande Geest JP
Investigative Ophthalmology and Visual Science 2017; 58: 4235-4246 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Rao DAS
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Lee R
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74671 Optimization Strategies for Bruch's Membrane Opening Minimum Rim Area Calculation: Sequential versus Simultaneous Minimization
Heindl LM
Scientific reports 2017; 7: 13874 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Yang DY
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74086 Comparing optical coherence tomography radial and cube scan patterns for measuring Bruch's membrane opening minimum rim width (BMO-MRW) in glaucoma and healthy eyes: cross-sectional and longitudinal analysis
Belghith A
British Journal of Ophthalmology 2018; 102: 344-351 (IGR: 19-1)
74256 Volumetric Measurement of Optic Nerve Head Drusen Using Swept-Source Optical Coherence Tomography
Chen TC
Journal of Glaucoma 2017; 26: 798-804 (IGR: 19-1)
74298 Utility of Bruch membrane opening-based optic nerve head parameters in myopic subjects
Garcia-Feijoo J
European Journal of Ophthalmology 2017; 0: 0 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Greenstein SH
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74628 Intraday Repeatability of Bruch's Membrane Opening-Based Neuroretinal Rim Measurements
Heindl LM
Investigative Ophthalmology and Visual Science 2017; 58: 5195-5200 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Wong B
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Martorana GM
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74218 Compressed 3D and 2D digital images versus standard 3D slide film for the evaluation of glaucomatous optic nerve features
Damji KF
British Journal of Ophthalmology 2018; 102: 364-368 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Thomas R
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Guo R
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Devi S
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Fujimoto JG
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Zou B
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74530 Are optic nerve heads of patients with helicobacter pylori infection more susceptible to glaucomatous damage?
Yilmazbas P
Helicobacter 2017; 22: (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Brauner SC
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Popa-Cherecheanu A
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Shuster JJ
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74252 Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes
Wollstein G
Scientific reports 2017; 7: 9930 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Werkmeister RM
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Turalba AV
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Papadogeorgou G
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Wang NL
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Mansouri K
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Jay Katz L
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Garhöfer G
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Pasquale LR
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74563 Optical Coherence Tomography Angiography Vessel Density Measurements in Eyes With Primary Open-Angle Glaucoma and Disc Hemorrhage
Webers CAB
Journal of Glaucoma 2017; 26: 888-895 (IGR: 19-1)
74274 Association of intraocular pressure-related factors and retinal vessel diameter with optic disc rim area in subjects with and without primary open angle glaucoma
Clinical and Experimental Ophthalmology 2018; 46: 389-399 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Braaf B
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74405 Optic Nerve Head Characteristics in Chronic Angle Closure Glaucoma Detected by Swept-Source OCT
Shen LQ
Current Eye Research 2017; 42: 1450-1457 (IGR: 19-1)
74352 Optic nerve head and retinal blood flow regulation during isometric exercise as assessed with laser speckle flowgraphy
Schmetterer L
PLoS ONE 2017; 12: e0184772 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Schuman JS
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Simavli H; Que C
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Kass MA
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Vakoc BJ
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
74167 Comparing glaucomatous disc change using stereo disc viewing and the MatchedFlicker programme in glaucoma experts and trainees
Sherwood MB
British Journal of Ophthalmology 2018; 102: 358-363 (IGR: 19-1)
74152 Diagnostic Capability of Peripapillary Three-dimensional Retinal Nerve Fiber Layer Volume for Glaucoma Using Optical Coherence Tomography Volume Scans
Bouma BE; de Boer JF; Chen TC
American Journal of Ophthalmology 2017; 182: 180-193 (IGR: 19-1)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Lucy KA
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Seol BR
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)
72749 Development of visual field defect after first-detected optic disc hemorrhage in preperimetric open-angle glaucoma
Kim HJ
Japanese Journal of Ophthalmology 2017; 61: 307-313 (IGR: 18-4)
72618 OCT Angiography of the Glaucoma Optic Nerve
Lommatzsch C
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)
71873 Relationship between intraocular pressure and anterior lamina cribrosa depth: a cross-sectional observational study in a healthy Portuguese population
Sousa DC
European Journal of Ophthalmology 2017; 27: 295-300 (IGR: 18-4)
72831 Optic Disc Hemorrhage in Health and Disease
Razeghinejad MR
Survey of Ophthalmology 2017; 0: (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Nannini DR
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Akagi T
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Sung MS
Eye 2017; 31: 1051-1059 (IGR: 18-4)
73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Na KI
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)
73167 Multiple Temporal Lamina Cribrosa Defects in Myopic Eyes with Glaucoma and Their Association with Visual Field Defects
Sawada Y
Ophthalmology 2017; 124: 1600-1611 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Vianna JR
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Feola AJ
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Pircher A
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)
72924 The effect of parental factors in children with large cup-to-disc ratios
Park HL
PLoS ONE 2017; 12: e0175900 (IGR: 18-4)
73021 Gene Expression Profiling of the Optic Nerve Head of Patients with Primary Open-Angle Glaucoma
Wang X
Journal of Ophthalmology 2017; 2017: 6896390 (IGR: 18-4)
72788 Glaucoma in high myopia and parapapillary delta zone
Jonas JB
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)
72822 Myopic glaucomatous eyes with or without optic disc shape alteration: a longitudinal study
Kwon J
British Journal of Ophthalmology 2017; 101: 1618-1622 (IGR: 18-4)
72900 Relationship between corneal biomechanical properties and optic nerve head changes after deep sclerectomy
Díez-Álvarez L
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-4)
72943 Circumpapillary retinal nerve fiber layer thickness, anterior lamina cribrosa depth, and lamina cribrosa thickness in neovascular glaucoma secondary to proliferative diabetic retinopathy: a cross-sectional study
Yokota S
BMC Ophthalmology 2017; 17: 57 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Sharma S
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
72687 Study on the deformations of the lamina cribrosa during glaucoma
Tian H
Acta biomaterialia 2017; 55: 340-348 (IGR: 18-4)
72759 Correlation between central corneal thickness and visual field defects, cup to disc ratio and retinal nerve fiber layer thickness in primary open angle glaucoma patients
Sarfraz MH
Pakistan journal of medical sciences 2017; 33: 132-136 (IGR: 18-4)
72619 Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis
Seo S
BMC Ophthalmology 2017; 17: 22 (IGR: 18-4)
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Wu Z
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
An D
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72793 Influence of the lamina cribrosa on the rate of global and localized retinal nerve fiber layer thinning in open-angle glaucoma
Park HL
Medicine 2017; 96: e6295 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Quigley H
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Rao HL
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Lee WJ
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Coudrillier B
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Lanoe VR
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
72759 Correlation between central corneal thickness and visual field defects, cup to disc ratio and retinal nerve fiber layer thickness in primary open angle glaucoma patients
Mehboob MA
Pakistan journal of medical sciences 2017; 33: 132-136 (IGR: 18-4)
72822 Myopic glaucomatous eyes with or without optic disc shape alteration: a longitudinal study
Sung KR
British Journal of Ophthalmology 2017; 101: 1618-1622 (IGR: 18-4)
72900 Relationship between corneal biomechanical properties and optic nerve head changes after deep sclerectomy
Muñoz-Negrete FJ
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-4)
72793 Influence of the lamina cribrosa on the rate of global and localized retinal nerve fiber layer thinning in open-angle glaucoma
Kim SI
Medicine 2017; 96: e6295 (IGR: 18-4)
72619 Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis
Lee CE
BMC Ophthalmology 2017; 17: 22 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Pradhan ZS
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Zangwill LM
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Kim S
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)
72618 OCT Angiography of the Glaucoma Optic Nerve
Koch JM
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
House P
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
73021 Gene Expression Profiling of the Optic Nerve Head of Patients with Primary Open-Angle Glaucoma
Gong K
Journal of Ophthalmology 2017; 2017: 6896390 (IGR: 18-4)
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Lin C
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833 (IGR: 18-4)
72749 Development of visual field defect after first-detected optic disc hemorrhage in preperimetric open-angle glaucoma
Song YJ
Japanese Journal of Ophthalmology 2017; 61: 307-313 (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Torres M
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
72788 Glaucoma in high myopia and parapapillary delta zone
Weber P
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)
72924 The effect of parental factors in children with large cup-to-disc ratios
Ha MJ
PLoS ONE 2017; 12: e0175900 (IGR: 18-4)
71873 Relationship between intraocular pressure and anterior lamina cribrosa depth: a cross-sectional observational study in a healthy Portuguese population
Leal I
European Journal of Ophthalmology 2017; 27: 295-300 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Tun TA
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Arora K
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Montali M
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)
72943 Circumpapillary retinal nerve fiber layer thickness, anterior lamina cribrosa depth, and lamina cribrosa thickness in neovascular glaucoma secondary to proliferative diabetic retinopathy: a cross-sectional study
Takihara Y
BMC Ophthalmology 2017; 17: 57 (IGR: 18-4)
72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Heo H
Eye 2017; 31: 1051-1059 (IGR: 18-4)
73167 Multiple Temporal Lamina Cribrosa Defects in Myopic Eyes with Glaucoma and Their Association with Visual Field Defects
Araie M
Ophthalmology 2017; 124: 1600-1611 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Wang B
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
72687 Study on the deformations of the lamina cribrosa during glaucoma
Li L
Acta biomaterialia 2017; 55: 340-348 (IGR: 18-4)
72831 Optic Disc Hemorrhage in Health and Disease
Nowroozzadeh MH
Survey of Ophthalmology 2017; 0: (IGR: 18-4)
72924 The effect of parental factors in children with large cup-to-disc ratios
Shin SY
PLoS ONE 2017; 12: e0175900 (IGR: 18-4)
72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Kim DM
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Saunders LJ
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Crowther M
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833 (IGR: 18-4)
72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Ji YS
Eye 2017; 31: 1051-1059 (IGR: 18-4)
72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Berberat J
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Barry C
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Baskaran M
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Idrees S
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72943 Circumpapillary retinal nerve fiber layer thickness, anterior lamina cribrosa depth, and lamina cribrosa thickness in neovascular glaucoma secondary to proliferative diabetic retinopathy: a cross-sectional study
Takamura Y
BMC Ophthalmology 2017; 17: 57 (IGR: 18-4)
71873 Relationship between intraocular pressure and anterior lamina cribrosa depth: a cross-sectional observational study in a healthy Portuguese population
Marques-Neves C
European Journal of Ophthalmology 2017; 27: 295-300 (IGR: 18-4)
72759 Correlation between central corneal thickness and visual field defects, cup to disc ratio and retinal nerve fiber layer thickness in primary open angle glaucoma patients
Haq RI
Pakistan journal of medical sciences 2017; 33: 132-136 (IGR: 18-4)
72900 Relationship between corneal biomechanical properties and optic nerve head changes after deep sclerectomy
Casas-Llera P
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-4)
72687 Study on the deformations of the lamina cribrosa during glaucoma
Song F
Acta biomaterialia 2017; 55: 340-348 (IGR: 18-4)
72793 Influence of the lamina cribrosa on the rate of global and localized retinal nerve fiber layer thinning in open-angle glaucoma
Park CK
Medicine 2017; 96: e6295 (IGR: 18-4)
72619 Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis
Jeong JH
BMC Ophthalmology 2017; 17: 22 (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Chen YI
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Kim YK
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)
73167 Multiple Temporal Lamina Cribrosa Defects in Myopic Eyes with Glaucoma and Their Association with Visual Field Defects
Ishikawa M
Ophthalmology 2017; 124: 1600-1611 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Quach J
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
72822 Myopic glaucomatous eyes with or without optic disc shape alteration: a longitudinal study
Park JM
British Journal of Ophthalmology 2017; 101: 1618-1622 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Weinreb RN
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Schuman JS
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
72749 Development of visual field defect after first-detected optic disc hemorrhage in preperimetric open-angle glaucoma
Kim YK
Japanese Journal of Ophthalmology 2017; 61: 307-313 (IGR: 18-4)
72618 OCT Angiography of the Glaucoma Optic Nerve
Claußnitzer H
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Mulvihill J
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
72788 Glaucoma in high myopia and parapapillary delta zone
Nagaoka N
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)
72619 Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis
Park KH
BMC Ophthalmology 2017; 17: 22 (IGR: 18-4)
72943 Circumpapillary retinal nerve fiber layer thickness, anterior lamina cribrosa depth, and lamina cribrosa thickness in neovascular glaucoma secondary to proliferative diabetic retinopathy: a cross-sectional study
Inatani M
BMC Ophthalmology 2017; 17: 57 (IGR: 18-4)
73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Jeoung JW
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)
73167 Multiple Temporal Lamina Cribrosa Defects in Myopic Eyes with Glaucoma and Their Association with Visual Field Defects
Yoshitomi T
Ophthalmology 2017; 124: 1600-1611 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Geraldes DM
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
72788 Glaucoma in high myopia and parapapillary delta zone
Ohno-Matsui K
PLoS ONE 2017; 12: e0175120 (IGR: 18-4)
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Mak H
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Bilonick RA
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
71873 Relationship between intraocular pressure and anterior lamina cribrosa depth: a cross-sectional observational study in a healthy Portuguese population
Pinto F
European Journal of Ophthalmology 2017; 27: 295-300 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Atalay E
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Solano F
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Dasari S
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
72614 Predicting the risk of parafoveal scotoma in myopic normal tension glaucoma: role of optic disc tilt and rotation
Park SW
Eye 2017; 31: 1051-1059 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Sharpe GP
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Turpin A
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Remonda L
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)
72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Park KH
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Yarmohammadi A
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72749 Development of visual field defect after first-detected optic disc hemorrhage in preperimetric open-angle glaucoma
Jeoung JW
Japanese Journal of Ophthalmology 2017; 61: 307-313 (IGR: 18-4)
72618 OCT Angiography of the Glaucoma Optic Nerve
Heinz C
Klinische Monatsblätter für Augenheilkunde 2018; 235: 205-211 (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Taylor KD
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
72900 Relationship between corneal biomechanical properties and optic nerve head changes after deep sclerectomy
Oblanca N
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-4)
73021 Gene Expression Profiling of the Optic Nerve Head of Patients with Primary Open-Angle Glaucoma
Wang C
Journal of Ophthalmology 2017; 2017: 6896390 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Bedrood S
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Riyazuddin M
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
71873 Relationship between intraocular pressure and anterior lamina cribrosa depth: a cross-sectional observational study in a healthy Portuguese population
Abegão Pinto L
European Journal of Ophthalmology 2017; 27: 295-300 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
McKendrick AM
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Rotter JI
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Yu M
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Thakku SG
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Jeoung JW
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)
72900 Relationship between corneal biomechanical properties and optic nerve head changes after deep sclerectomy
de Juan V
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-4)
72619 Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis
Kim DM
BMC Ophthalmology 2017; 17: 22 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Manalastas PIC
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Hutchison DM
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
72749 Development of visual field defect after first-detected optic disc hemorrhage in preperimetric open-angle glaucoma
Park KH
Japanese Journal of Ophthalmology 2017; 61: 307-313 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Vo NT
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
73021 Gene Expression Profiling of the Optic Nerve Head of Patients with Primary Open-Angle Glaucoma
Qu C
Journal of Ophthalmology 2017; 2017: 6896390 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Ling Y
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
73025 Evaluation of Optic Nerve Head and Peripapillary Choroidal Vasculature Using Swept-source Optical Coherence Tomography Angiography
Park KH
Journal of Glaucoma 2017; 26: 665-668 (IGR: 18-4)
72611 The Optic Canal: A Bottleneck for Cerebrospinal Fluid Dynamics in Normal-Tension Glaucoma?
Killer HE
Frontiers in neurology 2017; 8: 47 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Kagemann L
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Chauhan BC
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
73021 Gene Expression Profiling of the Optic Nerve Head of Patients with Primary Open-Angle Glaucoma
Li H
Journal of Ophthalmology 2017; 2017: 6896390 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Raveendran S
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Albon J
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Lee C
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Leung CK
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833 (IGR: 18-4)
72612 Influence of intraocular pressure reduction on progression of normal-tension glaucoma with myopic tilted disc and associated risk factors
Kim SH
Japanese Journal of Ophthalmology 2017; 61: 230-236 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Suh MH
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72619 Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis
Jeoung JW
BMC Ophthalmology 2017; 17: 22 (IGR: 18-4)
72900 Relationship between corneal biomechanical properties and optic nerve head changes after deep sclerectomy
Rebolleda G
European Journal of Ophthalmology 2017; 0: 0 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Belliveau AC
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Liang Z
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Varma R
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Jefferys J
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Shuba LM
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Sigal IA
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Milea D
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
72164 A Genome-Wide Association Study of Vertical Cup-Disc Ratio in a Latino Population
Gao X
Investigative Ophthalmology and Visual Science 2017; 58: 87-95 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Abel RL
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Manners S
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Puttaiah NK
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Girkin CA
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Venugopal JP
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Strouthidis NG
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Grulkowski I
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
73049 Biomechanical Responses of Lamina Cribrosa to Intraocular Pressure Change Assessed by Optical Coherence Tomography in Glaucoma Eyes
Nguyen T
Investigative Ophthalmology and Visual Science 2017; 58: 2566-2577 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Nicolela MT
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Samuels BC
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Liebmann JM
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Graham SL
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72982 Serial Changes in Lamina Cribrosa Depth and Neuroretinal Parameters in Glaucoma: Impact of Choroidal Thickness
Chauhan BC
Ophthalmology 2017; 124: 1392-1402 (IGR: 18-4)
73060 Rates of Local Retinal Nerve Fiber Layer Thinning before and after Disc Hemorrhage in Glaucoma
Weinreb RN
Ophthalmology 2017; 124: 1403-1411 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Liu JJ
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Yu DY
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72808 Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure
Ethier CR
Investigative Ophthalmology and Visual Science 2017; 58: 2070-2078 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Rao DAS
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Aung T
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Fujimoto JG
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
73039 Effect of acute intraocular pressure elevation on the minimum rim width in normal, ocular hypertensive and glaucoma eyes
Girard MJ
British Journal of Ophthalmology 2018; 102: 131-135 (IGR: 18-4)
73576 The association between retinal vein pulsation pressure and optic disc haemorrhages in glaucoma
Morgan WH
PLoS ONE 2017; 12: e0182316 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Devi S; Mansouri K
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
72688 Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility
Ishikawa H; Wollstein G
Investigative Ophthalmology and Visual Science 2017; 58: 1751-1757 (IGR: 18-4)
72702 Relationship of Optic Nerve Structure and Function to Peripapillary Vessel Density Measurements of Optical Coherence Tomography Angiography in Glaucoma
Webers CAB
Journal of Glaucoma 2017; 26: 548-554 (IGR: 18-4)
71023 Patterns of Damage in Young Myopic Glaucomatous-appearing Patients With Different Optic Disc Tilt Direction
Lee JE
Journal of Glaucoma 2017; 26: 144-152 (IGR: 18-3)
71062 Optic Disc Swelling After Intraocular Pressure Lowering Treatment in Acute Primary Angle Closure
Kim BH
Journal of Glaucoma 2017; 26: e87-e89 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Tanito M
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71395 Diagnostic Power of Lamina Cribrosa Depth and Curvature in Glaucoma
Lee SH
Investigative Ophthalmology and Visual Science 2017; 58: 755-762 (IGR: 18-3)
71363 Glymphatic stasis at the site of the lamina cribrosa as a potential mechanism underlying open-angle glaucoma
Wostyn P
Clinical and Experimental Ophthalmology 2017; 45: 539-547 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Srinivas S
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71536 Relationship Between Anterior Lamina Cribrosa Surface Tilt and Glaucoma Development in Myopic Eyes
Lee EJ
Journal of Glaucoma 2017; 26: 415-422 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Midgett DE
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Pakravan M
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Naranjo-Bonilla P
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Iwase A
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)
71289 Relationship between Central Retinal Vessel Trunk Location and Visual Field Loss in Glaucoma
Wang M
American Journal of Ophthalmology 2017; 176: 53-60 (IGR: 18-3)
71460 Astrocytes in the Optic Nerve Head of Glaucomatous Mice Display a Characteristic Reactive Phenotype
Wang R
Investigative Ophthalmology and Visual Science 2017; 58: 924-932 (IGR: 18-3)
71184 Intracranial Pressure Influences the Behavior of the Optic Nerve Head
Hua Y
Journal of Biomechanical Engineering 2017; 139: (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Nguyen C
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71010 Progressive Retinal Nerve Fiber Layer Atrophy Associated With Enlarging Peripapillary Pit
Lee EJ
Journal of Glaucoma 2017; 26: e79-e81 (IGR: 18-3)
71494 The Proportion of Individuals Likely to Benefit from Customized Optic Nerve Head Structure-Function Mapping
McKendrick AM
Ophthalmology 2017; 124: 554-561 (IGR: 18-3)
71434 Prostaglandins and optic papilla blood flow
Zhang SH
Chinese Journal of Ophthalmology 2017; 53: 73-76 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Fan KC
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71494 The Proportion of Individuals Likely to Benefit from Customized Optic Nerve Head Structure-Function Mapping
Denniss J
Ophthalmology 2017; 124: 554-561 (IGR: 18-3)
71010 Progressive Retinal Nerve Fiber Layer Atrophy Associated With Enlarging Peripapillary Pit
Kim TW
Journal of Glaucoma 2017; 26: e79-e81 (IGR: 18-3)
71536 Relationship Between Anterior Lamina Cribrosa Surface Tilt and Glaucoma Development in Myopic Eyes
Han JC
Journal of Glaucoma 2017; 26: 415-422 (IGR: 18-3)
71434 Prostaglandins and optic papilla blood flow
Zhao JL
Chinese Journal of Ophthalmology 2017; 53: 73-76 (IGR: 18-3)
71184 Intracranial Pressure Influences the Behavior of the Optic Nerve Head
Tong J
Journal of Biomechanical Engineering 2017; 139: (IGR: 18-3)
71289 Relationship between Central Retinal Vessel Trunk Location and Visual Field Loss in Glaucoma
Wang H
American Journal of Ophthalmology 2017; 176: 53-60 (IGR: 18-3)
71460 Astrocytes in the Optic Nerve Head of Glaucomatous Mice Display a Characteristic Reactive Phenotype
Seifert P
Investigative Ophthalmology and Visual Science 2017; 58: 924-932 (IGR: 18-3)
71062 Optic Disc Swelling After Intraocular Pressure Lowering Treatment in Acute Primary Angle Closure
Lee EJ
Journal of Glaucoma 2017; 26: e87-e89 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Tsikata E
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71395 Diagnostic Power of Lamina Cribrosa Depth and Curvature in Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2017; 58: 755-762 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Pease ME
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71023 Patterns of Damage in Young Myopic Glaucomatous-appearing Patients With Different Optic Disc Tilt Direction
Lee J
Journal of Glaucoma 2017; 26: 144-152 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Nitta K
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Giménez-Gómez R
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Midgett D
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71363 Glymphatic stasis at the site of the lamina cribrosa as a potential mechanism underlying open-angle glaucoma
Killer HE
Clinical and Experimental Ophthalmology 2017; 45: 539-547 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Javadi MA
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Dastiridou A
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Sawaguchi S
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Khoueir Z
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Yazdani S
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71460 Astrocytes in the Optic Nerve Head of Glaucomatous Mice Display a Characteristic Reactive Phenotype
Jakobs TC
Investigative Ophthalmology and Visual Science 2017; 58: 924-932 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Kimball EC
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Durbin MK
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Ríos-Jiménez D
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71494 The Proportion of Individuals Likely to Benefit from Customized Optic Nerve Head Structure-Function Mapping
Wang YX
Ophthalmology 2017; 124: 554-561 (IGR: 18-3)
71023 Patterns of Damage in Young Myopic Glaucomatous-appearing Patients With Different Optic Disc Tilt Direction
Lee JY
Journal of Glaucoma 2017; 26: 144-152 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Katai M
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71363 Glymphatic stasis at the site of the lamina cribrosa as a potential mechanism underlying open-angle glaucoma
De Deyn PP
Clinical and Experimental Ophthalmology 2017; 45: 539-547 (IGR: 18-3)
71184 Intracranial Pressure Influences the Behavior of the Optic Nerve Head
Ghate D
Journal of Biomechanical Engineering 2017; 139: (IGR: 18-3)
71536 Relationship Between Anterior Lamina Cribrosa Surface Tilt and Glaucoma Development in Myopic Eyes
Kee C
Journal of Glaucoma 2017; 26: 415-422 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Jefferys JL
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Sakai H
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)
71289 Relationship between Central Retinal Vessel Trunk Location and Visual Field Loss in Glaucoma
Pasquale LR
American Journal of Ophthalmology 2017; 176: 53-60 (IGR: 18-3)
71395 Diagnostic Power of Lamina Cribrosa Depth and Curvature in Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2017; 58: 755-762 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Patel M
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71494 The Proportion of Individuals Likely to Benefit from Customized Optic Nerve Head Structure-Function Mapping
Jonas JB
Ophthalmology 2017; 124: 554-561 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Simavli H
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Steinhart MR
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71289 Relationship between Central Retinal Vessel Trunk Location and Visual Field Loss in Glaucoma
Baniasadi N
American Journal of Ophthalmology 2017; 176: 53-60 (IGR: 18-3)
71184 Intracranial Pressure Influences the Behavior of the Optic Nerve Head
Kedar S
Journal of Biomechanical Engineering 2017; 139: (IGR: 18-3)
71023 Patterns of Damage in Young Myopic Glaucomatous-appearing Patients With Different Optic Disc Tilt Direction
Kook MS
Journal of Glaucoma 2017; 26: 144-152 (IGR: 18-3)
71395 Diagnostic Power of Lamina Cribrosa Depth and Curvature in Glaucoma
Girard MJ
Investigative Ophthalmology and Visual Science 2017; 58: 755-762 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Nittala MG
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Tanaka K
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Ghahari E
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Kitaoka Y
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Varas-Fabra ML
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Behroozi Z
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Yokoyama Y
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Huang AA
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Franck C
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Guo R
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Nguyen TD
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Tsutsumi T
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)
71395 Diagnostic Power of Lamina Cribrosa Depth and Curvature in Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2017; 58: 755-762 (IGR: 18-3)
71494 The Proportion of Individuals Likely to Benefit from Customized Optic Nerve Head Structure-Function Mapping
Turpin A
Ophthalmology 2017; 124: 554-561 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Muñoz-Villanueva MD
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71289 Relationship between Central Retinal Vessel Trunk Location and Visual Field Loss in Glaucoma
Shen LQ
American Journal of Ophthalmology 2017; 176: 53-60 (IGR: 18-3)
71184 Intracranial Pressure Influences the Behavior of the Optic Nerve Head
Gu L
Journal of Biomechanical Engineering 2017; 139: (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Tan JC
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Soleimanizad R
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71476 Optic disc, rim and peripapillary chorioretinal atrophy in normal Japanese eyes: the Kumejima Study
Araie M
Japanese Journal of Ophthalmology 2017; 61: 223-229 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
A de Luna R
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
García-Catalán R
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Pease ME
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Omodaka K
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Quigley HA
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71289 Relationship between Central Retinal Vessel Trunk Location and Visual Field Loss in Glaucoma
Bex PJ; Elze T
American Journal of Ophthalmology 2017; 176: 53-60 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Font-Ugalde P
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71321 The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations
Nguyen TD
Acta biomaterialia 2017; 53: 123-139 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Moghimi S
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Francis BA
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71470 Differentiation of glaucomatous optic discs with different appearances using optic disc topography parameters: The Glaucoma Stereo Analysis Study
Nakazawa T
PLoS ONE 2017; 12: e0169858 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Pandit S
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Oglesby EN
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Nilforoushan N
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Jefferys JL
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Que CJ
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Sadda SR
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Poblador-Fernández MS
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71394 Measuring Deformation in the Mouse Optic Nerve Head and Peripapillary Sclera
Quigley HA
Investigative Ophthalmology and Visual Science 2017; 58: 721-733 (IGR: 18-3)
71197 Pilot Study of Lamina Cribrosa Intensity Measurements in Glaucoma Using Swept-Source Optical Coherence Tomography
Chopra V
Journal of Glaucoma 2017; 26: 138-143 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
de Boer JF
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Zarei R
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71611 Enhanced depth OCT imaging of the lamina cribrosa for 24 hours
Lancho-Alonso JL; Gallardo-Galera JM
International Journal of Ophthalmology 2017; 10: 306-309 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Eslami Y
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
71558 Enhanced Diagnostic Capability for Glaucoma of 3-Dimensional Versus 2-Dimensional Neuroretinal Rim Parameters Using Spectral Domain Optical Coherence Tomography
Chen TC
Journal of Glaucoma 2017; 26: 450-458 (IGR: 18-3)
71101 Distribution of intraocular pressure, central corneal thickness and vertical cup-to-disc ratio in a healthy Iranian population: the Yazd Eye Study
Ghassami M; Ziaei H; Katibeh M; Tabesh H; Yaseri M
Acta Ophthalmologica 2017; 95: e144-e151 (IGR: 18-3)
70182 Positional and Curvature Difference of Lamina Cribrosa According to the Baseline Intraocular Pressure in Primary Open-Angle Glaucoma: A Swept-Source Optical Coherence Tomography (SS-OCT) Study
Kim YW
PLoS ONE 2016; 11: e0162182 (IGR: 18-2)
70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Pircher A
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)
70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Toshev AP
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)
70527 Peripapillary schisis in open-angle glaucoma
Dhingra N
Eye 2017; 31: 499-502 (IGR: 18-2)
70170 Real-Time Ultrasound Elastographic Features of Primary Open Angle Glaucoma
Unal O
Ultrasound quarterly 2016; 32: 333-337 (IGR: 18-2)
70290 Optic nerve head slope-based quantitative parameters for identifying open-angle glaucoma on SPECTRALIS OCT images
Al-Hinnawi AM
International Ophthalmology 2017; 37: 979-988 (IGR: 18-2)
70408 Imaging of the lamina cribrosa for early detection of glaucoma : Latest trends from the annual ARVO meeting 2016
Matlach J
Ophthalmologe 2016; 113: 960-963 (IGR: 18-2)
70334 Optic disc tilt direction affects regional visual field progression rates in myopic eyes with open-angle glaucoma
Lee JR
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 2267-2276 (IGR: 18-2)
70214 Measurement of lamina and prelaminar thicknesses of both eyes in patients with unilateral branch retinal vein occlusion
Son Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 503-508 (IGR: 18-2)
70134 Effect of head tilt on repeatability of optic nerve head parameters using cirrus spectral-domain optical coherence tomography
Koh LH
International Journal of Ophthalmology 2016; 9: 1170-1175 (IGR: 18-2)
70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Chihara E
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)
70172 Reproducibility of optic disk evaluation in supine subjects with a Heidelberg Retina Tomograph II laser tomographic scanner
Harada Y
Clinical Ophthalmology 2016; 10: 1617-1622 (IGR: 18-2)
69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Lee JH
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)
70365 Comparison of Heidelberg Retina Tomograph-3 glaucoma probability score and Moorfields regression analysis of optic nerve head in glaucoma patients and healthy individuals
Caglar Ç
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 153-161 (IGR: 18-2)
70521 Thirteen-Year Follow-up of Optic Disc Hemorrhages in the Ocular Hypertension Treatment Study
Budenz DL
American Journal of Ophthalmology 2017; 174: 126-133 (IGR: 18-2)
69879 Evaluation of a Myopic Normative Database for Analysis of Retinal Nerve Fiber Layer Thickness
Biswas S
JAMA ophthalmology 2016; 134: 1032-1039 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Enders P
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Suh MH
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70694 Asymmetrical Intraocular Pressures and Asymmetrical Papilloedema in Pseudotumor Cerebri Syndrome
Lawlor M
Neuro-Ophthalmology 2016; 40: 292-296 (IGR: 18-2)
70145 Glaucoma detection using entropy sampling and ensemble learning for automatic optic cup and disc segmentation
Zilly J
Computerized Medical Imaging and Graphics 2017; 55: 28-41 (IGR: 18-2)
70802 Research advances of optic nerve lamina cribrosa structure and its measurement analysis
Tian T
Chinese Journal of Ophthalmology 2016; 52: 952-956 (IGR: 18-2)
70250 Reduction of the Lamina Cribrosa Curvature After Trabeculectomy in Glaucoma
Lee SH
Investigative Ophthalmology and Visual Science 2016; 57: 5006-5014 (IGR: 18-2)
70899 Association of Myopic Deformation of Optic Disc with Visual Field Progression in Paired Eyes with Open-Angle Glaucoma
Sawada Y
PLoS ONE 2017; 12: e0170733 (IGR: 18-2)
69791 Increased Global DNA Methylation and Decreased TGFβ1 Promoter Methylation in Glaucomatous Lamina Cribrosa Cells
McDonnell FS
Journal of Glaucoma 2016; 25: e834-e842 (IGR: 18-2)
70638 Lamina cribrosa in glaucoma
Downs JC
Current Opinions in Ophthalmology 2017; 28: 113-119 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Tsikata E
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Sawada Y
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Tun TA
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70712 Ocular characteristics associated with the location of focal lamina cribrosa defects in open-angle glaucoma patients
Park HY
Eye 2017; 31: 578-587 (IGR: 18-2)
70486 Consistency of Bruch Membrane Opening Detection as Determined by Optical Coherence Tomography
Hwang YH
Journal of Glaucoma 2016; 25: 873-878 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Rhodes LA
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70396 Optic cup segmentation from fundus images for glaucoma diagnosis
Hu M
Bioengineered 2017; 8: 21-28 (IGR: 18-2)
70282 Optic Nerve Head Diagnostics with Optical Coherence Tomography
Unterlauft JD
Klinische Monatsblätter für Augenheilkunde 2018; 235: 47-57 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Zhang L
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Fard MA
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70463 Vertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucoma
Shoji T
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 197-205 (IGR: 18-2)
70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Kwun Y
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)
70502 Optic disc hemorrhage in glaucoma: pathophysiology and prognostic significance
Kim KE
Current Opinions in Ophthalmology 2017; 28: 105-112 (IGR: 18-2)
70397 Intra- and Inter-Rater Agreement of Anterior Lamina Cribrosa Depth Measurements Using Enhanced-Depth Imaging Optical Coherence Tomography
Leal I
Ophthalmic Research 2017; 57: 92-99 (IGR: 18-2)
70268 Developing new automated alternation flicker using optic disc photography for the detection of glaucoma progression
Ahn J
Eye 2017; 31: 119-126 (IGR: 18-2)
69883 Clinical evaluation of the optic disc in glaucoma
Greslechner R
Ophthalmologe 2016; 113: 816-823 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Chang MY
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70137 Optic disc area in different types of glaucoma
Tekeli O
International Journal of Ophthalmology 2016; 9: 1134-1137 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Yamashita T
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70852 Retinal and choroidal oxygen saturation of the optic nerve head in open-angle glaucoma subjects by multispectral imaging
Li GY
Medicine 2016; 95: e5775 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Lee JE
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Afzali M
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70365 Comparison of Heidelberg Retina Tomograph-3 glaucoma probability score and Moorfields regression analysis of optic nerve head in glaucoma patients and healthy individuals
Gul A
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 153-161 (IGR: 18-2)
70712 Ocular characteristics associated with the location of focal lamina cribrosa defects in open-angle glaucoma patients
Hwang YS
Eye 2017; 31: 578-587 (IGR: 18-2)
70502 Optic disc hemorrhage in glaucoma: pathophysiology and prognostic significance
Park KH
Current Opinions in Ophthalmology 2017; 28: 105-112 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Shin A
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70145 Glaucoma detection using entropy sampling and ensemble learning for automatic optic cup and disc segmentation
Buhmann JM
Computerized Medical Imaging and Graphics 2017; 55: 28-41 (IGR: 18-2)
70899 Association of Myopic Deformation of Optic Disc with Visual Field Progression in Paired Eyes with Open-Angle Glaucoma
Hangai M
PLoS ONE 2017; 12: e0170733 (IGR: 18-2)
69883 Clinical evaluation of the optic disc in glaucoma
Spiegel D
Ophthalmologe 2016; 113: 816-823 (IGR: 18-2)
70182 Positional and Curvature Difference of Lamina Cribrosa According to the Baseline Intraocular Pressure in Primary Open-Angle Glaucoma: A Swept-Source Optical Coherence Tomography (SS-OCT) Study
Jeoung JW
PLoS ONE 2016; 11: e0162182 (IGR: 18-2)
70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Hangai M
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Adler W
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70521 Thirteen-Year Follow-up of Optic Disc Hemorrhages in the Ocular Hypertension Treatment Study
Huecker JB
American Journal of Ophthalmology 2017; 174: 126-133 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Sung KR
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
70397 Intra- and Inter-Rater Agreement of Anterior Lamina Cribrosa Depth Measurements Using Enhanced-Depth Imaging Optical Coherence Tomography
Sousa DC
Ophthalmic Research 2017; 57: 92-99 (IGR: 18-2)
70268 Developing new automated alternation flicker using optic disc photography for the detection of glaucoma progression
Yun IS
Eye 2017; 31: 119-126 (IGR: 18-2)
69791 Increased Global DNA Methylation and Decreased TGFβ1 Promoter Methylation in Glaucomatous Lamina Cribrosa Cells
McNally SA
Journal of Glaucoma 2016; 25: e834-e842 (IGR: 18-2)
70638 Lamina cribrosa in glaucoma
Girkin CA
Current Opinions in Ophthalmology 2017; 28: 113-119 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Thakku SG
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Remonda L
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Thakku SG
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Lamparter J
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)
70137 Optic disc area in different types of glaucoma
Savku E
International Journal of Ophthalmology 2016; 9: 1134-1137 (IGR: 18-2)
70250 Reduction of the Lamina Cribrosa Curvature After Trabeculectomy in Glaucoma
Yu DA
Investigative Ophthalmology and Visual Science 2016; 57: 5006-5014 (IGR: 18-2)
70282 Optic Nerve Head Diagnostics with Optical Coherence Tomography
Tegetmeyer H
Klinische Monatsblätter für Augenheilkunde 2018; 235: 47-57 (IGR: 18-2)
70408 Imaging of the lamina cribrosa for early detection of glaucoma : Latest trends from the annual ARVO meeting 2016
Pfeiffer N
Ophthalmologe 2016; 113: 960-963 (IGR: 18-2)
70334 Optic disc tilt direction affects regional visual field progression rates in myopic eyes with open-angle glaucoma
Lee J
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 2267-2276 (IGR: 18-2)
70463 Vertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucoma
Kuroda H
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 197-205 (IGR: 18-2)
70134 Effect of head tilt on repeatability of optic nerve head parameters using cirrus spectral-domain optical coherence tomography
Ismail MA
International Journal of Ophthalmology 2016; 9: 1170-1175 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Sakamoto T
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70290 Optic nerve head slope-based quantitative parameters for identifying open-angle glaucoma on SPECTRALIS OCT images
Al-Naami BO
International Ophthalmology 2017; 37: 979-988 (IGR: 18-2)
69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Park HY
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)
70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Han G
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)
70852 Retinal and choroidal oxygen saturation of the optic nerve head in open-angle glaucoma subjects by multispectral imaging
Al-Wesabi SA
Medicine 2016; 95: e5775 (IGR: 18-2)
70172 Reproducibility of optic disk evaluation in supine subjects with a Heidelberg Retina Tomograph II laser tomographic scanner
Akita T
Clinical Ophthalmology 2016; 10: 1617-1622 (IGR: 18-2)
69879 Evaluation of a Myopic Normative Database for Analysis of Retinal Nerve Fiber Layer Thickness
Lin C
JAMA ophthalmology 2016; 134: 1032-1039 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Lee R
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70214 Measurement of lamina and prelaminar thicknesses of both eyes in patients with unilateral branch retinal vein occlusion
Lee S
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 503-508 (IGR: 18-2)
70802 Research advances of optic nerve lamina cribrosa structure and its measurement analysis
Pan YZ
Chinese Journal of Ophthalmology 2016; 52: 952-956 (IGR: 18-2)
70527 Peripapillary schisis in open-angle glaucoma
Manoharan R
Eye 2017; 31: 499-502 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Huisingh CE
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70694 Asymmetrical Intraocular Pressures and Asymmetrical Papilloedema in Pseudotumor Cerebri Syndrome
Zhang MG
Neuro-Ophthalmology 2016; 40: 292-296 (IGR: 18-2)
70486 Consistency of Bruch Membrane Opening Detection as Determined by Optical Coherence Tomography
Kim MK
Journal of Glaucoma 2016; 25: 873-878 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Zangwill LM
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70396 Optic cup segmentation from fundus images for glaucoma diagnosis
Zhu C
Bioengineered 2017; 8: 21-28 (IGR: 18-2)
70170 Real-Time Ultrasound Elastographic Features of Primary Open Angle Glaucoma
Cay N
Ultrasound quarterly 2016; 32: 333-337 (IGR: 18-2)
70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Dimitrova G
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)
69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Baek J
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Beotra MR
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70521 Thirteen-Year Follow-up of Optic Disc Hemorrhages in the Ocular Hypertension Treatment Study
Gedde SJ
American Journal of Ophthalmology 2017; 174: 126-133 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Png O
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Manalastas PI
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Schaub F
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Yoshihara N
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70694 Asymmetrical Intraocular Pressures and Asymmetrical Papilloedema in Pseudotumor Cerebri Syndrome
Virgo J
Neuro-Ophthalmology 2016; 40: 292-296 (IGR: 18-2)
70852 Retinal and choroidal oxygen saturation of the optic nerve head in open-angle glaucoma subjects by multispectral imaging
Zhang H
Medicine 2016; 95: e5775 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Abdi P
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70463 Vertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucoma
Suzuki M
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 197-205 (IGR: 18-2)
70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Choy YJ
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)
70712 Ocular characteristics associated with the location of focal lamina cribrosa defects in open-angle glaucoma patients
Park CK
Eye 2017; 31: 578-587 (IGR: 18-2)
70486 Consistency of Bruch Membrane Opening Detection as Determined by Optical Coherence Tomography
Ahn SI
Journal of Glaucoma 2016; 25: 873-878 (IGR: 18-2)
70527 Peripapillary schisis in open-angle glaucoma
Gill S
Eye 2017; 31: 499-502 (IGR: 18-2)
69791 Increased Global DNA Methylation and Decreased TGFβ1 Promoter Methylation in Glaucomatous Lamina Cribrosa Cells
Clark AF
Journal of Glaucoma 2016; 25: e834-e842 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Park JM
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
70214 Measurement of lamina and prelaminar thicknesses of both eyes in patients with unilateral branch retinal vein occlusion
Park J
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 503-508 (IGR: 18-2)
70396 Optic cup segmentation from fundus images for glaucoma diagnosis
Li X
Bioengineered 2017; 8: 21-28 (IGR: 18-2)
70170 Real-Time Ultrasound Elastographic Features of Primary Open Angle Glaucoma
Yulek F
Ultrasound quarterly 2016; 32: 333-337 (IGR: 18-2)
70397 Intra- and Inter-Rater Agreement of Anterior Lamina Cribrosa Depth Measurements Using Enhanced-Depth Imaging Optical Coherence Tomography
Pinto F
Ophthalmic Research 2017; 57: 92-99 (IGR: 18-2)
70172 Reproducibility of optic disk evaluation in supine subjects with a Heidelberg Retina Tomograph II laser tomographic scanner
Takenaka J
Clinical Ophthalmology 2016; 10: 1617-1622 (IGR: 18-2)
70365 Comparison of Heidelberg Retina Tomograph-3 glaucoma probability score and Moorfields regression analysis of optic nerve head in glaucoma patients and healthy individuals
Batur M
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 153-161 (IGR: 18-2)
70182 Positional and Curvature Difference of Lamina Cribrosa According to the Baseline Intraocular Pressure in Primary Open-Angle Glaucoma: A Swept-Source Optical Coherence Tomography (SS-OCT) Study
Girard MJ
PLoS ONE 2016; 11: e0162182 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Quinn AE
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Pfeiffer N
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)
70137 Optic disc area in different types of glaucoma
Abdullayev A
International Journal of Ophthalmology 2016; 9: 1134-1137 (IGR: 18-2)
70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Amano H
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Shieh E
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70334 Optic disc tilt direction affects regional visual field progression rates in myopic eyes with open-angle glaucoma
Lee JE
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 2267-2276 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Park J
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70134 Effect of head tilt on repeatability of optic nerve head parameters using cirrus spectral-domain optical coherence tomography
Yap SC
International Journal of Ophthalmology 2016; 9: 1170-1175 (IGR: 18-2)
70145 Glaucoma detection using entropy sampling and ensemble learning for automatic optic cup and disc segmentation
Mahapatra D
Computerized Medical Imaging and Graphics 2017; 55: 28-41 (IGR: 18-2)
70250 Reduction of the Lamina Cribrosa Curvature After Trabeculectomy in Glaucoma
Kim TW
Investigative Ophthalmology and Visual Science 2016; 57: 5006-5014 (IGR: 18-2)
70899 Association of Myopic Deformation of Optic Disc with Visual Field Progression in Paired Eyes with Open-Angle Glaucoma
Ishikawa M
PLoS ONE 2017; 12: e0170733 (IGR: 18-2)
70290 Optic nerve head slope-based quantitative parameters for identifying open-angle glaucoma on SPECTRALIS OCT images
Al-Latayfeh MM
International Ophthalmology 2017; 37: 979-988 (IGR: 18-2)
70408 Imaging of the lamina cribrosa for early detection of glaucoma : Latest trends from the annual ARVO meeting 2016
Prokosch-Willing V
Ophthalmologe 2016; 113: 960-963 (IGR: 18-2)
70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Ishikawa M
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)
70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Weinreb RN
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)
69879 Evaluation of a Myopic Normative Database for Analysis of Retinal Nerve Fiber Layer Thickness
Leung CK
JAMA ophthalmology 2016; 134: 1032-1039 (IGR: 18-2)
70268 Developing new automated alternation flicker using optic disc photography for the detection of glaucoma progression
Yoo HG
Eye 2017; 31: 119-126 (IGR: 18-2)
70334 Optic disc tilt direction affects regional visual field progression rates in myopic eyes with open-angle glaucoma
Lee JY
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 2267-2276 (IGR: 18-2)
70134 Effect of head tilt on repeatability of optic nerve head parameters using cirrus spectral-domain optical coherence tomography
Wong EP
International Journal of Ophthalmology 2016; 9: 1170-1175 (IGR: 18-2)
70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Han JC
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)
69791 Increased Global DNA Methylation and Decreased TGFβ1 Promoter Methylation in Glaucomatous Lamina Cribrosa Cells
O'brien CJ
Journal of Glaucoma 2016; 25: e834-e842 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Baskaran M
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70463 Vertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucoma
Ibuki H
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 197-205 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
McGwin G
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Baskaran M
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70396 Optic cup segmentation from fundus images for glaucoma diagnosis
Xu Y
Bioengineered 2017; 8: 21-28 (IGR: 18-2)
70250 Reduction of the Lamina Cribrosa Curvature After Trabeculectomy in Glaucoma
Lee EJ
Investigative Ophthalmology and Visual Science 2016; 57: 5006-5014 (IGR: 18-2)
70182 Positional and Curvature Difference of Lamina Cribrosa According to the Baseline Intraocular Pressure in Primary Open-Angle Glaucoma: A Swept-Source Optical Coherence Tomography (SS-OCT) Study
Mari JM
PLoS ONE 2016; 11: e0162182 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Nagiel A
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70899 Association of Myopic Deformation of Optic Disc with Visual Field Progression in Paired Eyes with Open-Angle Glaucoma
Yoshitomi T
PLoS ONE 2017; 12: e0170733 (IGR: 18-2)
70397 Intra- and Inter-Rater Agreement of Anterior Lamina Cribrosa Depth Measurements Using Enhanced-Depth Imaging Optical Coherence Tomography
Marques-Neves C
Ophthalmic Research 2017; 57: 92-99 (IGR: 18-2)
70170 Real-Time Ultrasound Elastographic Features of Primary Open Angle Glaucoma
Taslipinar AG
Ultrasound quarterly 2016; 32: 333-337 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Simavli H
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70172 Reproducibility of optic disk evaluation in supine subjects with a Heidelberg Retina Tomograph II laser tomographic scanner
Nakamura-Kadohiro Y
Clinical Ophthalmology 2016; 10: 1617-1622 (IGR: 18-2)
70907 Discriminatory Power of Superficial Vessel Density and Prelaminar Vascular Flow Index in Eyes With Glaucoma and Ocular Hypertension and Normal Eyes
Chihara T
Investigative Ophthalmology and Visual Science 2017; 58: 690-697 (IGR: 18-2)
70106 Association of Myopic Optic Disc Deformation with Visual Field Defects in Paired Eyes with Open-Angle Glaucoma: A Cross-Sectional Study
Yoshitomi T
PLoS ONE 2016; 11: e0161961 (IGR: 18-2)
70268 Developing new automated alternation flicker using optic disc photography for the detection of glaucoma progression
Choi JJ
Eye 2017; 31: 119-126 (IGR: 18-2)
70753 Translaminar pressure in Caucasian normal tension glaucoma patients
Killer HE
Acta Ophthalmologica 2017; 95: e524-e531 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Belghith A
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70527 Peripapillary schisis in open-angle glaucoma
Nagar M
Eye 2017; 31: 499-502 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Yoon JY
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
69961 Alterations of the Lamina Cribrosa Are Associated with Peripapillary Retinoschisis in Glaucoma and Pachychoroid Spectrum Disease
Lee WK
Ophthalmology 2016; 123: 2066-2076 (IGR: 18-2)
70694 Asymmetrical Intraocular Pressures and Asymmetrical Papilloedema in Pseudotumor Cerebri Syndrome
Plant GT
Neuro-Ophthalmology 2016; 40: 292-296 (IGR: 18-2)
70521 Thirteen-Year Follow-up of Optic Disc Hemorrhages in the Ocular Hypertension Treatment Study
Gordon M
American Journal of Ophthalmology 2017; 174: 126-133 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Hermann MM
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Terasaki H
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Chen R
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70365 Comparison of Heidelberg Retina Tomograph-3 glaucoma probability score and Moorfields regression analysis of optic nerve head in glaucoma patients and healthy individuals
Yasar T
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 153-161 (IGR: 18-2)
70224 Bruch's Membrane Opening-Minimum Rim Width Assessment With Spectral-Domain Optical Coherence Tomography Performs Better Than Confocal Scanning Laser Ophthalmoscopy in Discriminating Early Glaucoma Patients From Control Subjects
Hoffmann EM
Journal of Glaucoma 2017; 26: 27-33 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Aung T
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70397 Intra- and Inter-Rater Agreement of Anterior Lamina Cribrosa Depth Measurements Using Enhanced-Depth Imaging Optical Coherence Tomography
Abegão Pinto L
Ophthalmic Research 2017; 57: 92-99 (IGR: 18-2)
70268 Developing new automated alternation flicker using optic disc photography for the detection of glaucoma progression
Lee M
Eye 2017; 31: 119-126 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Kang SY
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Tanaka M
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70170 Real-Time Ultrasound Elastographic Features of Primary Open Angle Glaucoma
Bozkurt S
Ultrasound quarterly 2016; 32: 333-337 (IGR: 18-2)
70334 Optic disc tilt direction affects regional visual field progression rates in myopic eyes with open-angle glaucoma
Kook MS
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 2267-2276 (IGR: 18-2)
70134 Effect of head tilt on repeatability of optic nerve head parameters using cirrus spectral-domain optical coherence tomography
Yip LW
International Journal of Ophthalmology 2016; 9: 1170-1175 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
LaRussa F
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Htoon HM
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Yaseri M
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70463 Vertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucoma
Araie M
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 197-205 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Lalane RA
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Yarmohammadi A
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
69791 Increased Global DNA Methylation and Decreased TGFβ1 Promoter Methylation in Glaucomatous Lamina Cribrosa Cells
Wallace DM
Journal of Glaucoma 2016; 25: e834-e842 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Que CJ
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70182 Positional and Curvature Difference of Lamina Cribrosa According to the Baseline Intraocular Pressure in Primary Open-Angle Glaucoma: A Swept-Source Optical Coherence Tomography (SS-OCT) Study
Park KH
PLoS ONE 2016; 11: e0162182 (IGR: 18-2)
70381 Optic Disc Characteristics and Visual Field Progression in Normal Tension Glaucoma Patients With Tilted Optic Discs
Kee C
Journal of Glaucoma 2016; 25: 901-907 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Dietlein T
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70521 Thirteen-Year Follow-up of Optic Disc Hemorrhages in the Ocular Hypertension Treatment Study
Kass M
American Journal of Ophthalmology 2017; 174: 126-133 (IGR: 18-2)
70250 Reduction of the Lamina Cribrosa Curvature After Trabeculectomy in Glaucoma
Girard MJ
Investigative Ophthalmology and Visual Science 2016; 57: 5006-5014 (IGR: 18-2)
70172 Reproducibility of optic disk evaluation in supine subjects with a Heidelberg Retina Tomograph II laser tomographic scanner
Tanaka J
Clinical Ophthalmology 2016; 10: 1617-1622 (IGR: 18-2)
70463 Vertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucoma
Yoneya S
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 197-205 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Box D
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Medeiros FA
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Guo R
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Azaripour E
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Kii Y
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Schwartz SD
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70521 Thirteen-Year Follow-up of Optic Disc Hemorrhages in the Ocular Hypertension Treatment Study
American Journal of Ophthalmology 2017; 174: 126-133 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Cursiefen C
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70250 Reduction of the Lamina Cribrosa Curvature After Trabeculectomy in Glaucoma
Mari JM
Investigative Ophthalmology and Visual Science 2016; 57: 5006-5014 (IGR: 18-2)
70170 Real-Time Ultrasound Elastographic Features of Primary Open Angle Glaucoma
Gumus M
Ultrasound quarterly 2016; 32: 333-337 (IGR: 18-2)
70172 Reproducibility of optic disk evaluation in supine subjects with a Heidelberg Retina Tomograph II laser tomographic scanner
Kiuchi Y
Clinical Ophthalmology 2016; 10: 1617-1622 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Park SB
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Goh JC
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Sharma S
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Khoueir Z
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70177 Optic Nerve Head Morphology in Nonarteritic Anterior Ischemic Optic Neuropathy Compared to Open-Angle Glaucoma
Moghimi S
Investigative Ophthalmology and Visual Science 2016; 57: 4632-4640 (IGR: 18-2)
70374 Deformation of Optic Nerve Head and Peripapillary Tissues by Horizontal Duction
Demer JL
American Journal of Ophthalmology 2017; 174: 85-94 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Diniz-Filho A
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Strouthidis NG
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70531 Optic disc and peripapillary retinal nerve fiber layer characteristics associated with glaucomatous optic disc in young myopia
Koo HJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2017; 255: 591-598 (IGR: 18-2)
70732 Novel Bruch's Membrane Opening Minimum Rim Area Equalizes Disc Size Dependency and Offers High Diagnostic Power for Glaucoma
Heindl LM
Investigative Ophthalmology and Visual Science 2016; 57: 6596-6603 (IGR: 18-2)
70377 Correlations Between Retinal Nerve Fiber Layer Thickness and Axial Length, Peripapillary Retinal Tilt, Optic Disc Size, and Retinal Artery Position in Healthy Eyes
Nakao K
Journal of Glaucoma 2017; 26: 34-40 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Nongpiur ME
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Owsley C
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
de Boer J
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Saunders LJ
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70509 Comparison of Bruch's Membrane Opening Minimum Rim Width Among Those With Normal Ocular Health by Race
Girkin CA
American Journal of Ophthalmology 2017; 174: 113-118 (IGR: 18-2)
70661 Verification of a virtual fields method to extract the mechanical properties of human optic nerve head tissues in vivo
Girard MJ
Biomechanics and modeling in mechanobiology 2017; 16: 871-887 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Cheng CY; Aung T
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Yousefi S
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70401 Comprehensive Three-Dimensional Analysis of the Neuroretinal Rim in Glaucoma Using High-Density Spectral-Domain Optical Coherence Tomography Volume Scans
Chen TC
Investigative Ophthalmology and Visual Science 2016; 57: 5498-5508 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Strouthidis NG
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
70149 Optical Coherence Tomography Angiography Vessel Density in Glaucomatous Eyes with Focal Lamina Cribrosa Defects
Weinreb RN
Ophthalmology 2016; 123: 2309-2317 (IGR: 18-2)
70246 Shape Changes of the Anterior Lamina Cribrosa in Normal, Ocular Hypertensive, and Glaucomatous Eyes Following Acute Intraocular Pressure Elevation
Girard MJ
Investigative Ophthalmology and Visual Science 2016; 57: 4869-4877 (IGR: 18-2)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Li D
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
68941 Identification and localization of lamina cribrosa cells in the human optic nerve head
Tovar-Vidales T
Experimental Eye Research 2016; 147: 94-97 (IGR: 18-1)
69423 Relationship between corneal hysteresis and lamina cribrosa displacement after medical reduction of intraocular pressure
Lanzagorta-Aresti A
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Shieh E
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Zhavoronkov A
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Dias DT
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Moore NA
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69284 Lamina depth and thickness correlate with glaucoma severity
Kim M
Indian Journal of Ophthalmology 2016; 64: 358-363 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Wang B
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Fortune B
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Belghith A
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69229 Anterior Lamina Cribrosa Surface Depth in Open-Angle Glaucoma: Relationship with the Position of the Central Retinal Vessel Trunk
Oh BL
PLoS ONE 2016; 11: e0158443 (IGR: 18-1)
69487 Experimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury
Fortune B
Investigative Ophthalmology and Visual Science 2016; 57: 4403-4411 (IGR: 18-1)
68759 The Optic Nerve Head in Primary Open-Angle Glaucoma Eyes With High Myopia: Characteristics and Association With Visual Field Defects
Chen LW
Journal of Glaucoma 2016; 25: e569-e575 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Shiga Y
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69266 Analysis of morphologic changes of lamina cribrosa in primary open angle glaucoma using enhanced depth imaging optical coherence tomography
Li L
Chinese Journal of Ophthalmology 2016; 52: 422-428 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Mariacher S
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Gmeiner JM
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)
69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Yun IS
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Sung MS
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)
69160 Retinal Nerve Fiber Layer Damage in Young Myopic Eyes With Optic Disc Torsion and Glaucomatous Hemifield Defect
Lee JE
Journal of Glaucoma 2017; 26: 77-86 (IGR: 18-1)
69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Lee EJ
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)
69048 Variance components in confocal scanning laser tomography measurements of neuro-retinal rim area and the effect of repeated measurements on the power to detect loss over time
Sandberg Melin C
Acta Ophthalmologica 2016; 94: 705-711 (IGR: 18-1)
69490 Challenges In Early Glaucoma Detection
Dervisevic E
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)
69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Enders P
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Ivers KM
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Agrawal A
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69267 Microcirculation of optic nerve head and glaucoma
Zhang SH
Chinese Journal of Ophthalmology 2016; 52: 466-470 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Kucukevcilioglu M
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69383 Age-related posterior ciliary muscle restriction - A link between trabecular meshwork and optic nerve head pathophysiology
Croft MA
Experimental Eye Research 2017; 158: 187-189 (IGR: 18-1)
68987 Anterior lamina cribrosa surface position in idiopathic intracranial hypertension and glaucoma
Villarruel JM
European Journal of Ophthalmology 2016; 0: 27274186 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Sharpe GP
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69238 Lamina Cribrosa Microarchitecture in Monkey Early Experimental Glaucoma: Global Change
Reynaud J
Investigative Ophthalmology and Visual Science 2016; 57: 3451-3469 (IGR: 18-1)
69210 What is a typical optic nerve head?
Voorhees AP
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Taniguchi EV
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Schrems WA
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)
69487 Experimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury
Reynaud J
Investigative Ophthalmology and Visual Science 2016; 57: 4403-4411 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Lucy KA
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
68987 Anterior lamina cribrosa surface position in idiopathic intracranial hypertension and glaucoma
Li XQ
European Journal of Ophthalmology 2016; 0: 27274186 (IGR: 18-1)
69229 Anterior Lamina Cribrosa Surface Depth in Open-Angle Glaucoma: Relationship with the Position of the Central Retinal Vessel Trunk
Lee EJ
PLoS ONE 2016; 11: e0158443 (IGR: 18-1)
69210 What is a typical optic nerve head?
Grimm JL
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Kang YS
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)
69383 Age-related posterior ciliary muscle restriction - A link between trabecular meshwork and optic nerve head pathophysiology
Lütjen-Drecoll E
Experimental Eye Research 2017; 158: 187-189 (IGR: 18-1)
68941 Identification and localization of lamina cribrosa cells in the human optic nerve head
Wordinger RJ
Experimental Eye Research 2016; 147: 94-97 (IGR: 18-1)
69267 Microcirculation of optic nerve head and glaucoma
Zhao JL
Chinese Journal of Ophthalmology 2016; 52: 466-470 (IGR: 18-1)
69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Schaub F
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Medeiros FA
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Hardin C
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Lee KM
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Baxi J
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69048 Variance components in confocal scanning laser tomography measurements of neuro-retinal rim area and the effect of repeated measurements on the power to detect loss over time
Nuija E
Acta Ophthalmologica 2016; 94: 705-711 (IGR: 18-1)
69490 Challenges In Early Glaucoma Detection
Pavljasevic S
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Danthurebandara VM
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
68759 The Optic Nerve Head in Primary Open-Angle Glaucoma Eyes With High Myopia: Characteristics and Association With Visual Field Defects
Lan YW
Journal of Glaucoma 2016; 25: e569-e575 (IGR: 18-1)
69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Rho S
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69238 Lamina Cribrosa Microarchitecture in Monkey Early Experimental Glaucoma: Global Change
Lockwood H
Investigative Ophthalmology and Visual Science 2016; 57: 3451-3469 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Hipp S
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69284 Lamina depth and thickness correlate with glaucoma severity
Bojikian KD
Indian Journal of Ophthalmology 2016; 64: 358-363 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Kunikata H
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69423 Relationship between corneal hysteresis and lamina cribrosa displacement after medical reduction of intraocular pressure
Perez-Lopez M
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Kanherkar RR
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Harris A
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Ushida M
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Yang H
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Lee R
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69266 Analysis of morphologic changes of lamina cribrosa in primary open angle glaucoma using enhanced depth imaging optical coherence tomography
Bian AL
Chinese Journal of Ophthalmology 2016; 52: 422-428 (IGR: 18-1)
69160 Retinal Nerve Fiber Layer Damage in Young Myopic Eyes With Optic Disc Torsion and Glaucomatous Hemifield Defect
Lee JY
Journal of Glaucoma 2017; 26: 77-86 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Ayyildiz O
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Bowd C
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Izumchenko E
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69267 Microcirculation of optic nerve head and glaucoma
Wu C
Chinese Journal of Ophthalmology 2016; 52: 466-470 (IGR: 18-1)
68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Heo H
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Wirthky R
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Schuman JS
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69423 Relationship between corneal hysteresis and lamina cribrosa displacement after medical reduction of intraocular pressure
Palacios-Pozo E
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Calhoun W
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69160 Retinal Nerve Fiber Layer Damage in Young Myopic Eyes With Optic Disc Torsion and Glaucomatous Hemifield Defect
Kook MS
Journal of Glaucoma 2017; 26: 77-86 (IGR: 18-1)
69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Adler W
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Que C
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Vianna JR
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Sousa MC
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Aykas S
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Cai S
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69229 Anterior Lamina Cribrosa Surface Depth in Open-Angle Glaucoma: Relationship with the Position of the Central Retinal Vessel Trunk
Kim H
PLoS ONE 2016; 11: e0158443 (IGR: 18-1)
69238 Lamina Cribrosa Microarchitecture in Monkey Early Experimental Glaucoma: Global Change
Gardiner SK
Investigative Ophthalmology and Visual Science 2016; 57: 3451-3469 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Gardiner SK
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Aizawa N
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69383 Age-related posterior ciliary muscle restriction - A link between trabecular meshwork and optic nerve head pathophysiology
Kaufman PL
Experimental Eye Research 2017; 158: 187-189 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Wentz S
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
68941 Identification and localization of lamina cribrosa cells in the human optic nerve head
Clark AF
Experimental Eye Research 2016; 147: 94-97 (IGR: 18-1)
69266 Analysis of morphologic changes of lamina cribrosa in primary open angle glaucoma using enhanced depth imaging optical coherence tomography
Cheng GW
Chinese Journal of Ophthalmology 2016; 52: 422-428 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Reynaud J
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
68987 Anterior lamina cribrosa surface position in idiopathic intracranial hypertension and glaucoma
Bach-Holm D
European Journal of Ophthalmology 2016; 0: 27274186 (IGR: 18-1)
69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Jang S
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69048 Variance components in confocal scanning laser tomography measurements of neuro-retinal rim area and the effect of repeated measurements on the power to detect loss over time
Alm A
Acta Ophthalmologica 2016; 94: 705-711 (IGR: 18-1)
69487 Experimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury
Hardin C
Investigative Ophthalmology and Visual Science 2016; 57: 4403-4411 (IGR: 18-1)
69210 What is a typical optic nerve head?
Bilonick RA
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
68759 The Optic Nerve Head in Primary Open-Angle Glaucoma Eyes With High Myopia: Characteristics and Association With Visual Field Defects
Hsieh JW
Journal of Glaucoma 2016; 25: e569-e575 (IGR: 18-1)
69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Mardin CY
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)
69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Kim H
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)
69490 Challenges In Early Glaucoma Detection
Dervisevic A
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)
69284 Lamina depth and thickness correlate with glaucoma severity
Slabaugh MA
Indian Journal of Ophthalmology 2016; 64: 358-363 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Cull G
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Chen CL
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Alotaibi N
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Nikoluk R
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Kiyota N
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69266 Analysis of morphologic changes of lamina cribrosa in primary open angle glaucoma using enhanced depth imaging optical coherence tomography
Zhou Q
Chinese Journal of Ophthalmology 2016; 52: 422-428 (IGR: 18-1)
69479 Glaucoma Diagnostic Ability of the New Circumpapillary Retinal Nerve Fiber Layer Thickness Analysis Based on Bruch's Membrane Opening
Kim TW
Investigative Ophthalmology and Visual Science 2016; 57: 4194-4204 (IGR: 18-1)
69238 Lamina Cribrosa Microarchitecture in Monkey Early Experimental Glaucoma: Global Change
Williams G
Investigative Ophthalmology and Visual Science 2016; 57: 3451-3469 (IGR: 18-1)
69048 Variance components in confocal scanning laser tomography measurements of neuro-retinal rim area and the effect of repeated measurements on the power to detect loss over time
Yu Z
Acta Ophthalmologica 2016; 94: 705-711 (IGR: 18-1)
69490 Challenges In Early Glaucoma Detection
Kasumovic SS
Medicinski arhiv 2016; 70: 203-207 (IGR: 18-1)
69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Ahn J
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69284 Lamina depth and thickness correlate with glaucoma severity
Ding L
Indian Journal of Ophthalmology 2016; 64: 358-363 (IGR: 18-1)
68987 Anterior lamina cribrosa surface position in idiopathic intracranial hypertension and glaucoma
Hamann S
European Journal of Ophthalmology 2016; 0: 27274186 (IGR: 18-1)
69423 Relationship between corneal hysteresis and lamina cribrosa displacement after medical reduction of intraocular pressure
Davo-Cabrera J
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69210 What is a typical optic nerve head?
Kagemann L
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Gokce G
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Srinivasan V
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Liebmann JM
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Teka M
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69487 Experimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury
Wang L
Investigative Ophthalmology and Visual Science 2016; 57: 4403-4411 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Sigal IA
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Laemmer R
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Verticchio Vercellin AC
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Dorairaj S
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
68923 Optic Disc Rotation as a Clue for Predicting Visual Field Progression in Myopic Normal-Tension Glaucoma
Park SW
Ophthalmology 2016; 123: 1484-1493 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Paschalis EI
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69229 Anterior Lamina Cribrosa Surface Depth in Open-Angle Glaucoma: Relationship with the Position of the Central Retinal Vessel Trunk
Girard MJ
PLoS ONE 2016; 11: e0158443 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Blumenstock G
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Qin L
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Choi JJ
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69210 What is a typical optic nerve head?
Ishikawa H
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Kruse FE
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Reyes L
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Guo R
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69284 Lamina depth and thickness correlate with glaucoma severity
Chen PP
Indian Journal of Ophthalmology 2016; 64: 358-363 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Parekh P
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Hermann MM
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Ishikawa H
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Cantor C
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69229 Anterior Lamina Cribrosa Surface Depth in Open-Angle Glaucoma: Relationship with the Position of the Central Retinal Vessel Trunk
Mari JM
PLoS ONE 2016; 11: e0158443 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Hutchison DM
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Koylu MT
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Girkin CA
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Wang H
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69238 Lamina Cribrosa Microarchitecture in Monkey Early Experimental Glaucoma: Global Change
Yang H
Investigative Ophthalmology and Visual Science 2016; 57: 3451-3469 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Bartz-Schmidt KU
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Bilonick RA
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Yang H
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Maiya Y
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69487 Experimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury
Sigal IA
Investigative Ophthalmology and Visual Science 2016; 57: 4403-4411 (IGR: 18-1)
69048 Variance components in confocal scanning laser tomography measurements of neuro-retinal rim area and the effect of repeated measurements on the power to detect loss over time
Söderberg PG
Acta Ophthalmologica 2016; 94: 705-711 (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Biteli LG
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69238 Lamina Cribrosa Microarchitecture in Monkey Early Experimental Glaucoma: Global Change
Burgoyne CF
Investigative Ophthalmology and Visual Science 2016; 57: 3451-3469 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Ziemssen F
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69487 Experimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury
Burgoyne CF
Investigative Ophthalmology and Visual Science 2016; 57: 4403-4411 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Belliveau AC
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Manaye K
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Fortune B
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Ozgonul C
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Gross J
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Miller JB
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Kagemann L
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Wang L
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
69210 What is a typical optic nerve head?
Schuman JS
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Leite MT
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69229 Anterior Lamina Cribrosa Surface Depth in Open-Angle Glaucoma: Relationship with the Position of the Central Retinal Vessel Trunk
Kim TW
PLoS ONE 2016; 11: e0158443 (IGR: 18-1)
69476 Comparison of Bruch's Membrane Opening Minimum Rim Width and Peripapillary Retinal Nerve Fiber Layer Thickness in Early Glaucoma Assessment
Schrems-Hoesl LM
Investigative Ophthalmology and Visual Science 2016; 57: OCT575-84 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Weinreb RN
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Schuman JS
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
DeLuna R
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69335 Agreement of New Automated Matched Alternation Flicker using Undilated Fundus Photography for the Detection of Glaucomatous Structural Change
Lee M
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69361 The use of Bruch's membrane opening-based optical coherence tomography of the optic nerve head for glaucoma detection in microdiscs
Heindl LM
British Journal of Ophthalmology 2017; 101: 530-535 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Yokoyama Y
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69313 In Vivo Detection of Laminar and Peripapillary Scleral Hypercompliance in Early Monkey Experimental Glaucoma
Burgoyne CF
Investigative Ophthalmology and Visual Science 2016; 57: OCT388-403 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Ozge G
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69314 Comparing Optic Nerve Head Rim Width, Rim Area, and Peripapillary Retinal Nerve Fiber Layer Thickness to Axon Count in Experimental Glaucoma
Burgoyne CF
Investigative Ophthalmology and Visual Science 2016; 57: OCT404-12 (IGR: 18-1)
69386 Structural Change Can Be Detected in Advanced-Glaucoma Eyes
Zangwill LM
Investigative Ophthalmology and Visual Science 2016; 57: OCT511-8 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Wollstein G
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Turalba AV
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Omodaka K
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Schiefer U
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Kostanyan T
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Shuba LM
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Paranhos A
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Pandit S
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Sidransky D
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69210 What is a typical optic nerve head?
Wollstein G
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Hussain RM
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Simavli H
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69210 What is a typical optic nerve head?
Sigal IA
Experimental Eye Research 2016; 149: 40-47 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Takahashi H
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Voykov B
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69357 Eyes with Suspicious Appearance of the Optic Disc and Normal Intraocular Pressure: Using Clinical and Epidemiological Characteristics to Differentiate Those with and without Glaucoma
Prata TS
PLoS ONE 2016; 11: e0158983 (IGR: 18-1)
69315 Optic Nerve Head Measurements With Optical Coherence Tomography: A Phantom-Based Study Reveals Differences Among Clinical Devices
Hammer DX
Investigative Ophthalmology and Visual Science 2016; 57: OCT413-20 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Greenstein SH
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
West MD
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Mumcuoglu T
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Lu C
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Thieme C
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69353 Optic Disc Hemorrhages and Laminar Disinsertions in Glaucoma
Nicolela MT; Chauhan BC
Ophthalmology 2016; 123: 1949-1956 (IGR: 18-1)
69154 Baseline retrobulbar blood flow is associated with both functional and structural glaucomatous progression after 4 years
Siesky B
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Seevaratnam R
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Liu J
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Makarev E
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69179 Morphometric Optic Nerve Head Analysis in Glaucoma Patients: A Comparison between the Simultaneous Nonmydriatic Stereoscopic Fundus Camera (Kowa Nonmyd WX3D) and the Heidelberg Scanning Laser Ophthalmoscope (HRT III)
Januschowski K
Journal of Ophthalmology 2016; 2016: 4764857 (IGR: 18-1)
69221 Retinal Nerve Fiber Layer and Peripapillary Choroidal Thicknesses in Non-Glaucomatous Unilateral Optic Atrophy Compared with Unilateral Advanced Pseudoexfoliative Glaucoma
Yumusak E
Current Eye Research 2016; 0: 1-5 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Brauner S
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Yasui T
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Pasquale LR
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69029 Pro-fibrotic pathway activation in trabecular meshwork and lamina cribrosa is the main driving force of glaucoma
Csoka AB
Cell cycle (Georgetown, Tex.) 2016; 15: 1643-1652 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Tsikata E
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Grulkowski I
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Kato K
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Fujimoto JG
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
de Boer J
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Iwase A
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69155 Comparison of swept-source and enhanced depth imaging spectral-domain optical coherence tomography in quantitative characterisation of the optic nerve head
Shen LQ
British Journal of Ophthalmology 2016; 0: (IGR: 18-1)
69225 Diagnostic Performance of a Novel Three-Dimensional Neuroretinal Rim Parameter for Glaucoma Using High-Density Volume Scans
Chen TC
American Journal of Ophthalmology 2016; 169: 168-178 (IGR: 18-1)
68924 Optic Nerve Head Blood Flow, as Measured by Laser Speckle Flowgraphy, Is Significantly Reduced in Preperimetric Glaucoma
Nakazawa T
Current Eye Research 2016; 0: 1-7 (IGR: 18-1)
69136 Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk
Ishikawa H; Wollstein G
Investigative Ophthalmology and Visual Science 2016; 57: 3088-3092 (IGR: 18-1)
66684 In vivo characterization of lamina cribrosa pore morphology in primary open-angle glaucoma
Zwillinger S
Journal Français d'Ophtalmologie 2016; 39: 265-271 (IGR: 17-4)
66823 Comparison of the corneal biomechanical properties, optic nerve head topographic parameters, and retinal nerve fiber layer thickness measurements in diabetic and non-diabetic primary open-angle glaucoma
Akkaya S
International Ophthalmology 2016; 36: 727-736 (IGR: 17-4)
67098 Optic nerve head parameters of high-definition optical coherence tomography and Heidelberg retina tomogram in perimetric and preperimetric glaucoma
Begum VU
Indian Journal of Ophthalmology 2016; 64: 277-284 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Chen CL
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67613 Lamina Cribrosa Depth is Associated With the Cup-to-Disc Ratio in Eyes With Large Optic Disc Cupping and Cup-to-Disc Ratio Asymmetry
Jung KI
Journal of Glaucoma 2016; 25: e536-e545 (IGR: 17-4)
67301 Comparison of the Deep Optic Nerve Structures in Superior Segmental Optic Nerve Hypoplasia and Primary Open-Angle Glaucoma
Lee EJ
Journal of Glaucoma 2016; 25: 648-656 (IGR: 17-4)
66713 Effect of Focal Lamina Cribrosa Defect on Disc Hemorrhage Area in Glaucoma
Kim YK
Investigative Ophthalmology and Visual Science 2016; 57: 899-907 (IGR: 17-4)
67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Lee EJ
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Kim YW
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Amini N
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Hou R
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
66795 Association between Corneal Deformation Amplitude and Posterior Pole Profiles in Primary Open-Angle Glaucoma
Jung Y
Ophthalmology 2016; 123: 959-964 (IGR: 17-4)
66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Lévêque PM
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Ng DS
Eye 2016; 30: 901-916 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Lam J
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Omodaka K
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Wang X
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Girard MJ
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Schaefer JL
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Skaat A
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Nakano E
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67495 Neuroretinal rim in non-glaucomatous large optic nerve heads: a comparison of confocal scanning laser tomography and spectral domain optical coherence tomography
Enders P
British Journal of Ophthalmology 2017; 101: 138-142 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Kim DW
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Zhang AY
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Coudrillier B
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Li L
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Miraftabi A
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Lukowski ZL
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
De Moraes CG
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Chan G
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Zéboulon P
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Hata M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Bian A
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)
67098 Optic nerve head parameters of high-definition optical coherence tomography and Heidelberg retina tomogram in perimetric and preperimetric glaucoma
Addepalli UK
Indian Journal of Ophthalmology 2016; 64: 277-284 (IGR: 17-4)
67613 Lamina Cribrosa Depth is Associated With the Cup-to-Disc Ratio in Eyes With Large Optic Disc Cupping and Cup-to-Disc Ratio Asymmetry
Jeon S
Journal of Glaucoma 2016; 25: e536-e545 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Zhang Z
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Choi YJ
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Lu L
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Bojikian KD
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67495 Neuroretinal rim in non-glaucomatous large optic nerve heads: a comparison of confocal scanning laser tomography and spectral domain optical coherence tomography
Schaub F
British Journal of Ophthalmology 2017; 101: 138-142 (IGR: 17-4)
66684 In vivo characterization of lamina cribrosa pore morphology in primary open-angle glaucoma
Paques M
Journal Français d'Ophtalmologie 2016; 39: 265-271 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Campbell IC
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Rumpel H
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Jeoung JW
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Cheung CY
Eye 2016; 30: 901-916 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Jeoung JW
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
66713 Effect of Focal Lamina Cribrosa Defect on Disc Hemorrhage Area in Glaucoma
Jeoung JW
Investigative Ophthalmology and Visual Science 2016; 57: 899-907 (IGR: 17-4)
66823 Comparison of the corneal biomechanical properties, optic nerve head topographic parameters, and retinal nerve fiber layer thickness measurements in diabetic and non-diabetic primary open-angle glaucoma
Can E
International Ophthalmology 2016; 36: 727-736 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Takahashi S
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Beotra MR
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67301 Comparison of the Deep Optic Nerve Structures in Superior Segmental Optic Nerve Hypoplasia and Primary Open-Angle Glaucoma
Lee KM
Journal of Glaucoma 2016; 25: 648-656 (IGR: 17-4)
66795 Association between Corneal Deformation Amplitude and Posterior Pole Profiles in Primary Open-Angle Glaucoma
Park HY
Ophthalmology 2016; 123: 959-964 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Lim WE
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Kim DW
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Oishi A
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Cheng G
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Matsumoto A
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Kim YW
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Yang D
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67098 Optic nerve head parameters of high-definition optical coherence tomography and Heidelberg retina tomogram in perimetric and preperimetric glaucoma
Senthil S
Indian Journal of Ophthalmology 2016; 64: 277-284 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Bowd C
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
66684 In vivo characterization of lamina cribrosa pore morphology in primary open-angle glaucoma
Safran B
Journal Français d'Ophtalmologie 2016; 39: 265-271 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Gupta D
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67301 Comparison of the Deep Optic Nerve Structures in Superior Segmental Optic Nerve Hypoplasia and Primary Open-Angle Glaucoma
Lee SH
Journal of Glaucoma 2016; 25: 648-656 (IGR: 17-4)
66713 Effect of Focal Lamina Cribrosa Defect on Disc Hemorrhage Area in Glaucoma
Park KH
Investigative Ophthalmology and Visual Science 2016; 57: 899-907 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Read AT
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
66823 Comparison of the corneal biomechanical properties, optic nerve head topographic parameters, and retinal nerve fiber layer thickness measurements in diabetic and non-diabetic primary open-angle glaucoma
Öztürk F
International Ophthalmology 2016; 36: 727-736 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Chin KS
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67495 Neuroretinal rim in non-glaucomatous large optic nerve heads: a comparison of confocal scanning laser tomography and spectral domain optical coherence tomography
Hermann MM
British Journal of Ophthalmology 2017; 101: 138-142 (IGR: 17-4)
67613 Lamina Cribrosa Depth is Associated With the Cup-to-Disc Ratio in Eyes With Large Optic Disc Cupping and Cup-to-Disc Ratio Asymmetry
Park CK
Journal of Glaucoma 2016; 25: e536-e545 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Meyer AM
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
66795 Association between Corneal Deformation Amplitude and Posterior Pole Profiles in Primary Open-Angle Glaucoma
Park CK
Ophthalmology 2016; 123: 959-964 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Henry S
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Kim TW
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Ali M
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Luk FO
Eye 2016; 30: 901-916 (IGR: 17-4)
66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Brasnu E
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Morgan WH
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Sandhu A
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Mohamed S
Eye 2016; 30: 901-916 (IGR: 17-4)
67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Hwang JM
PLoS ONE 2016; 11: e0150242 (IGR: 17-4)
66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Baudouin C
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Leoncavallo AJ
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Hazelton M
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Wen JC
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Baskaran M
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67495 Neuroretinal rim in non-glaucomatous large optic nerve heads: a comparison of confocal scanning laser tomography and spectral domain optical coherence tomography
Cursiefen C
British Journal of Ophthalmology 2017; 101: 138-142 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Chung N
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Wang H
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Miyamoto K
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67220 Posterior displacement of the lamina cribrosa in normal-tension and high-tension glaucoma
Zhou Q
Acta Ophthalmologica 2016; 94: e492-e500 (IGR: 17-4)
67098 Optic nerve head parameters of high-definition optical coherence tomography and Heidelberg retina tomogram in perimetric and preperimetric glaucoma
Garudadri CS
Indian Journal of Ophthalmology 2016; 64: 277-284 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Maekawa S
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Rutnin N
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67301 Comparison of the Deep Optic Nerve Structures in Superior Segmental Optic Nerve Hypoplasia and Primary Open-Angle Glaucoma
Kim TW
Journal of Glaucoma 2016; 25: 648-656 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Geraldes DM
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Girard MJ
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
66684 In vivo characterization of lamina cribrosa pore morphology in primary open-angle glaucoma
Baudouin C
Journal Français d'Ophtalmologie 2016; 39: 265-271 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Girard MJ
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Sample PA
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67098 Optic nerve head parameters of high-definition optical coherence tomography and Heidelberg retina tomogram in perimetric and preperimetric glaucoma
Rao HL
Indian Journal of Ophthalmology 2016; 64: 277-284 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Faria BM
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Girkin CA
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67495 Neuroretinal rim in non-glaucomatous large optic nerve heads: a comparison of confocal scanning laser tomography and spectral domain optical coherence tomography
Heindl LM
British Journal of Ophthalmology 2017; 101: 138-142 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Kikawa T
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Brelen ME
Eye 2016; 30: 901-916 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Vo NT
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Clemo M
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Mari JM
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Greer A
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Uji A
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Perera SA
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Mari JM
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Nowroozizadeh S
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
66670 Optic Disc Vascularization in Glaucoma: Value of Spectral-Domain Optical Coherence Tomography Angiography
Labbé A
Journal of Ophthalmology 2016; 2016: 6956717 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Betz-Stablein B
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Zhang Q
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Chen W; Li Z
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Feola A
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Park KH
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Nongpiur ME
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Himori N
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Cringle SJ
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Nikita E
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Guzel H
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Kim YK
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Xin C
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Medeiros FA
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Caprioli J
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Yam JC
Eye 2016; 30: 901-916 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Martorana GM
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Fujimoto M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Aung T
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Kamal DS
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Kono R
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Sang J
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
66655 The Relationship of the Clinical Disc Margin and Bruch's Membrane Opening in Normal and Glaucoma Subjects
Nouri-Mahdavi K
Investigative Ophthalmology and Visual Science 2016; 57: 1468-1475 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Liang L
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Park KH
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Miyata M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Zou B
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Takahashi H
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67278 Clinical Assessment of Lamina Cribrosa Curvature in Eyes with Primary Open-Angle Glaucoma
Kim DM
PLoS ONE 2016; 11: e0150260 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Mulvihill J
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Tsang CW
Eye 2016; 30: 901-916 (IGR: 17-4)
66768 Structural characteristics of the optic nerve head influencing human retinal venous pulsations
Yu DY
Experimental Eye Research 2016; 145: 341-346 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Ritch R
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Maruyama K
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Mudumbai RC
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Milea D
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Weinreb RN
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Albon J
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67502 Quantitative comparison of disc rim color in optic nerve atrophy of compressive optic neuropathy and glaucomatous optic neuropathy
Yoshimura N
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 1609-1616 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Papadopoulos M
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Martinez P
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67587 Advances of optical coherence tomography in myopia and pathologic myopia
Lai TY
Eye 2016; 30: 901-916 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Shuster JJ
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67171 Prelamina and Lamina Cribrosa in Glaucoma Patients With Unilateral Visual Field Loss
Kim DM
Investigative Ophthalmology and Visual Science 2016; 57: 1662-1670 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Liu S
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Kunikata H
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Mari JM
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Tawfik M
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Johnstone MA
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Cao Y
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Abel RL
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Zangwill LM
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67187 Comparing Glaucomatous Disc Change Using Stereo Disc Viewing and the MatchedFlicker Software Program in Ophthalmologists-in-Training
Sherwood MB
American Journal of Ophthalmology 2016; 167: 88-95 (IGR: 17-4)
67455 Finite Element Analysis Predicts Large Optic Nerve Head Strains During Horizontal Eye Movements
Girard MJ
Investigative Ophthalmology and Visual Science 2016; 57: 2452-2462 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Liebmann JM
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67467 Disc-damage Likelihood Scale (DDLS) as a Clinical Indicator of the Presence of a Relative Afferent Pupillary Defect (RAPD)
Spaeth GL
Journal of Glaucoma 2016; 25: e910-e916 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Akiba M
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Chen PP
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67438 Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa
Ethier CR
Investigative Ophthalmology and Visual Science 2016; 57: 2666-2677 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Aung T
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Xie X
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67497 African Descent and Glaucoma Evaluation Study (ADAGES): Racial Differences in Optic Disc Hemorrhage and Beta-Zone Parapapillary Atrophy
Ophthalmology 2016; 123: 1476-1483 (IGR: 17-4)
67244 In Vivo 3-Dimensional Strain Mapping of the Optic Nerve Head Following Intraocular Pressure Lowering by Trabeculectomy
Strouthidis NG
Ophthalmology 2016; 123: 1190-1200 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Ren R
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
67522 Clinical Factors Associated with Lamina Cribrosa Thickness in Patients with Glaucoma, as Measured with Swept Source Optical Coherence Tomography
Nakazawa T
PLoS ONE 2016; 11: e0153707 (IGR: 17-4)
67107 Optic nerve head perfusion in normal eyes and eyes with glaucoma using optical coherence tomography-based microangiography
Wang RK
Quantitative imaging in medicine and surgery 2016; 6: 125-133 (IGR: 17-4)
67346 Intracranial pressure (ICP) and optic nerve subarachnoid space pressure (ONSP) correlation in the optic nerve chamber: the Beijing Intracranial and Intraocular Pressure (iCOP) study
Zhang Y; Sabel BA; Wang N
Brain Research 2016; 1635: 201-208 (IGR: 17-4)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Hasegawa T
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Saenz-Frances F
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
66344 The role of lamina cribrosa cells in optic nerve head fibrosis in glaucoma
Wallace DM
Experimental Eye Research 2016; 142: 102-109 (IGR: 17-3)
65908 Influence of optic disc leakage on objective optic nerve head assessment in patients with uveitis
Heinz C
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 361-364 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Malik R
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Pahlitzsch M
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Hammel N
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66488 The Characteristics of Lamina Cribrosa Defects in Myopic Eyes With and Without Open-Angle Glaucoma
Han JC
Investigative Ophthalmology and Visual Science 2016; 57: 486-494 (IGR: 17-3)
65915 Automated Detection of Glaucoma From Topographic Features of the Optic Nerve Head in Color Fundus Photographs
Chakrabarty L
Journal of Glaucoma 2016; 25: 590-597 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Danthurebandara VM
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66320 Fast circulation of cerebrospinal fluid: an alternative perspective on the protective role of high intracranial pressure in ocular hypertension
Wostyn P
Clinical and Experimental Optometry 2016; 99: 213-218 (IGR: 17-3)
66289 Translamina Cribrosa Pressure Difference as Potential Element in the Pathogenesis of Glaucomatous Optic Neuropathy
Jonas JB
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 5-10 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Coudrillier B
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Pavlatos E
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
66307 Optic nerve head and intraocular pressure in the guinea pig eye
Ostrin LA
Experimental Eye Research 2015; 146: 7-16 (IGR: 17-3)
65998 Lamina cribrosa defects in eyes with glaucomatous disc haemorrhage
Kim YK
Acta Ophthalmologica 2016; 94: e468-e473 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Lee SH
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Yang H
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Kitaoka Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Siaudvytyte L
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Akagi T
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
66307 Optic nerve head and intraocular pressure in the guinea pig eye
Wildsoet CF
Experimental Eye Research 2015; 146: 7-16 (IGR: 17-3)
65998 Lamina cribrosa defects in eyes with glaucomatous disc haemorrhage
Park KH
Acta Ophthalmologica 2016; 94: e468-e473 (IGR: 17-3)
65915 Automated Detection of Glaucoma From Topographic Features of the Optic Nerve Head in Color Fundus Photographs
Joshi GD
Journal of Glaucoma 2016; 25: 590-597 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Geraldes D
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Ren R
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Tanito M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Januleviciene I
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)
66488 The Characteristics of Lamina Cribrosa Defects in Myopic Eyes With and Without Open-Angle Glaucoma
Cho SH
Investigative Ophthalmology and Visual Science 2016; 57: 486-494 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Belghith A
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66344 The role of lamina cribrosa cells in optic nerve head fibrosis in glaucoma
O'brien CJ
Experimental Eye Research 2016; 142: 102-109 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Vianna JR
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66289 Translamina Cribrosa Pressure Difference as Potential Element in the Pathogenesis of Glaucomatous Optic Neuropathy
Wang N
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 5-10 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Perez BC
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
66320 Fast circulation of cerebrospinal fluid: an alternative perspective on the protective role of high intracranial pressure in ocular hypertension
De Groot V
Clinical and Experimental Optometry 2016; 99: 213-218 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Torun N
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
65908 Influence of optic disc leakage on objective optic nerve head assessment in patients with uveitis
Kogelboom K
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 361-364 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Kwak SW
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
O'Leary N
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Jañez L
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
66488 The Characteristics of Lamina Cribrosa Defects in Myopic Eyes With and Without Open-Angle Glaucoma
Sohn DY
Investigative Ophthalmology and Visual Science 2016; 57: 486-494 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Morris HJ
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Erb C
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Bowd C
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Yokoyama Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
66289 Translamina Cribrosa Pressure Difference as Potential Element in the Pathogenesis of Glaucomatous Optic Neuropathy
Yang D
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2016; 5: 5-10 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Mikelberg FS
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
66320 Fast circulation of cerebrospinal fluid: an alternative perspective on the protective role of high intracranial pressure in ocular hypertension
Van Dam D
Clinical and Experimental Optometry 2016; 99: 213-218 (IGR: 17-3)
65915 Automated Detection of Glaucoma From Topographic Features of the Optic Nerve Head in Color Fundus Photographs
Chakravarty A
Journal of Glaucoma 2016; 25: 590-597 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Lockwood H
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Daveckaite A
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Vo N
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Hangai M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Borrego-Sanz L
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
65908 Influence of optic disc leakage on objective optic nerve head assessment in patients with uveitis
Heiligenhaus A
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 361-364 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Kang EM
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Sharpe GP
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Bruenner J
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
66320 Fast circulation of cerebrospinal fluid: an alternative perspective on the protective role of high intracranial pressure in ocular hypertension
Audenaert K
Clinical and Experimental Optometry 2016; 99: 213-218 (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Yamada H
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
65915 Automated Detection of Glaucoma From Topographic Features of the Optic Nerve Head in Color Fundus Photographs
Raman GV
Journal of Glaucoma 2016; 25: 590-597 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Kim GA
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Williams G
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Medeiros FA
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Balazsi AG
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Berrozpe-Villabona C
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Ragauskas A
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Chen H
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Hutchison DM
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Nitta K
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
66488 The Characteristics of Lamina Cribrosa Defects in Myopic Eyes With and Without Open-Angle Glaucoma
Kee C
Investigative Ophthalmology and Visual Science 2016; 57: 486-494 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Atwood R
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Suda K
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Belliveau AC
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Palko JR
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Katai M
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Leblanc RP
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
66320 Fast circulation of cerebrospinal fluid: an alternative perspective on the protective role of high intracranial pressure in ocular hypertension
Killer HE
Clinical and Experimental Optometry 2016; 99: 213-218 (IGR: 17-3)
65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Siesky B
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Reinhard C
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Libertiaux V
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Maier AK
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Lee SY
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
65915 Automated Detection of Glaucoma From Topographic Features of the Optic Nerve Head in Color Fundus Photographs
Krishnadas SR
Journal of Glaucoma 2016; 25: 590-597 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Sharpsten L
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Martinez-de-la-Casa JM
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Mendoza N
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Lesk MR
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Bae HW
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Gonnermann J
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Morales-Fernandez L
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Campbell I
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Shuba LM
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Omodaka K
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
65895 Neuroretinal rim area and ocular haemodynamic parameters in patients with normal-tension glaucoma with differing intracranial pressures
Harris A
British Journal of Ophthalmology 2016; 100: 1134-1138 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Pan X
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Kimura Y
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
65915 Automated Detection of Glaucoma From Topographic Features of the Optic Nerve Head in Color Fundus Photographs
Sivaswamy J
Journal of Glaucoma 2016; 25: 590-597 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Downs C
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
66320 Fast circulation of cerebrospinal fluid: an alternative perspective on the protective role of high intracranial pressure in ocular hypertension
De Deyn PP
Clinical and Experimental Optometry 2016; 99: 213-218 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Raji Y
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Nicolela MT
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Tatham AJ
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Garcia-Sanchez J
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Seong GJ
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
66355 Estimation of the Disc Damage Likelihood Scale in primary open-angle glaucoma: the Glaucoma Stereo Analysis Study
Nakazawa T
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 523-528 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Weber PA
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Nicolela MT
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Nakanishi H
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Gardiner SK
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Bertelmann E
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Albon J
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Hart RT
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
66233 Estimated Trans-Lamina Cribrosa Pressure Differences in Low-Teen and High-Teen Intraocular Pressure Normal Tension Glaucoma: The Korean National Health and Nutrition Examination Survey
Kim CY
PLoS ONE 2016; 11: e0148412 (IGR: 17-3)
65847 The Connective Tissue Components of Optic Nerve Head Cupping in Monkey Experimental Glaucoma Part 1: Global Change
Burgoyne CF
Investigative Ophthalmology and Visual Science 2015; 56: 7661-7678 (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Ikeda HO
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
66255 Diagnostic Accuracy of Glaucoma With Sector-Based and a New Total Profile-Based Analysis of Neuroretinal Rim and Retinal Nerve Fiber Layer Thickness
Chauhan BC
Investigative Ophthalmology and Visual Science 2016; 57: 181-187 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Santos-Bueso E
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Khachatryan N
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Trope GE
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
65848 Significance of the disc damage likelihood scale objectively measured by a non-mydriatic fundus camera in preperimetric glaucoma
Klamann MK
Clinical Ophthalmology 2015; 9: 2147-2158 (IGR: 17-3)
66616 Three-Dimensional Strains in Human Posterior Sclera Using Ultrasound Speckle Tracking
Liu J
Journal of Biomechanical Engineering 2016; 138: (IGR: 17-3)
65909 Structural dissociation of optic disc margin components with optic disc tilting: a spectral domain optical coherence tomography study
Yoshimura N
Graefe's Archive for Clinical and Experimental Ophthalmology 2016; 254: 343-349 (IGR: 17-3)
66337 Correlations between corneal and optic nerve head variables in healthy subjects and patients with primary open angle glaucoma
Garcia-Feijoo J
International Journal of Ophthalmology 2015; 8: 1156-1161 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Liebmann JM
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Abel R
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
66300 Neuroretinal Rim Area Change in Glaucoma Patients With Visual Field Progression Endpoints and Intraocular Pressure Reduction. The Canadian Glaucoma Study: 4
Chauhan BC;
American Journal of Ophthalmology 2016; 163: 140-147.e1 (IGR: 17-3)
65845 Phase-contrast Micro-computed Tomography Measurements of the Intraocular Pressure-induced Deformation of the Porcine Lamina Cribrosa
Ethier R
IEEE Transactions on Medical Imaging 2016; 35: 988-999 (IGR: 17-3)
66267 Rate and Pattern of Rim Area Loss in Healthy and Progressing Glaucoma Eyes
Girkin CA; Weinreb RN; Zangwill LM
Ophthalmology 2016; 123: 760-770 (IGR: 17-3)
61806 Cerebrospinal fluid pressure and the eye
Morgan WH
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Chin YC
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61034 Lamina Cribrosa in Glaucoma: Diagnosis and Monitoring
Abe RY
Current ophthalmology reports 2015; 3: 74-84 (IGR: 17-1)
61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Kim KE
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)
61035 Prevalence of Optic Disc Hemorrhage in Korea: The Korea National Health and Nutrition Examination Survey
Kim DW
Investigative Ophthalmology and Visual Science 2015; 56: 3666-3672 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Siaudvytyte L
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61056 Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture
Carreras FJ
PLoS ONE 2015; 10: e0128516 (IGR: 17-1)
61700 Optic disc detection and boundary extraction in retinal images
Basit A
Applied Optics 2015; 54: 3440-3447 (IGR: 17-1)
61525 Age-Related Changes in Ocular Blood Velocity in Suspects with Glaucomatous Optic Disc Appearance. Comparison with Healthy Subjects and Glaucoma Patients
Asejczyk-Widlicka M
PLoS ONE 2015; 10: e0134357 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Park HS
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
61045 Effect of age and disc size on rim order rules by Heidelberg Retina Tomograph
Nayak NV
Journal of Glaucoma 2015; 24: 377-382 (IGR: 17-1)
61626 Retinal Nerve Fiber Layer Converges More Convexly on Normal Smaller Optic Nerve Head
Jung KI
Journal of Glaucoma 2015; 24: 448-454 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Fallon M
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
Jones HJ
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
60890 Optic nerve head changes after short-term intraocular pressure elevation in acute primary angle-closure suspects
Jiang R
Ophthalmology 2015; 122: 730-737 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Ivers KM
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61685 Structure-Function Relationship Between Bruch's Membrane Opening-Based Optic Nerve Head Parameters and Visual Field Defects in Glaucoma
Muth DR
Investigative Ophthalmology and Visual Science 2015; 56: 3320-3328 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Chauhan BC
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
61131 Optic Nerve Head Deformation in Glaucoma: A Prospective Analysis of Optic Nerve Head Surface and Lamina Cribrosa Surface Displacement
Wu Z
Ophthalmology 2015; 122: 1317-1329 (IGR: 17-1)
61077 Pigment dispersion syndrome associated with optic nerve melanocytoma
Asorey-García A
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 484-486 (IGR: 17-1)
61606 Optic Disc Change during Childhood Myopic Shift: Comparison between Eyes with an Enlarged Cup-To-Disc Ratio and Childhood Glaucoma Compared to Normal Myopic Eyes
Park HY
PLoS ONE 2015; 10: e0131781 (IGR: 17-1)
61788 High spatial resolution imaging mass spectrometry of human optic nerve lipids and proteins
Anderson DM
Journal of the American Society for Mass Spectrometry 2015; 26: 940-947 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Thakku SG
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Pazos M
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Saenz-Frances F
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Christopher M
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61266 Disc Torsion and Vertical Disc Tilt Are Related to Subfoveal Scleral Thickness in Open-Angle Glaucoma Patients With Myopia
Park HY
Investigative Ophthalmology and Visual Science 2015; 56: 4927-4935 (IGR: 17-1)
61737 Sensitivity and Specificity of the Nerve Fibre Imaging Using Scanning Laser Ophthalmoscopy and of Optic Nerve Analysis Using Heidelberg Retina Tomography in Glaucoma
Hirsch T
Klinische Monatsblätter für Augenheilkunde 2015; 232: 1279-1283 (IGR: 17-1)
61131 Optic Nerve Head Deformation in Glaucoma: A Prospective Analysis of Optic Nerve Head Surface and Lamina Cribrosa Surface Displacement
Xu G
Ophthalmology 2015; 122: 1317-1329 (IGR: 17-1)
61700 Optic disc detection and boundary extraction in retinal images
Fraz MM
Applied Optics 2015; 54: 3440-3447 (IGR: 17-1)
61077 Pigment dispersion syndrome associated with optic nerve melanocytoma
Méndez-Hernández CD
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 484-486 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Jañez L
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61525 Age-Related Changes in Ocular Blood Velocity in Suspects with Glaucomatous Optic Disc Appearance. Comparison with Healthy Subjects and Glaucoma Patients
Krzyzanowska-Berkowska P
PLoS ONE 2015; 10: e0134357 (IGR: 17-1)
61626 Retinal Nerve Fiber Layer Converges More Convexly on Normal Smaller Optic Nerve Head
Shin JA
Journal of Glaucoma 2015; 24: 448-454 (IGR: 17-1)
61266 Disc Torsion and Vertical Disc Tilt Are Related to Subfoveal Scleral Thickness in Open-Angle Glaucoma Patients With Myopia
Choi SI
Investigative Ophthalmology and Visual Science 2015; 56: 4927-4935 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Abràmoff MD
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61606 Optic Disc Change during Childhood Myopic Shift: Comparison between Eyes with an Enlarged Cup-To-Disc Ratio and Childhood Glaucoma Compared to Normal Myopic Eyes
Kim SE
PLoS ONE 2015; 10: e0131781 (IGR: 17-1)
61737 Sensitivity and Specificity of the Nerve Fibre Imaging Using Scanning Laser Ophthalmoscopy and of Optic Nerve Analysis Using Heidelberg Retina Tomography in Glaucoma
Hirsch F
Klinische Monatsblätter für Augenheilkunde 2015; 232: 1279-1283 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Sredar N
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61788 High spatial resolution imaging mass spectrometry of human optic nerve lipids and proteins
Spraggins JM
Journal of the American Society for Mass Spectrometry 2015; 26: 940-947 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Danthurebandara VM
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Yoo C
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
60890 Optic nerve head changes after short-term intraocular pressure elevation in acute primary angle-closure suspects
Xu L
Ophthalmology 2015; 122: 730-737 (IGR: 17-1)
61034 Lamina Cribrosa in Glaucoma: Diagnosis and Monitoring
Gracitelli CP
Current ophthalmology reports 2015; 3: 74-84 (IGR: 17-1)
61806 Cerebrospinal fluid pressure and the eye
Balaratnasingam C
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Tham YC
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Januleviciene I
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61056 Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture
Aranda CJ
PLoS ONE 2015; 10: e0128516 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Perera SA
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Pazos M
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61035 Prevalence of Optic Disc Hemorrhage in Korea: The Korea National Health and Nutrition Examination Survey
Kim YK
Investigative Ophthalmology and Visual Science 2015; 56: 3666-3672 (IGR: 17-1)
61045 Effect of age and disc size on rim order rules by Heidelberg Retina Tomograph
Berezina TL
Journal of Glaucoma 2015; 24: 377-382 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
Girard MJ
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
61685 Structure-Function Relationship Between Bruch's Membrane Opening-Based Optic Nerve Head Parameters and Visual Field Defects in Glaucoma
Hirneiß CW
Investigative Ophthalmology and Visual Science 2015; 56: 3320-3328 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Yang H
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Kim DM
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)
60890 Optic nerve head changes after short-term intraocular pressure elevation in acute primary angle-closure suspects
Liu X
Ophthalmology 2015; 122: 730-737 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Morilla A
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
White N
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Baskaran M
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Daveckaite A
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Tun TA
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Kim JM
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
61266 Disc Torsion and Vertical Disc Tilt Are Related to Subfoveal Scleral Thickness in Open-Angle Glaucoma Patients With Myopia
Choi JA
Investigative Ophthalmology and Visual Science 2015; 56: 4927-4935 (IGR: 17-1)
61606 Optic Disc Change during Childhood Myopic Shift: Comparison between Eyes with an Enlarged Cup-To-Disc Ratio and Childhood Glaucoma Compared to Normal Myopic Eyes
Park CK
PLoS ONE 2015; 10: e0131781 (IGR: 17-1)
61035 Prevalence of Optic Disc Hemorrhage in Korea: The Korea National Health and Nutrition Examination Survey
Jeoung JW
Investigative Ophthalmology and Visual Science 2015; 56: 3666-3672 (IGR: 17-1)
61788 High spatial resolution imaging mass spectrometry of human optic nerve lipids and proteins
Rose KL
Journal of the American Society for Mass Spectrometry 2015; 26: 940-947 (IGR: 17-1)
61525 Age-Related Changes in Ocular Blood Velocity in Suspects with Glaucomatous Optic Disc Appearance. Comparison with Healthy Subjects and Glaucoma Patients
Sander BP
PLoS ONE 2015; 10: e0134357 (IGR: 17-1)
61131 Optic Nerve Head Deformation in Glaucoma: A Prospective Analysis of Optic Nerve Head Surface and Lamina Cribrosa Surface Displacement
Weinreb RN
Ophthalmology 2015; 122: 1317-1329 (IGR: 17-1)
61045 Effect of age and disc size on rim order rules by Heidelberg Retina Tomograph
Fechtner RD
Journal of Glaucoma 2015; 24: 377-382 (IGR: 17-1)
61806 Cerebrospinal fluid pressure and the eye
Lind CR
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Sharpe GP
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
61077 Pigment dispersion syndrome associated with optic nerve melanocytoma
Santos-Bueso E
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 484-486 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Gardiner SK
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
61737 Sensitivity and Specificity of the Nerve Fibre Imaging Using Scanning Laser Ophthalmoscopy and of Optic Nerve Analysis Using Heidelberg Retina Tomography in Glaucoma
Koch EC
Klinische Monatsblätter für Augenheilkunde 2015; 232: 1279-1283 (IGR: 17-1)
61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Flammer J
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Berrozpe-Villabona C
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Tang L
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Patel NB
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61034 Lamina Cribrosa in Glaucoma: Diagnosis and Monitoring
Diniz-Filho A
Current ophthalmology reports 2015; 3: 74-84 (IGR: 17-1)
61056 Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture
Porcel D
PLoS ONE 2015; 10: e0128516 (IGR: 17-1)
61626 Retinal Nerve Fiber Layer Converges More Convexly on Normal Smaller Optic Nerve Head
Park HY
Journal of Glaucoma 2015; 24: 448-454 (IGR: 17-1)
61045 Effect of age and disc size on rim order rules by Heidelberg Retina Tomograph
Sinai MJ
Journal of Glaucoma 2015; 24: 377-382 (IGR: 17-1)
61056 Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture
Rodriguez-Hurtado F
PLoS ONE 2015; 10: e0128516 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Gordon MO
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61788 High spatial resolution imaging mass spectrometry of human optic nerve lipids and proteins
Schey KL
Journal of the American Society for Mass Spectrometry 2015; 26: 940-947 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Demirel S
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Mari JM
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Sung KC
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Cepurna WO
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
60890 Optic nerve head changes after short-term intraocular pressure elevation in acute primary angle-closure suspects
Chen JD
Ophthalmology 2015; 122: 730-737 (IGR: 17-1)
61035 Prevalence of Optic Disc Hemorrhage in Korea: The Korea National Health and Nutrition Examination Survey
Kim DM
Investigative Ophthalmology and Visual Science 2015; 56: 3666-3672 (IGR: 17-1)
61131 Optic Nerve Head Deformation in Glaucoma: A Prospective Analysis of Optic Nerve Head Surface and Lamina Cribrosa Surface Displacement
Yu M
Ophthalmology 2015; 122: 1317-1329 (IGR: 17-1)
61806 Cerebrospinal fluid pressure and the eye
Colley S
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
Fautsch MP
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
61077 Pigment dispersion syndrome associated with optic nerve melanocytoma
García-Feijoo J
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 484-486 (IGR: 17-1)
61737 Sensitivity and Specificity of the Nerve Fibre Imaging Using Scanning Laser Ophthalmoscopy and of Optic Nerve Analysis Using Heidelberg Retina Tomography in Glaucoma
Fuest M
Klinische Monatsblätter für Augenheilkunde 2015; 232: 1279-1283 (IGR: 17-1)
61106 Central retinal venous pressure in eyes of normal-tension glaucoma patients with optic disc hemorrhage
Kim KN
PLoS ONE 2015; 10: e0127920 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Borrego-Sanz L
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61034 Lamina Cribrosa in Glaucoma: Diagnosis and Monitoring
Tatham AJ
Current ophthalmology reports 2015; 3: 74-84 (IGR: 17-1)
61626 Retinal Nerve Fiber Layer Converges More Convexly on Normal Smaller Optic Nerve Head
Park CK
Journal of Glaucoma 2015; 24: 448-454 (IGR: 17-1)
61266 Disc Torsion and Vertical Disc Tilt Are Related to Subfoveal Scleral Thickness in Open-Angle Glaucoma Patients With Myopia
Park CK
Investigative Ophthalmology and Visual Science 2015; 56: 4927-4935 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Rajagopalan L
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Teh GH
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Sebastián MA
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61525 Age-Related Changes in Ocular Blood Velocity in Suspects with Glaucomatous Optic Disc Appearance. Comparison with Healthy Subjects and Glaucoma Patients
Iskander DR
PLoS ONE 2015; 10: e0134357 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Ragauskas A
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Girkin CA
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Morales-Fernández L
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Xancó R
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61045 Effect of age and disc size on rim order rules by Heidelberg Retina Tomograph
Khouri AS
Journal of Glaucoma 2015; 24: 377-382 (IGR: 17-1)
61056 Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture
Martínez-Agustin O
PLoS ONE 2015; 10: e0128516 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Kass MA
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Johnson EC
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
61737 Sensitivity and Specificity of the Nerve Fibre Imaging Using Scanning Laser Ophthalmoscopy and of Optic Nerve Analysis Using Heidelberg Retina Tomography in Glaucoma
Plange N
Klinische Monatsblätter für Augenheilkunde 2015; 232: 1279-1283 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Strouthidis NG
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Bartusis L
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
Morgan JE
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
60890 Optic nerve head changes after short-term intraocular pressure elevation in acute primary angle-closure suspects
Jonas JB
Ophthalmology 2015; 122: 730-737 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Shim SH
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
61131 Optic Nerve Head Deformation in Glaucoma: A Prospective Analysis of Optic Nerve Head Surface and Lamina Cribrosa Surface Displacement
Leung CK
Ophthalmology 2015; 122: 1317-1329 (IGR: 17-1)
61806 Cerebrospinal fluid pressure and the eye
Kang MH
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Cheung CY
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61034 Lamina Cribrosa in Glaucoma: Diagnosis and Monitoring
Medeiros FA
Current ophthalmology reports 2015; 3: 74-84 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Queener HM
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61035 Prevalence of Optic Disc Hemorrhage in Korea: The Korea National Health and Nutrition Examination Survey
Park KH
Investigative Ophthalmology and Visual Science 2015; 56: 3666-3672 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Kucinoviene J
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Mora C
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61806 Cerebrospinal fluid pressure and the eye
House PH
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Morrison JC
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Twa MD
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61035 Prevalence of Optic Disc Hemorrhage in Korea: The Korea National Health and Nutrition Examination Survey
Investigative Ophthalmology and Visual Science 2015; 56: 3666-3672 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Mardin CY
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Acebal-Montero A
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Bae JH
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
61056 Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture
Zarzuelo A
PLoS ONE 2015; 10: e0128516 (IGR: 17-1)
60890 Optic nerve head changes after short-term intraocular pressure elevation in acute primary angle-closure suspects
Wang YX
Ophthalmology 2015; 122: 730-737 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Aung T
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Aung T
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
Ethier CR
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Budenz DL
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Cheng CY
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Choi CY
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
61183 Quantitative analysis of three-dimensional fibrillar collagen microstructure within the normal, aged and glaucomatous human optic nerve head
Albon J
Journal of the Royal Society, Interface / the Royal Society 2015; 12: (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Mendez-Hernandez CD
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Calderón B
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61063 Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes
Burgoyne CF
Experimental Eye Research 2015; 139: 1-12 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Wong TY
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Fingert JH
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Harwerth RS
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61806 Cerebrospinal fluid pressure and the eye
Yu DY
British Journal of Ophthalmology 2016; 100: 71-77 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Siesky B
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Scheuerle AF
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
61568 Literature review and meta-analysis of translaminar pressure difference in open-angle glaucoma
Harris A
Eye 2015; 29: 1242-1250 (IGR: 17-1)
61505 In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma
Porter J
PLoS ONE 2015; 10: e0134223 (IGR: 17-1)
61718 Structural Differences in the Optic Nerve Head of Glaucoma Patients With and Without Disc Hemorrhages
Baskaran M
Journal of Glaucoma 2016; 25: e76-e81 (IGR: 17-1)
61554 Bruch's Membrane Opening Minimum Rim Width and Retinal Nerve Fiber Layer Thickness in a Normal White Population: A Multicenter Study
Burgoyne CF
Ophthalmology 2015; 122: 1786-1794 (IGR: 17-1)
61275 Stereo Photo Measured ONH Shape Predicts Development of POAG in Subjects With Ocular Hypertension
Scheetz TE
Investigative Ophthalmology and Visual Science 2015; 56: 4470-4479 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Vega Z
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
61036 A Global Shape Index to Characterize Anterior Lamina Cribrosa Morphology and Its Determinants in Healthy Indian Eyes
Girard MJ
Investigative Ophthalmology and Visual Science 2015; 56: 3604-3614 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Kim CY
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Martinez-de-la-Casa JM
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61170 Disc hemorrhages and their risk factors in an urban South Korean population
Park KH
Optometry and Vision Science 2015; 92: 700-706 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Santos-Bueso E
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
61079 Morphological characteristics of the optic nerve evaluated by confocal laser tomography (HRT3) and laser polarimetry (GDx-VCC) in a normal population from the city of Barcelona
Antón A
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 507-516 (IGR: 17-1)
60978 Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph's Moorfield's Regression Analysis, and Glaucoma Probability Score
Garcia-Sanchez J; Garcia-Feijoo J
Journal of Ophthalmology 2015; 2015: 215951 (IGR: 17-1)
60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Choy YJ
Eye 2015; 29: 1308-1314 (IGR: 16-4)
60714 Optic nerve head biomechanics in aging and disease
Downs JC
Experimental Eye Research 2015; 133: 19-29 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Loewen NA
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Ciancaglini M
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60476 Evaluation of subjects with a moderate cup to disc ratio using optical coherence tomography and Heidelberg retina tomograph 3: impact of the disc area
Ulas F
Indian Journal of Ophthalmology 2015; 63: 3-8 (IGR: 16-4)
60528 A Novel Mgp-Cre Knock-in Mouse Reveals an Anti-calcification/anti-stiffness Candidate Gene in the Trabecular Meshwork and Scleral Peripapillary Region
Borras T
Investigative Ophthalmology and Visual Science 2015; 56: 2203-2214 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Pijanka JK
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
El Chehab H
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Omodaka K
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
59663 Presence of an optic disc notch and glaucoma
Healey PR
Journal of Glaucoma 2015; 24: 262-266 (IGR: 16-4)
60376 Prevalence of disc cupping in non-glaucomatous eyes
Chiappe JP
Medicina 2015; 75: 6-10 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Girard MJ
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60179 Spectral domain optical coherence tomography cross-sectional image of optic nerve head during intraocular pressure elevation
Lee JY
International Journal of Ophthalmology 2014; 7: 1022-1029 (IGR: 16-4)
60685 Morphological features and important parameters of large optic discs for diagnosing glaucoma
Okimoto S
PLoS ONE 2015; 10: e0118920 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Park SC
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60332 Facts and myths of cerebrospinal fluid pressure for the physiology of the eye
Jonas JB
Progress in Retinal and Eye Research 2015; 46: 67-83 (IGR: 16-4)
60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Jung YH
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)
60106 Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser
Shoji T
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 313-321 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Lockwood H
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Springelkamp H
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Danthurebandara VM
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60694 An energy theory of glaucoma
Li Y
GLIA 2015; 63: 1537-1552 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
McElnea EM
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Shoji T
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Perera SA
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60504 Structural alterations during the course of glaucoma disease
Mardin CY
Ophthalmologe 2015; 112: 410-417 (IGR: 16-4)
60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Park HY
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)
60153 Anterior lamina cribrosa insertion in primary open-angle glaucoma patients and healthy subjects
Lee KM
PLoS ONE 2014; 9: e114935 (IGR: 16-4)
59842 Novel screening method for glaucomatous eyes with myopic tilted discs: the crescent moon sign
Kim MJ
JAMA ophthalmology 2014; 132: 1407-1413 (IGR: 16-4)
60266 Sparse dissimilarity-constrained coding for glaucoma screening
Cheng J
IEEE Transactions on Bio-Medical Engineering 2015; 62: 1395-1403 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Kimura Y
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60187 Differential subcellular Ca2+ signaling in a highly specialized subpopulation of astrocytes
Kaja S
Experimental Neurology 2015; 265: 59-68 (IGR: 16-4)
60782 Nailfold capillaroscopy assessment in patients with glaucoma with a current optic disc hemorrhage
Patel HY
Canadian Journal of Ophthalmology 2015; 50: 155-158 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
Quill B
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60568 Optic nerve head characteristics in eyes with papillomacular bundle defects in glaucoma
Rao A
International Ophthalmology 2015; 35: 819-826 (IGR: 16-4)
60256 Is Myopic Optic Disc Appearance a Risk Factor for Rapid Progression in Medically Treated Glaucomatous Eyes With Confirmed Visual Field Progression?
Lee JR
Journal of Glaucoma 2016; 25: 330-337 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Zhang L
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60274 Automated segmentation of the lamina cribrosa using Frangi's filter: a novel approach for rapid identification of tissue volume fraction and beam orientation in a trabeculated structure in the eye
Campbell IC
Journal of the Royal Society, Interface / the Royal Society 2015; 12: 20141009 (IGR: 16-4)
60657 Refractive Error and Ocular Parameters: Comparison of Two SD-OCT Systems
Ostrin LA
Optometry and Vision Science 2015; 0: (IGR: 16-4)
60779 Optic disc segmentation by balloon snake with texture from color fundus image
Sun J
International journal of biomedical imaging 2015; 2015: 528626 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Kuroda H
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Sharpe GP
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Mishra A
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Foo LL
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60782 Nailfold capillaroscopy assessment in patients with glaucoma with a current optic disc hemorrhage
Buys YM
Canadian Journal of Ophthalmology 2015; 50: 155-158 (IGR: 16-4)
60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Park HY
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
Irnaten M
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60568 Optic nerve head characteristics in eyes with papillomacular bundle defects in glaucoma
Mukherjee S
International Ophthalmology 2015; 35: 819-826 (IGR: 16-4)
60256 Is Myopic Optic Disc Appearance a Risk Factor for Rapid Progression in Medically Treated Glaucomatous Eyes With Confirmed Visual Field Progression?
Kim S
Journal of Glaucoma 2016; 25: 330-337 (IGR: 16-4)
60694 An energy theory of glaucoma
Li D
GLIA 2015; 63: 1537-1552 (IGR: 16-4)
60274 Automated segmentation of the lamina cribrosa using Frangi's filter: a novel approach for rapid identification of tissue volume fraction and beam orientation in a trabeculated structure in the eye
Coudrillier B
Journal of the Royal Society, Interface / the Royal Society 2015; 12: 20141009 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Reynaud J
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60476 Evaluation of subjects with a moderate cup to disc ratio using optical coherence tomography and Heidelberg retina tomograph 3: impact of the disc area
Dogan Ü
Indian Journal of Ophthalmology 2015; 63: 3-8 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Horii T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Albon J
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60179 Spectral domain optical coherence tomography cross-sectional image of optic nerve head during intraocular pressure elevation
Lee YK
International Journal of Ophthalmology 2014; 7: 1022-1029 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Guerra G
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60504 Structural alterations during the course of glaucoma disease
Schlötzer-Schrehardt U
Ophthalmologe 2015; 112: 410-417 (IGR: 16-4)
60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Kwun Y
Eye 2015; 29: 1308-1314 (IGR: 16-4)
59663 Presence of an optic disc notch and glaucoma
Mitchell P
Journal of Glaucoma 2015; 24: 262-266 (IGR: 16-4)
60266 Sparse dissimilarity-constrained coding for glaucoma screening
Yin F
IEEE Transactions on Bio-Medical Engineering 2015; 62: 1395-1403 (IGR: 16-4)
60187 Differential subcellular Ca2+ signaling in a highly specialized subpopulation of astrocytes
Payne AJ
Experimental Neurology 2015; 265: 59-68 (IGR: 16-4)
60528 A Novel Mgp-Cre Knock-in Mouse Reveals an Anti-calcification/anti-stiffness Candidate Gene in the Trabecular Meshwork and Scleral Peripapillary Region
Smith MH
Investigative Ophthalmology and Visual Science 2015; 56: 2203-2214 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Spang MT
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60153 Anterior lamina cribrosa insertion in primary open-angle glaucoma patients and healthy subjects
Kim TW
PLoS ONE 2014; 9: e114935 (IGR: 16-4)
60376 Prevalence of disc cupping in non-glaucomatous eyes
Nahum P
Medicina 2015; 75: 6-10 (IGR: 16-4)
60657 Refractive Error and Ocular Parameters: Comparison of Two SD-OCT Systems
Yuzuriha J
Optometry and Vision Science 2015; 0: (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Tun TA
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
Hughes E
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60685 Morphological features and important parameters of large optic discs for diagnosing glaucoma
Yamashita K
PLoS ONE 2015; 10: e0118920 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Brumm J
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Akagi T
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60779 Optic disc segmentation by balloon snake with texture from color fundus image
Luan F
International journal of biomedical imaging 2015; 2015: 528626 (IGR: 16-4)
60332 Facts and myths of cerebrospinal fluid pressure for the physiology of the eye
Wang N
Progress in Retinal and Eye Research 2015; 46: 67-83 (IGR: 16-4)
60106 Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser
Kuroda H
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 313-321 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Zhang X
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
Delbarre M
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
59842 Novel screening method for glaucomatous eyes with myopic tilted discs: the crescent moon sign
Kim SH
JAMA ophthalmology 2014; 132: 1407-1413 (IGR: 16-4)
60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Jeong HJ
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Husain R
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60332 Facts and myths of cerebrospinal fluid pressure for the physiology of the eye
Yang D
Progress in Retinal and Eye Research 2015; 46: 67-83 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Suzuki M
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Hysi PG
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Kim YH
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)
60657 Refractive Error and Ocular Parameters: Comparison of Two SD-OCT Systems
Wildsoet CF
Optometry and Vision Science 2015; 0: (IGR: 16-4)
60266 Sparse dissimilarity-constrained coding for glaucoma screening
Wong DW
IEEE Transactions on Bio-Medical Engineering 2015; 62: 1395-1403 (IGR: 16-4)
60779 Optic disc segmentation by balloon snake with texture from color fundus image
Wu H
International journal of biomedical imaging 2015; 2015: 528626 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
Maréchal M
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Hutchison DM
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Tan O
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60694 An energy theory of glaucoma
Ying X
GLIA 2015; 63: 1537-1552 (IGR: 16-4)
60782 Nailfold capillaroscopy assessment in patients with glaucoma with a current optic disc hemorrhage
Trope GE
Canadian Journal of Ophthalmology 2015; 50: 155-158 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
McGoldrick A
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Takahashi S
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60256 Is Myopic Optic Disc Appearance a Risk Factor for Rapid Progression in Medically Treated Glaucomatous Eyes With Confirmed Visual Field Progression?
Lee JY
Journal of Glaucoma 2016; 25: 330-337 (IGR: 16-4)
60376 Prevalence of disc cupping in non-glaucomatous eyes
Casiraghi JF
Medicina 2015; 75: 6-10 (IGR: 16-4)
60274 Automated segmentation of the lamina cribrosa using Frangi's filter: a novel approach for rapid identification of tissue volume fraction and beam orientation in a trabeculated structure in the eye
Mensah J
Journal of the Royal Society, Interface / the Royal Society 2015; 12: 20141009 (IGR: 16-4)
59842 Novel screening method for glaucomatous eyes with myopic tilted discs: the crescent moon sign
Hwang YH
JAMA ophthalmology 2014; 132: 1407-1413 (IGR: 16-4)
60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Jung KI
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
Docherty NG
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60568 Optic nerve head characteristics in eyes with papillomacular bundle defects in glaucoma
Padhy D
International Ophthalmology 2015; 35: 819-826 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Hangai M
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Han JC
Eye 2015; 29: 1308-1314 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Jones H
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Agnifili L
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60528 A Novel Mgp-Cre Knock-in Mouse Reveals an Anti-calcification/anti-stiffness Candidate Gene in the Trabecular Meshwork and Scleral Peripapillary Region
Buie LK
Investigative Ophthalmology and Visual Science 2015; 56: 2203-2214 (IGR: 16-4)
60106 Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser
Suzuki M
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 313-321 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Sorensen T
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60153 Anterior lamina cribrosa insertion in primary open-angle glaucoma patients and healthy subjects
Weinreb RN
PLoS ONE 2014; 9: e114935 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Cheung CY
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Gardiner S
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60179 Spectral domain optical coherence tomography cross-sectional image of optic nerve head during intraocular pressure elevation
Moon JI
International Journal of Ophthalmology 2014; 7: 1022-1029 (IGR: 16-4)
60685 Morphological features and important parameters of large optic discs for diagnosing glaucoma
Shibata T
PLoS ONE 2015; 10: e0118920 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Furlanetto RL
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60476 Evaluation of subjects with a moderate cup to disc ratio using optical coherence tomography and Heidelberg retina tomograph 3: impact of the disc area
Kaymaz A
Indian Journal of Ophthalmology 2015; 63: 3-8 (IGR: 16-4)
60187 Differential subcellular Ca2+ signaling in a highly specialized subpopulation of astrocytes
Patel KR
Experimental Neurology 2015; 265: 59-68 (IGR: 16-4)
60106 Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser
Baba M
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 313-321 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Liu J
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Kikawa T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Francis BA
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Mastropasqua R
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60187 Differential subcellular Ca2+ signaling in a highly specialized subpopulation of astrocytes
Naumchuk Y
Experimental Neurology 2015; 265: 59-68 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Baba M
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
McElnea EM
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60567 Comparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucoma
Kee C
Eye 2015; 29: 1308-1314 (IGR: 16-4)
60153 Anterior lamina cribrosa insertion in primary open-angle glaucoma patients and healthy subjects
Lee EJ
PLoS ONE 2014; 9: e114935 (IGR: 16-4)
59842 Novel screening method for glaucomatous eyes with myopic tilted discs: the crescent moon sign
Park KH
JAMA ophthalmology 2014; 132: 1407-1413 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Gharahkhani P
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60256 Is Myopic Optic Disc Appearance a Risk Factor for Rapid Progression in Medically Treated Glaucomatous Eyes With Confirmed Visual Field Progression?
Back S
Journal of Glaucoma 2016; 25: 330-337 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Allen JC
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
Rosenberg R
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
60794 Optic disc hemorrhage is related to various hemodynamic findings by disc angiography
Park CK
PLoS ONE 2015; 10: e0120000 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Netto C
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Takayama K
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Gouget CL
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Grimm J
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60685 Morphological features and important parameters of large optic discs for diagnosing glaucoma
Kiuchi Y
PLoS ONE 2015; 10: e0118920 (IGR: 16-4)
60476 Evaluation of subjects with a moderate cup to disc ratio using optical coherence tomography and Heidelberg retina tomograph 3: impact of the disc area
Çelik F
Indian Journal of Ophthalmology 2015; 63: 3-8 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Acharyya S
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60274 Automated segmentation of the lamina cribrosa using Frangi's filter: a novel approach for rapid identification of tissue volume fraction and beam orientation in a trabeculated structure in the eye
Abel RL
Journal of the Royal Society, Interface / the Royal Society 2015; 12: 20141009 (IGR: 16-4)
60179 Spectral domain optical coherence tomography cross-sectional image of optic nerve head during intraocular pressure elevation
Park MH
International Journal of Ophthalmology 2014; 7: 1022-1029 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
McCann A
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Denniss J
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60672 Comparison of Prelaminar Thickness between Primary Open Angle Glaucoma and Normal Tension Glaucoma Patients
Park CK
PLoS ONE 2015; 10: e0120634 (IGR: 16-4)
60694 An energy theory of glaucoma
Khaw PT
GLIA 2015; 63: 1537-1552 (IGR: 16-4)
60376 Prevalence of disc cupping in non-glaucomatous eyes
Iribarren R
Medicina 2015; 75: 6-10 (IGR: 16-4)
60266 Sparse dissimilarity-constrained coding for glaucoma screening
Tao D
IEEE Transactions on Bio-Medical Engineering 2015; 62: 1395-1403 (IGR: 16-4)
60332 Facts and myths of cerebrospinal fluid pressure for the physiology of the eye
Ritch R
Progress in Retinal and Eye Research 2015; 46: 67-83 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Matsumoto A
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
Marill AF
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
60153 Anterior lamina cribrosa insertion in primary open-angle glaucoma patients and healthy subjects
Girard MJ
PLoS ONE 2014; 9: e114935 (IGR: 16-4)
59842 Novel screening method for glaucomatous eyes with myopic tilted discs: the crescent moon sign
Kim TW
JAMA ophthalmology 2014; 132: 1407-1413 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Liu Y
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60266 Sparse dissimilarity-constrained coding for glaucoma screening
Liu J
IEEE Transactions on Bio-Medical Engineering 2015; 62: 1395-1403 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Haaland BA
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60187 Differential subcellular Ca2+ signaling in a highly specialized subpopulation of astrocytes
Koulen P
Experimental Neurology 2015; 265: 59-68 (IGR: 16-4)
60106 Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser
Araie M
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 313-321 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Greenfield DS
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Höhn R
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Ethier CR
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60332 Facts and myths of cerebrospinal fluid pressure for the physiology of the eye
Panda-Jonas S
Progress in Retinal and Eye Research 2015; 46: 67-83 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
Wallace DM
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Chua D
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Fasanella V
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Nicolela MT
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60256 Is Myopic Optic Disc Appearance a Risk Factor for Rapid Progression in Medically Treated Glaucomatous Eyes With Confirmed Visual Field Progression?
Lee KS
Journal of Glaucoma 2016; 25: 330-337 (IGR: 16-4)
60694 An energy theory of glaucoma
Raisman G
GLIA 2015; 63: 1537-1552 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Libertiaux V
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60274 Automated segmentation of the lamina cribrosa using Frangi's filter: a novel approach for rapid identification of tissue volume fraction and beam orientation in a trabeculated structure in the eye
Ethier CR
Journal of the Royal Society, Interface / the Royal Society 2015; 12: 20141009 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Hangai M
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Nguyen TD
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60476 Evaluation of subjects with a moderate cup to disc ratio using optical coherence tomography and Heidelberg retina tomograph 3: impact of the disc area
Çelebi S
Indian Journal of Ophthalmology 2015; 63: 3-8 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
Quill B
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Hasegawa T
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
Clark AF
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Downs JC
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Suda K
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
Docherty N
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Quigley HA
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Khor CC
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Wei X
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Araie M
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
McKendrick AM
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Schuman JS
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60153 Anterior lamina cribrosa insertion in primary open-angle glaucoma patients and healthy subjects
Mari JM
PLoS ONE 2014; 9: e114935 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Tello C
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60106 Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser
Yoneya S
Graefe's Archive for Clinical and Experimental Ophthalmology 2015; 253: 313-321 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
Fénolland JR
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
59842 Novel screening method for glaucomatous eyes with myopic tilted discs: the crescent moon sign
Kim DM
JAMA ophthalmology 2014; 132: 1407-1413 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Goh JC
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Cinelli M
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60256 Is Myopic Optic Disc Appearance a Risk Factor for Rapid Progression in Medically Treated Glaucomatous Eyes With Confirmed Visual Field Progression?
Kook MS
Journal of Glaucoma 2016; 25: 330-337 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Tham YC
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Shiga Y
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60586 Collagen microstructural factors influencing optic nerve head biomechanics
Girard MJ
Investigative Ophthalmology and Visual Science 2015; 56: 2031-2042 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
Irnaten M
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Yoshikawa M
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Loon SC
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Costagliola C
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60536 Depth-dependent changes in collagen organization in the human peripapillary sclera
Boote C
PLoS ONE 2015; 10: e0118648 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Maruyama K
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60244 New neuroretinal rim analysis with spectral domain optical coherence tomography, Spectralis (Heidelberg Engineering, Germany). Preliminary study
Renard JP
Journal Français d'Ophtalmologie 2015; 38: 46-52 (IGR: 16-4)
60680 Calcium channel blockade reduces mechanical strain-induced extracellular matrix gene response in lamina cribrosa cells
O'brien CJ
British Journal of Ophthalmology 2015; 99: 1009-1014 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Yang H
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Liebmann JM
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Mari JM
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60206 Correlation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laser
Yoneya S
PLoS ONE 2014; 9: e116305 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Turpin A
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Varma R
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Cooke Bailey JN; Luo X
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60116 Enhanced structure-function relationship in glaucoma with an anatomically and geometrically accurate neuroretinal rim measurement
Chauhan BC
Investigative Ophthalmology and Visual Science 2015; 56: 98-105 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Yamada H
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60410 Lamina cribrosa microarchitecture in normal monkey eyes part 1: methods and initial results
Burgoyne CF
Investigative Ophthalmology and Visual Science 2015; 56: 1618-1637 (IGR: 16-4)
60572 Lamina cribrosa depth in different stages of glaucoma
Ritch R
Investigative Ophthalmology and Visual Science 2015; 56: 2059-2064 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Wong TY
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
Huang D
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Yuasa T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Perera SA
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60668 Fractal Dimension as a New Tool to Analyze Optic Nerve Head Vasculature in Primary Open Angle Glaucoma
Ambrosone L
In vivo (Athens, Greece) 2015; 29: 273-279 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
Farrell M; Clark AF
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Baskaran M
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Nakanishi H
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Akiba M
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Ramdas WD
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60736 Cup-to-Disc Ratio From Heidelberg Retina Tomograph 3 and High-Definition Optical Coherence Tomography Agrees Poorly With Clinical Assessment
Aung T
Journal of Glaucoma 2016; 25: 198-202 (IGR: 16-4)
60681 Combining measurements from three anatomical areas for glaucoma diagnosis using Fourier-domain optical coherence tomography
British Journal of Ophthalmology 2015; 99: 1224-1229 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Unoki N
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60790 3D Evaluation of the Lamina Cribrosa with Swept-Source Optical Coherence Tomography in Normal Tension Glaucoma
Nakazawa T
PLoS ONE 2015; 10: e0122347 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Aung T
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Vithana E
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60008 Lipofuscin accumulation and autophagy in glaucomatous human lamina cribrosa cells
O'brien CJ; Wallace DM
BMC Ophthalmology 2014; 14: 153 (IGR: 16-4)
60282 Lamina cribrosa visibility using optical coherence tomography: comparison of devices and effects of image enhancement techniques
Strouthidis NG
Investigative Ophthalmology and Visual Science 2015; 56: 865-874 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Koh V
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
60152 Lamina cribrosa defects and optic disc morphology in primary open angle glaucoma with high myopia
Ikeda HO; Yoshimura N
PLoS ONE 2014; 9: e115313 (IGR: 16-4)
60358 Meta-analysis of Genome-Wide Association Studies Identifies Novel Loci Associated With Optic Disc Morphology
Yazar S; Xu L; Forward H; Kearns LS; Amin N; Iglesias AI; Sim KS; van Leeuwen EM; Demirkan A; van der Lee S; Loon SC; Rivadeneira
Genetic epidemiology 2015; 39: 207-216 (IGR: 16-4)
59055 New insights into blindness; mechanical fatigue of optic nerve head in glaucomatous optic neuropathy
Norouzpour A; Mehdizadeh A
Journal of Medical Engineering and Technology 2014; 38: 367-371 (IGR: 16-3)
59223 Correlation between central corneal thickness and visual field defect, cup to disc ratio and retinal nerve fiber layer thickness in primary open-angle glaucoma patients
Wangsupadilok B; Orapiriyakul L
Journal of the Medical Association of Thailand 2014; 97: 751-757 (IGR: 16-3)
59044 Correlation between the ganglion cell complex and structural measures of the optic disc and retinal nerve fiber layer in glaucoma
Bresciani-Battilana E; Teixeira IC; Barbosa DT; Caixeta-Umbelino C; Paolera MD; Kasahara N
International Ophthalmology 2015; 35: 645-650 (IGR: 16-3)
59475 Relationship Between Optic Nerve Appearance and Retinal Nerve Fiber Layer Thickness as Explored with Spectral Domain Optical Coherence Tomography
Aleman TS; Huang J; Garrity ST; Carter SB; Aleman WD; Ying GS; Tamhankar MA
Translational vision science & technology 2014; 3: 4 (IGR: 16-3)
59557 Serous detachment of the macula associated with advanced glaucomatous cupping
Spaide RF
Ophthalmic surgery, lasers & imaging retina 2014; 45: 598-600 (IGR: 16-3)
59467 Factors affecting plastic lamina cribrosa displacement in glaucoma patients
Jung KI; Jung Y; Park KT; Park CK
Investigative Ophthalmology and Visual Science 2014; 55: 7709-7715 (IGR: 16-3)
58783 Microstructure of the optic disc pit in open-angle glaucoma
Choi YJ; Lee EJ; Kim BH; Kim TW
Ophthalmology 2014; 121: 2098-2106.e2 (IGR: 16-3)
58790 Update in intracranial pressure evaluation methods and translaminar pressure gradient role in glaucoma
Siaudvytyte L; Januleviciene I; Ragauskas A; Bartusis L; Siesky B; Harris A
Acta Ophthalmologica 2015; 93: 9-15 (IGR: 16-3)
59315 Sectoral variations in the distribution of axonal cytoskeleton proteins in the human optic nerve head
Kang MH; Law-Davis S; Balaratnasingam C; Yu DY
Experimental Eye Research 2014; 128: 141-150 (IGR: 16-3)
59137 In vivo three-dimensional characterization of the healthy human lamina cribrosa with adaptive optics spectral-domain optical coherence tomography
Nadler Z; Wang B; Schuman JS; Ferguson RD; Patel A; Hammer DX; Bilonick RA; Ishikawa H; Kagemann L; Sigal IA; Wollstein G
Investigative Ophthalmology and Visual Science 2014; 55: 6459-6466 (IGR: 16-3)
59594 Correlating cup-to-disc ratios measured by HRT-III, SD-OCT and the new color imaging Laguna ONhE procedure
Rodríguez Uña I; Méndez Hernández CD; Sáenz-Francés F; García Feijóo J
Archivos de la Sociedad Española de Oftalmologia 2015; 90: 212-219 (IGR: 16-3)
58918 Optic Nerve Head Deformation in Glaucoma: The Temporal Relationship between Optic Nerve Head Surface Depression and Retinal Nerve Fiber Layer Thinning
Xu G; Weinreb RN; Leung CK
Ophthalmology 2014; 121: 2362-2370 (IGR: 16-3)
59061 Application of Elliptic Fourier analysis to describe the lamina cribrosa shape with age and intraocular pressure
Sanfilippo PG; Grimm JL; Flanagan JG; Lathrop KL; Sigal IA
Experimental Eye Research 2014; 128: 1-7 (IGR: 16-3)
59160 Meta-analysis of genome-wide association studies identifies novel loci that influence cupping and the glaucomatous process
Springelkamp H; Höhn R; Mishra A; Hysi PG; Khor CC; Loomis SJ; Bailey JN; Gibson J; Thorleifsson G; Janssen SF; Luo X; Ramdas WD; Vithana E; Nongpiur ME; Montgomery GW; Xu L; Mountain JE; Gharahkhani P; Lu Y; Amin N; Karssen LC; Sim KS; van Leeuwen E
Nature communications 2014; 5: 4883 (IGR: 16-3)
59175 The relationship between retinal nerve fiber layer thickness and optic nerve head neuroretinal rim tissue in glaucoma
Patel NB; Sullivan-Mee M; Harwerth RS
Investigative Ophthalmology and Visual Science 2014; 55: 6802-6816 (IGR: 16-3)
59611 The effects of glycosaminoglycan degradation on the mechanical behavior of the posterior porcine sclera
Murienne BJ; Jefferys JL; Quigley HA; Nguyen TD
Acta biomaterialia 2015; 12: 195-206 (IGR: 16-3)
58853 Comparison of the clinical disc margin seen in stereo disc photographs with neural canal opening seen in optical coherence tomography images
Young M; Lee S; Rateb M; Beg MF; Sarunic MV; Mackenzie PJ
Journal of Glaucoma 2014; 23: 360-367 (IGR: 16-3)
59311 Influence of the Disc-Fovea Angle on Limits of RNFL Variability and Glaucoma Discrimination
Amini N; Nowroozizadeh S; Cirineo N; Henry S; Chang T; Chou T; Coleman AL; Caprioli J; Nouri-Mahdavi K
Investigative Ophthalmology and Visual Science 2014; 55: 7332-7342 (IGR: 16-3)
58984 Comparison of Optic Nerve Head Topographic Parameters in Patients With Primary Open-Angle Glaucoma With and Without Diabetes Mellitus
Akkaya S; Can E; Oztürk F
Journal of Glaucoma 2016; 25: 49-53 (IGR: 16-3)
59285 Confocal scanning laser tomography of the optic nerve head on the patients with Alzheimer's disease compared to glaucoma and control
Kurna SA; Akar G; Altun A; Agirman Y; Gozke E; Sengor T
International Ophthalmology 2014; 34: 1203-1211 (IGR: 16-3)
58922 Assessment of the optic disc morphology using spectral-domain optical coherence tomography and scanning laser ophthalmoscopy
Calvo P; Ferreras A; Abadia B; Ara M; Figus M; Pablo LE; Frezzotti P
BioMed research international 2014; 2014: 275654 (IGR: 16-3)
59621 Robust multi-scale superpixel classification for optic cup localization
Tan NM; Xu Y; Goh WB; Liu J
Computerized Medical Imaging and Graphics 2015; 40: 182-193 (IGR: 16-3)
58990 A poroelastic model for the perfusion of the lamina cribrosa in the optic nerve head
Causin P; Guidoboni G; Harris A; Prada D; Sacco R; Terragni S
Mathematical biosciences 2014; 257: 33-41 (IGR: 16-3)
59432 Reproducibility of Optic Nerve Head Hemoglobin Measures
Mendez-Hernandez C; Garcia-Feijoo J; Arribas-Pardo P; Saenz-Frances F; Rodriguez-Uña I; Fernandez-Perez C; de la Rosa MG
Journal of Glaucoma 2016; 25: 348-354 (IGR: 16-3)
59221 Segmentation of the blood vessels and optic disk in retinal images
Salazar-Gonzalez A; Kaba D; Li Y; Liu X
IEEE journal of biomedical and health informatics 2014; 18: 1874-1886 (IGR: 16-3)
59178 Correlation between structure/function and optic disc microcirculation in myopic glaucoma, measured with laser speckle flowgraphy
Aizawa N; Kunikata H; Shiga Y; Yokoyama Y; Omodaka K; Nakazawa T
BMC Ophthalmology 2014; 14: 113 (IGR: 16-3)
58818 Structural glaucomatous progression before and after occurrence of an optic disc haemorrhage
Chung E; Demetriades AM; Christos PJ; Radcliffe NM
British Journal of Ophthalmology 2015; 99: 21-25 (IGR: 16-3)
58999 Estimated rates of retinal ganglion cell loss in glaucomatous eyes with and without optic disc hemorrhages
Gracitelli CP; Tatham AJ; Zangwill LM; Weinreb RN; Liu T; Medeiros FA
PLoS ONE 2014; 9: e105611 (IGR: 16-3)
59578 Influence of Lamina Cribrosa Thickness and Depth on the Rate of Progressive Retinal Nerve Fiber Layer Thinning
Lee EJ; Kim TW; Kim M; Kim H
Ophthalmology 2015; 122: 721-729 (IGR: 16-3)
58887 The effect of myopic optic disc tilt on measurement of spectral-domain optical coherence tomography parameters
Shin HY; Park HY; Park CK
British Journal of Ophthalmology 2015; 99: 69-74 (IGR: 16-3)
58842 Cupping reversal in pediatric glaucoma-evaluation of the retinal nerve fiber layer and visual field
Ely AL; El-Dairi MA; Freedman SF
American Journal of Ophthalmology 2014; 158: 905-915.e1 (IGR: 16-3)
59563 Torsion of the Optic Nerve Head is a Prominent Feature of Normal Tension Glaucoma
Park HY; Lee KI; Lee K; Shin HY; Park CK
Investigative Ophthalmology and Visual Science 2014; 0: (IGR: 16-3)
59580 Comparison of the Thickness of the Lamina Cribrosa and Vascular Factors in Early Normal-tension Glaucoma with Low and High Intraocular Pressures
Kim JH; Lee TY; Lee JW; Lee KW
Korean Journal of Ophthalmology 2014; 28: 473-478 (IGR: 16-3)
59478 Posterior staphyloma is related to optic disc morphology and the location of visual field defect in normal tension glaucoma patients with myopia
Park HY; Jung Y; Park CK
Eye 2015; 29: 333-341 (IGR: 16-3)
58728 Disc haemorrhage is associated with the fast component, but not the slow component, of visual field decay rate in glaucoma
Kim JM; Kyung H; Azarbod P; Lee JM; Caprioli J
British Journal of Ophthalmology 2014; 98: 1555-1559 (IGR: 16-3)
59477 Comparison of Optic Disc Morphology of Optic Nerve Atrophy between Compressive Optic Neuropathy and Glaucomatous Optic Neuropathy
Hata M; Miyamoto K; Oishi A; Makiyama Y; Gotoh N; Kimura Y; Akagi T; Yoshimura N
PLoS ONE 2014; 9: e112403 (IGR: 16-3)
59039 Megalopapilla in children: a spectral domain optical coherence tomography analysis
Lee HS; Park SW; Heo H
Acta Ophthalmologica 2015; 93: e301-e305 (IGR: 16-3)
57167 Shear behavior of bovine scleral tissue
Argento A; Kim W; Rozsa FW; DeBolt KL; Zikanova S; Richards JR
Journal of Biomechanical Engineering 2014; 136: (IGR: 16-2)
57320 Relationship between the lamina cribrosa, outer retina, and choroidal thickness as assessed using spectral domain optical coherence tomography
Chung HS; Sung KR; Lee KS; Lee JR; Kim S
Korean Journal of Ophthalmology 2014; 28: 234-240 (IGR: 16-2)
57521 Detecting abnormality in optic nerve head images using a feature extraction analysis
Zhu H; Poostchi A; Vernon SA; Crabb DP
Biomedical optics express 2014; 5: 2215-2230 (IGR: 16-2)
57020 Optic nerve head assessment: comparison of Cirrus optic coherence tomography and Heidelberg Retinal Tomograph 3
Kratz A; Lim R; Goldberg I
Clinical and Experimental Ophthalmology 2014; 42: 734-744 (IGR: 16-2)
57503 Analytic Methods in Assessment of Optic Nerve Cupping
Jindra LF; Kuběna T; Gaudino RN
?eska a Slovenska Oftalmologie 2014; 70: 79-88 (IGR: 16-2)
56995 Glaucomatous optic neuropathy evaluation project: factors associated with underestimation of glaucoma likelihood
O'Neill EC; Gurria LU; Pandav SS; Kong YX; Brennan JF; Xie J; Coote MA; Crowston JG
JAMA ophthalmology 2014; 132: 560-566 (IGR: 16-2)
56909 Characterization of the gelatinase system of the laminar human optic nerve, and surrounding annulus of Bruch's membrane, choroid, and sclera
Hussain AA; Lee Y; Zhang JJ; Marshall J
Investigative Ophthalmology and Visual Science 2014; 55: 2358-2364 (IGR: 16-2)
57483 Optic disc tilt direction determines the location of initial glaucomatous damage
Choi JA; Park HY; Shin HY; Park CK
Investigative Ophthalmology and Visual Science 2014; 55: 4991-4998 (IGR: 16-2)
57264 Optic nerve gray crescent can confound neuroretinal rim interpretation: review of the literature
Arora S; Rayat J; Damji KF
Canadian Journal of Ophthalmology 2014; 49: 238-242 (IGR: 16-2)
56948 Assessment of optic nerve head drusen using enhanced depth imaging and swept source optical coherence tomography
Silverman AL; Tatham AJ; Medeiros FA; Weinreb RN
Journal of Neuro-Ophthalmology 2014; 34: 198-205 (IGR: 16-2)
57054 Myocilin is involved in NgR1/Lingo-1-mediated oligodendrocyte differentiation and myelination of the optic nerve
Kwon HS; Nakaya N; Abu-Asab M; Kim HS; Tomarev SI
Journal of Neuroscience 2014; 34: 5539-5551 (IGR: 16-2)
57033 The role of matricellular proteins in glaucoma
Wallace DM; Murphy-Ullrich JE; Downs JC; O'brien CJ
Matrix Biology 2014; 37: 174-182 (IGR: 16-2)
57232 Evaluation of the "IS" Rule to Differentiate Glaucomatous Eyes From Normal
Law SK; Kornmann HL; Nilforushan N; Moghimi S; Caprioli J
Journal of Glaucoma 2016; 25: 27-32 (IGR: 16-2)
56992 Spontaneous retinal venous pulsation and disc hemorrhage in open-angle glaucoma
Kim M; Kim TW; Weinreb RN; Lee EJ; Seo JH
Investigative Ophthalmology and Visual Science 2014; 55: 2822-2826 (IGR: 16-2)
57265 Can an inexperienced observer accurately plot disc contours using Heidelberg retinal Tomograph?
Koh V; Wee S; Lim M; Wong WL; Wong TY; Aung T; Loon SC
Canadian Journal of Ophthalmology 2014; 49: 249-255 (IGR: 16-2)
57227 Comparison of Laser Scanning Diagnostic Devices for Early Glaucoma Detection
Schulze A; Lamparter J; Pfeiffer N; Berisha F; Schmidtmann I; Hoffmann EM
Journal of Glaucoma 2015; 24: 442-447 (IGR: 16-2)
57410 Glaucoma Diagnostic Accuracy of Optical Coherence Tomography Parameters in Early Glaucoma with Different Types of Optic Disc Damage
Shin HY; Park HY; Jung Y; Choi JA; Park CK
Ophthalmology 2014; 121: 1990-1997 (IGR: 16-2)
57409 Recent advances in OCT imaging of the lamina cribrosa
Sigal IA; Wang B; Strouthidis NG; Akagi T; Girard MJ
British Journal of Ophthalmology 2014; 98: ii34-9 (IGR: 16-2)
57498 Correlation between optic nerve head structural parameters and glaucomatous visual field indices
Mizumoto K; Gosho M; Zako M
Clinical Ophthalmology 2014; 8: 1203-1208 (IGR: 16-2)
57392 Optic Disc Characteristics in Patients With Glaucoma and Combined Superior and Inferior Retinal Nerve Fiber Layer Defects
Choi JA; Park HY; Shin HY; Park CK
JAMA ophthalmology 2014; 132: 1068-1075 (IGR: 16-2)
57176 Topographical Analysis of Non-Glaucomatous Myopic Optic Discs Using a Confocal Scanning Laser Ophthalmoscope (TopSS)
Oh SH; Chung SK; Lee NY
Seminars in Ophthalmology 2015; 0: 13-jan (IGR: 16-2)
56961 Recent structural alteration of the peripheral lamina cribrosa near the location of disc hemorrhage in glaucoma
Lee EJ; Kim TW; Kim M; Girard MJ; Mari JM; Weinreb RN
Investigative Ophthalmology and Visual Science 2014; 55: 2805-2815 (IGR: 16-2)
56821 Baseline prognostic factors predict rapid visual field deterioration in glaucoma
Lee JM; Caprioli J; Nouri-Mahdavi K; Afifi AA; Morales E; Ramanathan M; Yu F; Coleman AL
Investigative Ophthalmology and Visual Science 2014; 55: 2228-2236 (IGR: 16-2)
56252 Effect of intraocular pressure on glaucomatous damage to the optic nerve
Jonas JB; Yang D; Wang N
Ophthalmologe 2014; 111: 181-188; quiz 189-90 (IGR: 16-1)
56124 Measurement of scleral thickness using swept-source optical coherence tomography in patients with open-angle glaucoma and myopia
Lopilly Park HY; Lee NY; Choi JA; Park CK
American Journal of Ophthalmology 2014; 157: 876-884 (IGR: 16-1)
56385 Variation of the axial location of Bruch's membrane opening with age, choroidal thickness, and race
Johnstone J; Fazio M; Rojananuangnit K; Smith B; Clark M; Downs C; Owsley C; Girard MJ; Mari JM; Girkin CA
Investigative Ophthalmology and Visual Science 2014; 55: 2004-2009 (IGR: 16-1)
56503 Distribution and associated factors of optic disc diameter and cup-to-disc ratio in an elderly Chinese population
Kuang TM; Liu CJ; Ko YC; Lee SM; Cheng CY; Chou P
Journal of the Chinese Medical Association 2014; 77: 203-208 (IGR: 16-1)
56036 Eye-specific IOP-induced displacements and deformations of human lamina cribrosa
Sigal IA; Grimm JL; Jan NJ; Reid K; Minckler DS; Brown DJ
Investigative Ophthalmology and Visual Science 2014; 55: 1-15 (IGR: 16-1)
56658 The difference in translaminar pressure gradient and neuroretinal rim area in glaucoma and healthy subjects
Siaudvytyte L; Januleviciene I; Ragauskas A; Bartusis L; Meiliuniene I; Siesky B; Harris A
Journal of Ophthalmology 2014; 2014: 937360 (IGR: 16-1)
56194 Clinical features and glaucoma according to optic disc size in a South Korean population: the Namil study
Kang NH; Jun RM; Choi KR;
Japanese Journal of Ophthalmology 2014; 58: 205-211 (IGR: 16-1)
56094 Alterations in the neural and connective tissue components of glaucomatous cupping after glaucoma surgery using swept-source optical coherence tomography
Yoshikawa M; Akagi T; Hangai M; Ohashi-Ikeda H; Takayama K; Morooka S; Kimura Y; Nakano N; Yoshimura N
Investigative Ophthalmology and Visual Science 2014; 55: 477-484 (IGR: 16-1)
56202 Anterior lamina cribrosa surface depth, age, and visual field sensitivity in the Portland Progression Project
Ren R; Yang H; Gardiner SK; Fortune B; Hardin C; Demirel S; Burgoyne CF
Investigative Ophthalmology and Visual Science 2014; 55: 1531-1539 (IGR: 16-1)
56037 Topographic characteristics of optic disc hemorrhage in primary open-angle glaucoma
Kim YK; Park KH; Yoo BW; Kim HC
Investigative Ophthalmology and Visual Science 2014; 55: 169-176 (IGR: 16-1)
56175 Clarifying the role of ATOH7 in glaucoma endophenotypes
Venturini C; Nag A; Hysi PG; Wang JJ; Wong TY; Healey PR; Mitchell P; Hammond CJ; Viswanathan AC;
British Journal of Ophthalmology 2014; 98: 562-566 (IGR: 16-1)
55981 Longitudinal detection of optic nerve head changes by spectral domain optical coherence tomography in early experimental glaucoma
He L; Yang H; Gardiner SK; Williams G; Hardin C; Strouthidis NG; Fortune B; Burgoyne CF
Investigative Ophthalmology and Visual Science 2014; 55: 574-586 (IGR: 16-1)
56249 Glaucomatous optic neuropathy evaluation (GONE) project: the effect of monoscopic versus stereoscopic viewing conditions on optic nerve evaluation
Chan HH; Ong DN; Kong YX; O'Neill EC; Pandav SS; Coote MA; Crowston JG
American Journal of Ophthalmology 2014; 157: 936-944 (IGR: 16-1)
56671 Stereoscopic analysis of optic nerve head parameters in primary open angle glaucoma: the glaucoma stereo analysis study
Yokoyama Y; Tanito M; Nitta K; Katai M; Kitaoka Y; Omodaka K; Tsuda S; Nakagawa T; Nakazawa T
PLoS ONE 2014; 9: e99138 (IGR: 16-1)
56290 Application of vascular bundle displacement in the optic disc for glaucoma detection using fundus images
Fuente-Arriaga JA; Felipe-Riverón EM; Garduño-Calderón E
Computers in Biology and Medicine 2014; 47: 27-35 (IGR: 16-1)
56614 Characteristics of optic disc parameters and its association in normal Chinese population: the Handan Eye Study
Zhang Q; Li S; Liang Y; Wang F; Chen W; Wang N
Chinese Medical Journal 2014; 127: 1702-1709 (IGR: 16-1)
56477 Comparing Optic Nerve Head Analysis Between Confocal Scanning Laser Ophthalmoscopy and Spectral Domain Optical Coherence Tomography
Roberti G; Centofanti M; Oddone F; Tanga L; Michelessi M; Manni G
Current Eye Research 2014; 39: 1026-1032 (IGR: 16-1)
56576 Repeatability of in vivo 3D lamina cribrosa microarchitecture using adaptive optics spectral domain optical coherence tomography
Nadler Z; Wang B; Wollstein G; Nevins JE; Ishikawa H; Bilonick R; Kagemann L; Sigal IA; Ferguson RD; Patel A; Hammer DX; Schuman JS
Biomedical optics express 2014; 5: 1114-1123 (IGR: 16-1)
56677 Correlation between retinal nerve fiber layer and disc parameters in glaucoma suspected eyes
Kasumovic SS; Pavljasevic S; Cabric E; Mavija M; Dacic-Lepara S; Jankov M
Medicinski arhiv 2014; 68: 113-116 (IGR: 16-1)
56531 A method to estimate biomechanics and mechanical properties of optic nerve head tissues from parameters measurable using optical coherence tomography
Sigal IA; Grimm JL; Schuman JS; Kagemann L; Ishikawa H; Wollstein G
IEEE Transactions on Medical Imaging 2014; 33: 1381-1389 (IGR: 16-1)
56148 Static blood flow autoregulation in the optic nerve head in normal and experimental glaucoma
Wang L; Burgoyne CF; Cull G; Thompson S; Fortune B
Investigative Ophthalmology and Visual Science 2014; 55: 873-880 (IGR: 16-1)
56439 Optical Coherence Tomography Angiography of Optic Disc Perfusion in Glaucoma
Jia Y; Wei E; Wang X; Zhang X; Morrison JC; Parikh M; Lombardi LH; Gattey DM; Armour RL; Edmunds B; Kraus MF; Fujimoto JG; Huang D
Ophthalmology 2014; 121: 1322-1332 (IGR: 16-1)
56539 Effect of Focal Lamina Cribrosa Defect on Glaucomatous Visual Field Progression
Faridi OS; Park SC; Kabadi R; Su D; De Moraes CG; Liebmann JM; Ritch R
Ophthalmology 2014; 121: 1524-1530 (IGR: 16-1)
56192 Characteristics of undiagnosed primary open-angle glaucoma: the Tajimi Study
Iwase A; Suzuki Y; Araie M;
Ophthalmic Epidemiology 2014; 21: 39-44 (IGR: 16-1)
56260 Risk factors for optic disc hemorrhage in the low-pressure glaucoma treatment study
Furlanetto RL; De Moraes CG; Teng CC; Liebmann JM; Greenfield DS; Gardiner SK; Ritch R; Krupin T;
American Journal of Ophthalmology 2014; 157: 945-952 (IGR: 16-1)
55960 Changes in the lamina and prelamina after intraocular pressure reduction in patients with primary open-angle glaucoma and acute primary angle-closure
Park HY; Shin HY; Jung KI; Park CK
Investigative Ophthalmology and Visual Science 2014; 55: 233-239 (IGR: 16-1)
56589 Do optic nerve head and visual field parameters in patients with obstructive sleep apnea syndrome differ from those in control individuals?
Salzgeber R; Iliev ME; Mathis J
Klinische Monatsblätter für Augenheilkunde 2014; 231: 340-343 (IGR: 16-1)
56340 Comparative quantitative study of astrocytes and capillary distribution in optic nerve laminar regions
Balaratnasingam C; Kang MH; Yu P; Chan G; Morgan WH; Cringle SJ; Yu DY
Experimental Eye Research 2014; 121: 11-22 (IGR: 16-1)
55538 Biomechanics of the posterior eye: A critical role in health and disease
Campbell IC; Coudrillier B; Ethier CR
Journal of Biomechanical Engineering 2014; 136: 021005 (IGR: 15-4)
55398 Factors associated with focal lamina cribrosa defects in glaucoma
Park SC; Hsu AT; Su D; Simonson JL; Al-Jumayli M; Liu Y; Liebmann JM; Ritch R
Investigative Ophthalmology and Visual Science 2013; 54: 8401-8407 (IGR: 15-4)
55315 Anti-connective tissue growth factor antibody treatment reduces extracellular matrix production in trabecular meshwork and lamina cribrosa cells
Wallace DM; Clark AF; Lipson KE; Andrews D; Crean JK; O'brien CJ
Investigative Ophthalmology and Visual Science 2013; 54: 7836-7848 (IGR: 15-4)
55213 The locations of circumpapillary glaucomatous defects seen on frequency-domain OCT scans
Hood DC; Wang DL; Raza AS; De Moraes CG; Liebmann JM; Ritch R
Investigative Ophthalmology and Visual Science 2013; 54: 7338-7343 (IGR: 15-4)
55199 Relationship between ganglion cell-inner plexiform layer and optic disc/retinal nerve fibre layer parameters in non-glaucomatous eyes
Tham YC; Cheung CY; Koh VT; Cheng CY; Sidhartha E; Strouthidis NG; Wong TY; Aung T
British Journal of Ophthalmology 2013; 97: 1592-1597 (IGR: 15-4)
55234 Defects of the lamina cribrosa in eyes with localized retinal nerve fiber layer loss
Tatham AJ; Miki A; Weinreb RN; Zangwill LM; Medeiros FA
Ophthalmology 2014; 121: 110-118 (IGR: 15-4)
55238 Optic Nerve Head and Retinal Nerve Fiber Layer Differences Between Caribbean Black and African American Patients as Measured by Spectral Domain OCT
Rao R; Dhrami-Gavazi E; Al-Aswad L; Ciarleglio A; Cioffi GA; Blumberg DM
Journal of Glaucoma 2015; 24: e43-e46 (IGR: 15-4)
55401 Optic nerve cupping and the neuro-ophthalmologist
Fraser CL; White AJ; Plant GT; Martin KR
Journal of Neuro-Ophthalmology 2013; 33: 377-389 (IGR: 15-4)
55454 Parapapillary gamma zone hole
Dai Y; Jonas JB; Ling Z; Sun X
Journal of Glaucoma 2013; 22: e33-e35 (IGR: 15-4)
55456 In vivo lamina cribrosa micro-architecture in healthy and glaucomatous eyes as assessed by optical coherence tomography
Wang B; Nevins JE; Nadler Z; Wollstein G; Ishikawa H; Bilonick RA; Kagemann L; Sigal IA; Grulkowski I; Liu JJ; Kraus M; Lu CD; Hornegger J; Fujimoto JG; Schuman JS
Investigative Ophthalmology and Visual Science 2013; 54: 8270-8274 (IGR: 15-4)
55163 Inhibition of oxidative stress by coenzyme Q10 increases mitochondrial mass and improves bioenergetic function in optic nerve head astrocytes
Noh YH; Kim KY; Shim MS; Choi SH; Choi S; Ellisman MH; Weinreb RN; Perkins GA; Ju WK
Cell Death and Disease 2013; 4: e820 (IGR: 15-4)
55682 Peripapillary retinoschisis in glaucomatous eyes
Lee EJ; Kim TW; Kim M; Choi YJ
PLoS ONE 2014; 9: e90129 (IGR: 15-4)
55375 Application of the ISNT Rule to Neuroretinal Rim Thickness Determined Using Cirrus HD Optical Coherence Tomography
Hwang YH; Kim YY
Journal of Glaucoma 2015; 24: 503-507 (IGR: 15-4)
55696 Influence of automated disc margin determination on Stratus OCT optic nerve head measurements
Soares de Camargo A; Melo LA; Hirai FE; Tavares IM
Clinical Ophthalmology 2014; 8: 493-497 (IGR: 15-4)
55459 Cerebrospinal fluid pressure and glaucoma: regulation of trans-lamina cribrosa pressure
Marek B; Harris A; Kanakamedala P; Lee E; Amireskandari A; Carichino L; Guidoboni G; Tobe LA; Siesky B
British Journal of Ophthalmology 2014; 98: 721-725 (IGR: 15-4)
55341 Peripapillary arterial circle of Zinn-Haller: location and spatial relationships with myopia
Jonas JB; Holbach L; Panda-Jonas S
PLoS ONE 2013; 8: e78867 (IGR: 15-4)
55349 Structural diagnostics of course observation for glaucoma
Mardin CY
Ophthalmologe 2013; 110: 1036-1044 (IGR: 15-4)
55570 Peripapillary ring: histology and correlations
Jonas JB; Holbach L; Panda-Jonas S
Acta Ophthalmologica 2014; 92: e273-e279 (IGR: 15-4)
55506 Sequential-Digital Image Correlation for Mapping Human Posterior Sclera and Optic Nerve Head Deformation
Vande Geest J; Pyne JD; Genovese K; Casaletto L
Journal of Biomechanical Engineering 2014; 136: 021002 (IGR: 15-4)
55482 Trans-lamina cribrosa pressure difference and open-angle glaucoma. The central India eye and medical study
Jonas JB; Nangia V; Wang N; Bhate K; Nangia P; Yang D; Xie X; Panda-Jonas S
PLoS ONE 2013; 8: e82284 (IGR: 15-4)
55271 Glaucoma in an eye with situs inversus of the optic disc
Han SY; Hwang YH
Seminars in Ophthalmology 2014; 29: 172-174 (IGR: 15-4)
55258 Exome sequencing and functional analyses suggest that SIX6 is a gene involved in an altered proliferation-differentiation balance early in life and optic nerve degeneration at old age
Iglesias AI; Springelkamp H; van der Linde H; Severijnen LA; Amin N; Oostra B; Kockx CE; van den Hout MC; van Ijcken WF; Hofman A; Uitterlinden AG; Verdijk RM; Klaver CC; Willemsen R; Van Duijn CM
Human Molecular Genetics 2014; 23: 1320-1332 (IGR: 15-4)
55741 Osteopontin Is Induced by TGF-β2 and Regulates Metabolic Cell Activity in Cultured Human Optic Nerve Head Astrocytes
Neumann C; Garreis F; Paulsen F; Hammer CM; Birke MT; Scholz M
PLoS ONE 2014; 9: e92762 (IGR: 15-4)
55121 Delta-opioid receptors attenuate TNF-α-induced MMP-2 secretion from human ONH astrocytes
Akhter N; Nix M; Abdul Y; Singh S; Husain S
Investigative Ophthalmology and Visual Science 2013; 54: 6605-6611 (IGR: 15-4)
55319 Does optic nerve head surface topography change prior to loss of retinal nerve fiber layer thickness: a test of the site of injury hypothesis in experimental glaucoma
Fortune B; Reynaud J; Wang L; Burgoyne CF
PLoS ONE 2013; 8: e77831 (IGR: 15-4)
55774 Correlation between Optic Nerve Parameters Obtained Using 3D Nonmydriatic Retinal Camera and Optical Coherence Tomography: Interobserver Agreement on the Disc Damage Likelihood Scale
Han JW; Cho SY; Kang KD
Journal of Ophthalmology 2014; 2014: 931738 (IGR: 15-4)
55176 Intraobserver and interobserver agreement of computer software-assisted optic nerve head photoplanimetry
Tanito M; Sagara T; Takamatsu M; Kiuchi Y; Nakagawa T; Fujita Y; Ohira A
Japanese Journal of Ophthalmology 2014; 58: 56-61 (IGR: 15-4)
55722 Clinical significance of optic disc progression by topographic change analysis maps in glaucoma: an 8-year follow-up study
Kourkoutas D; Buys YM; Flanagan JG; Karamaounas N; Georgopoulos G; Iliakis E; Moschos MM; Trope GE
Journal of Ophthalmology 2014; 2014: 987389 (IGR: 15-4)
55626 Glaucoma-induced optic disc morphometric changes and glaucoma diagnostic ability of Heidelberg Retina Tomograph II in highly myopic eyes
Mayama C; Tsutsumi T; Saito H; Asaoka R; Tomidokoro A; Iwase A; Otani S; Miyata K; Araie M
PLoS ONE 2014; 9: e86417 (IGR: 15-4)
55372 A Comparison of Optic Nerve Head Topographic Measurements by Stratus OCT in Patients With Macrodiscs and Normal-sized Healthy Discs
Onmez FE; Satana B; Altan C; Basarir B; Demirok A
Journal of Glaucoma 2014; 23: e152-e156 (IGR: 15-4)
55367 A method to estimate the amount of neuroretinal rim tissue in glaucoma: comparison with current methods for measuring rim area
Gardiner SK; Ren R; Yang H; Fortune B; Burgoyne CF; Demirel S
American Journal of Ophthalmology 2014; 157: 540-9.e1-2 (IGR: 15-4)
55710 Anatomic vs. acquired image frame discordance in spectral domain optical coherence tomography minimum rim measurements
He L; Ren R; Yang H; Hardin C; Reyes L; Reynaud J; Gardiner SK; Fortune B; Demirel S; Burgoyne CF
PLoS ONE 2014; 9: e92225 (IGR: 15-4)
55329 Influence of disc area on retinal nerve fiber layer thickness measurement by spectral domain optical coherence tomography
Mansoori T; Balakrishna N; Viswanath K
Indian Journal of Ophthalmology 2013; 0: (IGR: 15-4)
55752 Reproducibility of In-Vivo OCT Measured Three-Dimensional Human Lamina Cribrosa Microarchitecture
Wang B; Nevins JE; Nadler Z; Wollstein G; Ishikawa H; Bilonick RA; Kagemann L; Sigal IA; Grulkowski I; Liu JJ; Kraus M; Lu CD; Hornegger J; Fujimoto JG; Schuman JS
PLoS ONE 2014; 9: e95526 (IGR: 15-4)
55554 Glaucoma Diagnostic Accuracy of Machine Learning Classifiers Using Retinal Nerve Fiber Layer and Optic Nerve Data from SD-OCT
Barella KA; Costa VP; Gonçalves Vidotti V; Silva FR; Dias M; Gomi ES
Journal of Ophthalmology 2013; 2013: 789129 (IGR: 15-4)
55210 Comparison of enhanced depth imaging and high-penetration optical coherence tomography for imaging deep optic nerve head and parapapillary structures
Miki A; Ikuno Y; Jo Y; Nishida K
Clinical Ophthalmology 2013; 7: 1995-2001 (IGR: 15-4)
55507 A comparison of false positives in retinal nerve fiber layer, optic nerve head and macular ganglion cell-inner plexiform layer from two spectral-domain optical coherence tomography devices
Leal-Fonseca M; Rebolleda G; Oblanca N; Moreno-Montañes J; Muñoz-Negrete FJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2014; 252: 321-330 (IGR: 15-4)
55513 Detecting an event of progression using glaucoma probability score and the stereometric parameters of Heidelberg Retina Tomograph 3
Saarela V; Falck A; Tuulonen A
European Journal of Ophthalmology 2013; 0: 0 (IGR: 15-4)
55666 Assessment of the optic nerve head parameters using Heidelberg retinal tomography III in preterm children
Alshaarawi S; Shatriah I; Zunaina E; Wan Hitam WH
PLoS ONE 2014; 9: e88056 (IGR: 15-4)
55362 Retinal nerve fibre layer cross-sectional area, neuroretinal rim area and body mass index
Jonas JB; Nangia V; Gupta R; Agarwal S; Matin A; Khare A; Bhate K; Sinha A; Bhojwani K; Kulkarni M; Panda-Jonas S
Acta Ophthalmologica 2014; 92: e194-e199 (IGR: 15-4)
55686 Anatomical attributes of the optic nerve head in eyes with parafoveal scotoma in normal tension glaucoma
Rao A; Mukherjee S
PLoS ONE 2014; 9: e90554 (IGR: 15-4)
55496 Comparison of normal- and high-tension glaucoma: nerve fiber layer and optic nerve head damage
Häntzschel J; Terai N; Furashova O; Pillunat K; Pillunat LE
Ophthalmologica 2014; 231: 160-165 (IGR: 15-4)
55276 Correlation Between Optic Nerve Head Parameters, RNFL, and CCT in Patients with Bilateral Pseudoexfoliation Using HRT-III
Vergados A; Papaconstantinou D; Diagourtas A; Theodossiadis PG; Vergados I; Georgalas I
Seminars in Ophthalmology 2015; 30: 44-52 (IGR: 15-4)
55259 Pathogenesis and clinical implications of optic disk hemorrhage in glaucoma
Suh MH; Park KH
Survey of Ophthalmology 2014; 59: 19-29 (IGR: 15-4)
55353 Changes in lamina cribrosa and prelaminar tissue after deep sclerectomy
Barrancos C; Rebolleda G; Oblanca N; Cabarga C; Muñoz-Negrete FJ
Eye 2014; 28: 58-65 (IGR: 15-4)
55744 Optic disc hemorrhage after phacoemulsification in patients with glaucoma
Bojikian KD; Moore DB; Chen PP; Slabaugh MA
ISRN ophthalmology 2014; 2014: 574054 (IGR: 15-4)
54489 The influence of intersubject variability in ocular anatomical variables on the mapping of retinal locations to the retinal nerve fiber layer and optic nerve head
Lamparter J; Russell RA; Zhu H; Asaoka R; Yamashita T; Ho T; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2013; 54: 6074-6082 (IGR: 15-3)
54809 Prevalence of optic disc hemorrhages in rural central India. The Central Indian Eye and Medical Study
Jonas JB; Nangia V; Khare A; Kulkarni M; Matin A; Sinha A; Bhojwani K; Nangia P; Panda-Jonas S
PLoS ONE 2013; 8: e76154 (IGR: 15-3)
54739 Peripapillary Retinal Nerve Fiber Layer and Optic Nerve Head Characteristics in Eyes With Situs Inversus of the Optic Disc
Kang S; Jin S; Roh KH; Hwang YH
Journal of Glaucoma 2015; 24: 306-310 (IGR: 15-3)
54578 Evaluation of Progressive Neuroretinal Rim Loss as a Surrogate End Point for Development of Visual Field Loss in Glaucoma
Medeiros FA; Lisboa R; Zangwill LM; Liebmann JM; Girkin CA; Bowd C; Weinreb RN
Ophthalmology 2014; 121: 100-109 (IGR: 15-3)
54422 Variation of lamina cribrosa depth following trabeculectomy
Lee EJ; Kim TW; Weinreb RN
Investigative Ophthalmology and Visual Science 2013; 54: 5392-5399 (IGR: 15-3)
54633 The relationship between vertical cup-disc ratio and body mass index in Port Harcourt, Nigeria
Pedro-Egbe CN; Awoyesuku EA
Nigerian journal of clinical practice 2013; 16: 517-520 (IGR: 15-3)
54500 Measurement of the optic disc vertical tilt angle with spectral-domain optical coherence tomography and influencing factors
Hosseini H; Nassiri N; Azarbod P; Giaconi J; Chou T; Caprioli J; Nouri-Mahdavi K
American Journal of Ophthalmology 2013; 156: 737-744 (IGR: 15-3)
54490 In vivo optic nerve head biomechanics: performance testing of a three-dimensional tracking algorithm
Girard MJ; Strouthidis NG; Desjardins A; Mari JM; Ethier CR
Journal of the Royal Society, Interface / the Royal Society 2013; 10: 20130459 (IGR: 15-3)
54335 Three-dimensional imaging of lamina cribrosa defects in glaucoma using swept-source optical coherence tomography
Takayama K; Hangai M; Kimura Y; Morooka S; Nukada M; Akagi T; Ikeda HO; Matsumoto A; Yoshimura N
Investigative Ophthalmology and Visual Science 2013; 54: 4798-4807 (IGR: 15-3)
54423 Ethnic variation in optic disc size by fundus photography
Lee RY; Kao AA; Kasuga T; Vo BN; Cui QN; Chiu CS; Weinreb RN; Lin SC
Current Eye Research 2013; 38: 1142-1147 (IGR: 15-3)
54334 Posterior displacement of the lamina cribrosa in glaucoma: in vivo interindividual and intereye comparisons
Furlanetto RL; Park SC; Damle UJ; Sieminski SF; Kung Y; Siegal N; Liebmann JM; Ritch R
Investigative Ophthalmology and Visual Science 2013; 54: 4836-4842 (IGR: 15-3)
54820 Self-assessment for optic disc segmentation
Cheng J; Liu J; Yin F; Lee BH; Wong DW; Aung T; Cheng CY; Wong TY
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2013; 2013: 5861-5864 (IGR: 15-3)
54518 Elevated maxi-K(+) ion channel current in glaucomatous lamina cribrosa cells
Irnaten M; Barry RC; Wallace DM; Docherty NG; Quill B; Clark AF; O'brien CJ
Experimental Eye Research 2013; 115: 224-229 (IGR: 15-3)
54667 Collagen: a potential factor involved in the pathogenesis of glaucoma
Huang W; Fan Q; Wang W; Zhou M; Laties AM; Zhang X
Medical science monitor basic research 2013; 19: 237-240 (IGR: 15-3)
54866 Studies on glial isomeration of lamina cribrosa in rat
Dai C; Li DQ; Li Y; Raisman G; Yin ZQ
Chinese Journal of Ophthalmology 2013; 49: 723-728 (IGR: 15-3)
54742 Diagnostic Performance of the ISNT Rule for Glaucoma Based on the Heidelberg Retinal Tomograph
Chan EW; Liao J; Wong R; Loon SC; Aung T; Wong TY; Cheng CY
Translational vision science & technology 2013; 2: 2 (IGR: 15-3)
54521 The ability of macular parameters and circumpapillary retinal nerve fiber layer by three SD-OCT instruments to diagnose highly myopic glaucoma
Akashi A; Kanamori A; Nakamura M; Fujihara M; Yamada Y; Negi A
Investigative Ophthalmology and Visual Science 2013; 54: 6025-6032 (IGR: 15-3)
54520 The comparison of manual vs automated disc margin delineation using spectral-domain optical coherence tomography
Iverson SM; Sehi M
Eye 2013; 27: 1180-1187 (IGR: 15-3)
54767 Combination of optic disc rim area and retinal nerve fiber layer thickness for early glaucoma detection by using spectral domain OCT
Suh MH; Kim SK; Park KH; Kim DM; Kim SH; Kim HC
Graefe's Archive for Clinical and Experimental Ophthalmology 2013; 251: 2617-2625 (IGR: 15-3)
54558 Comparison of optic nerve morphology in eyes with glaucoma and eyes with non-arteritic anterior ischemic optic neuropathy by Fourier domain optical coherence tomography
Yang Y; Zhang H; Yan Y; Gui Y; Zhu T
Experimental and therapeutic medicine 2013; 6: 268-274 (IGR: 15-3)
54818 Changes in retinal nerve fiber layer and optic disc algorithms by optical coherence tomography in glaucomatous Arab subjects
Zeried FM; Osuagwu UL
Clinical Ophthalmology 2013; 7: 1941-1949 (IGR: 15-3)
54838 Optic disc topography of normal tension glaucoma patients in Malaysia
Adlina AR; Shatriah I; Liza Sharmini AT; Ahmad MS
Medical Journal of Malaysia 2013; 68: 338-342 (IGR: 15-3)
54761 Effects of optic disc size on progression of visual field defects in normal-tension glaucoma
Hayamizu F; Yamazaki Y
Nippon Ganka Gakkai Zasshi 2013; 117: 609-615 (IGR: 15-3)
54076 Association of the optic disc structure with the use of antihypertensive medications: the thessaloniki eye study
Harris A; Topouzis F; Wilson MR; Founti P; Kheradiya NS; Anastasopoulos E; Gong G; Yu F; Jonescu-Cuypers CP; Pappas T; Koskosas A; Coleman AL
Journal of Glaucoma 2013; 22: 526-531 (IGR: 15-3)
54871 Differentiation of concomitant glaucomatous optic neuropathy in optic disc drusen
Vestnik Oftalmologii 2013; 129: 68-72 (IGR: 15-3)
54778 Topographic optic disc changes after successful trabeculectomy evaluated using spectral domain optical coherence tomography
Russo A; Katsanos A; Riva I; Floriani I; Biagioli E; Quaranta L
Journal of Ocular Pharmacology and Therapeutics 2013; 29: 870-875 (IGR: 15-3)
53689 RETINAL INNER NUCLEAR LAYER MICROCYSTIC CHANGES IN OPTIC NERVE ATROPHY: A Novel Spectral-Domain OCT Finding
Wolff B; Basdekidou C; Vasseur V; Mauget-Faÿsse M; Sahel JA; Vignal C
Retina (Philadelphia, Pa.) 2013; 33: 2133-2138 (IGR: 15-2)
53513 The relationship between cup-to-disc ratio and estimated number of retinal ganglion cells
Tatham AJ; Weinreb RN; Zangwill LM; Liebmann JM; Girkin CA; Medeiros FA
Investigative Ophthalmology and Visual Science 2013; 54: 3205-3214 (IGR: 15-2)
53911 Imaging of the Lamina Cribrosa in Glaucoma: Perspectives of Pathogenesis and Clinical Applications
Kim TW; Kagemann L; Girard MJ; Strouthidis NG; Sung KR; Leung CK; Schuman JS; Wollstein G
Current Eye Research 2013; 38: 903-909 (IGR: 15-2)
53531 Lipofuscin in human glaucomatous optic nerves
Fernandez de Castro JP; Mullins RF; Manea AM; Hernandez J; Wallen T; Kuehn MH
Experimental Eye Research 2013; 111: 61-66 (IGR: 15-2)
53999 Accuracy of Matching Optic Discs with Visual Fields: The European Structure and Function Assessment Trial (ESAFAT)
van der Schoot J; Reus NJ; Garway-Heath DF; Saarela V; Anton A; Bron AM; Faschinger C; Holló G; Iester M; Jonas JB; Topouzis F; Zeyen TG; Lemij HG
Ophthalmology 2013; 120: 2470-2475 (IGR: 15-2)
53634 Glaucomatous Cupping and Raised IOP: Sine qua Non for Glaucoma?
Rao A; Kesarwani S; Jena S; Mandal S
Seminars in Ophthalmology 2013; 28: 203-205 (IGR: 15-2)
54048 3D modeling to characterize lamina cribrosa surface and pore geometries using in vivo images from normal and glaucomatous eyes
Sredar N; Ivers KM; Queener HM; Zouridakis G; Porter J
Biomedical optics express 2013; 4: 1153-1165 (IGR: 15-2)
53843 In vivo evaluation of lamina cribrosa deformation in glaucoma
Park SC
Journal of Glaucoma 2013; 22: S29-31 (IGR: 15-2)
53913 From clinical examination of the optic disc to clinical assessment of the optic nerve head: a paradigm change
Chauhan BC; Burgoyne CF
American Journal of Ophthalmology 2013; 156: 218-227.e2 (IGR: 15-2)
53698 Reversible reactivity by optic nerve astrocytes
Sun D; Qu J; Jakobs TC
GLIA 2013; 61: 1218-1235 (IGR: 15-2)
53708 Idebenone prevents human optic nerve head astrocytes from oxidative stress, apoptosis, and senescence by stabilizing BAX/Bcl-2 ratio
Kernt M; Arend N; Buerger A; Mann T; Haritoglou C; Ulbig MW; Kampik A; Hirneiss C
Journal of Glaucoma 2013; 22: 404-412 (IGR: 15-2)
53668 Assessment of optic disc photographs for glaucoma by UK optometrists: the Moorfields Optic Disc Assessment Study (MODAS)
Hadwin SE; Redmond T; Garway-Heath DF; Lemij HG; Reus NJ; Ward G; Anderson RS
Ophthalmic and Physiological Optics 2013; 33: 618-624 (IGR: 15-2)
54038 Comparison of reliability of the eye optic disc cup and pallor areas in glaucoma diagnostics
Pluhácek F; Wagner J
Collegium Antropologicum 2013; 37: 59-63 (IGR: 15-2)
53791 The Heidelberg retina tomograph ancillary study to the European glaucoma prevention study: study design and baseline factors
Hoffmann EM; Miglior S; Zeyen T; Torri V; Rulli E; Aliyeva S; Floriani I; Cunha-Vaz J; Pfeiffer N
Acta Ophthalmologica 2013; 91: e612-e619 (IGR: 15-2)
53270 Comparison of optic nerve head parameter measurements obtained by time-domain and spectral-domain optical coherence tomography
Savini G; Barboni P; Carbonelli M; Sbreglia A; Deluigi G; Parisi V
Journal of Glaucoma 2013; 22: 384-389 (IGR: 15-2)
53854 Longitudinal hemodynamic changes within the optic nerve head in experimental glaucoma
Cull G; Burgoyne CF; Fortune B; Wang L
Investigative Ophthalmology and Visual Science 2013; 54: 4271-4277 (IGR: 15-2)
53508 Effect of topical tafluprost on optic nerve head blood flow in patients with myopic disc type
Tsuda S; Yokoyama Y; Chiba N; Aizawa N; Shiga Y; Yasuda M; Yokokura S; Otomo T; Fuse N; Nakazawa T
Journal of Glaucoma 2013; 22: 398-403 (IGR: 15-2)
53802 Features of optic disc progression in patients with ocular hypertension and early glaucoma
Lloyd MJ; Mansberger SL; Fortune BA; Nguyen H; Torres R; Demirel S; Gardiner SK; Johnson CA; Cioffi GA
Journal of Glaucoma 2013; 22: 343-348 (IGR: 15-2)
53654 Optic Nerve Diffusion Tensor Imaging Parameters and Their Correlation With Optic Disc Topography and Disease Severity in Adult Glaucoma Patients and Controls
Chang ST; Xu J; Trinkaus K; Pekmezci M; Arthur SN; Song SK; Barnett EM
Journal of Glaucoma 2014; 23: 513-520 (IGR: 15-2)
53499 Paradoxical thinning of the retinal nerve fiber layer after reversal of cupping: A case report of primary infantile glaucoma
Chang TC; Grajewski AL
Indian Journal of Ophthalmology 2013; 0: (IGR: 15-2)
53623 Evaluation of Lamina Cribrosa in Pseudoexfoliation Syndrome Using Spectral-Domain Optical Coherence Tomography Enhanced Depth Imaging
Kim S; Sung KR; Lee JR; Lee KS
Ophthalmology 2013; 120: 1798-1803 (IGR: 15-2)
53650 Evaluation of the Effect of Pan Retinal Photocoagulation on Optic Nerve Head Parameters Using HRT3
Singh H; Garg S; Sharma R; Venkatesh P; Saxena R; Dada T
Journal of Glaucoma 2014; 23: 467-470 (IGR: 15-2)
53678 Choice of statistical method influences apparent association between structure and function in glaucoma
Marín-Franch I; Malik R; Crabb DP; Swanson WH
Investigative Ophthalmology and Visual Science 2013; 54: 4189-4196 (IGR: 15-2)
52699 Relationship between corneal hysteresis and optic nerve parameters measured with spectral domain optical coherence tomography
Vu DM; Silva FQ; Haseltine SJ; Ehrlich JR; Radcliffe NM
Graefe's Archive for Clinical and Experimental Ophthalmology 2013; 251: 1777-1783 (IGR: 15-1)
52382 Development of diagnostic and treatment strategies for glaucoma through understanding and modification of scleral and lamina cribrosa connective tissue
Quigley HA; Cone FE
Cell and Tissue Research 2013; 353: 231-244 (IGR: 15-1)
52937 Automated detection of optic disk in retinal fundus images using intuitionistic fuzzy histon segmentation
Mookiah MR; Acharya UR; Chua CK; Min LC; Ng EY; Mushrif MM; Laude A
Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine 2013; 227: 37-49 (IGR: 15-1)
52719 New insights into the study of optic nerve diseases
Negi A
Nippon Ganka Gakkai Zasshi 2013; 117: 187-210 (IGR: 15-1)
52884 Focal lamina cribrosa defects associated with glaucomatous rim thinning and acquired pits
You JY; Park SC; Su D; Teng CC; Liebmann JM; Ritch R
JAMA ophthalmology 2013; 131: 314-320 (IGR: 15-1)
52742 Integrins in trabecular meshwork and optic nerve head: possible association with the pathogenesis of glaucoma
Zhong Y; Wang J; Luo X
BioMed research international 2013; 2013: 202905 (IGR: 15-1)
53131 Expression Profiling in Glaucomatous Human Lamina Cribrosa Cells Based on Graph-clustering Approach
Luo D; Liu K; Zhu B; Xu X
Current Eye Research 2013; 38: 767-773 (IGR: 15-1)
53219 Agreement of flicker chronoscopy for structural glaucomatous progression detection and factors associated with progression
Chee RI; Silva FQ; Ehrlich JR; Radcliffe NM
American Journal of Ophthalmology 2013; 155: 983-990.e1 (IGR: 15-1)
53213 The rate of structural change: the confocal scanning laser ophthalmoscopy ancillary study to the ocular hypertension treatment study
Zangwill LM; Jain S; Dirkes K; He F; Medeiros FA; Trick GL; Brandt JD; Cioffi GA; Coleman AL; Liebmann JM; Piltz-Seymour JR; Gordon MO; Kass MA; Weinreb RN;
American Journal of Ophthalmology 2013; 155: 971-982 (IGR: 15-1)
52768 Enhancement of lamina cribrosa visibility in optical coherence tomography images using adaptive compensation
Mari JM; Strouthidis NG; Park SC; Girard MJ
Investigative Ophthalmology and Visual Science 2013; 54: 2238-2247 (IGR: 15-1)
52505 Superpixel classification based optic disc and optic cup segmentation for glaucoma screening
Cheng J; Liu J; Xu Y; Yin F; Wong DW; Tan NM; Tao D; Cheng CY; Aung T; Wong TY
IEEE Transactions on Medical Imaging 2013; 32: 1019-1032 (IGR: 15-1)
52994 Measuring hemoglobin levels in the optic nerve head: comparisons with other structural and functional parameters of glaucoma
Gonzalez de la Rosa M; Gonzalez-Hernandez M; Sigut J; Alayon S; Radcliffe N; Mendez-Hernandez C; García-Feijoo J; Fuertes-Lazaro I; Perez-Olivan S; Ferreras A
Investigative Ophthalmology and Visual Science 2013; 54: 482-489 (IGR: 15-1)
52451 Optic nerve head morphology in young patients after antiglaucomatous filtering surgery
Panda-Jonas S; Xu L; Yang H; Wang YX; Jonas SB; Jonas JB
Acta Ophthalmologica 2014; 92: 59-64 (IGR: 15-1)
52457 Morphological and functional differences between normal-tension and high-tension glaucoma
Häntzschel J; Terai N; Sorgenfrei F; Haustein M; Pillunat K; Pillunat LE
Acta Ophthalmologica 2013; 91: e386-e391 (IGR: 15-1)
53173 Comparison of clinical characteristics between Korean and Western normal-tension glaucoma patients
Kim JM; Jeoung JW; Bitrian E; Supawavej C; Mock D; Park KH; Caprioli J
American Journal of Ophthalmology 2013; 155: 852-857 (IGR: 15-1)
53150 Optic disc size and progression of visual field damage in patients with normal-tension glaucoma
Hayamizu F; Yamazaki Y; Nakagami T; Mizuki K
Clinical Ophthalmology 2013; 7: 807-813 (IGR: 15-1)
53188 Membrane tissue on the optic disc may cause macular schisis associated with a glaucomatous optic disc without optic disc pits
Takashina S; Saito W; Noda K; Katai M; Ishida S
Clinical Ophthalmology 2013; 7: 883-887 (IGR: 15-1)
52431 Optic Disc and Retinal Nerve Fiber Layer Thickness Descriptive Analysis in Megalopapilla
da Costa AM; Cronemberger S
Journal of Glaucoma 2014; 23: 368-371 (IGR: 15-1)
51918 Reversal of Lamina Cribrosa Displacement after Intraocular Pressure Reduction in Open-Angle Glaucoma
Lee EJ; Kim TW; Weinreb RN; Kim H
Ophthalmology 2013; 120: 553-559 (IGR: 14-4)
52047 A characteristic optic disc appearance associated with myopia in subjects with Graves' ophthalmopathy and in subjects with primary open-angle glaucoma
Yamazaki S; Inoue R; Tsuboi T; Kozaki A; Inoue T; Inoue Y
Clinical Ophthalmology 2013; 7: 47-53 (IGR: 14-4)
51784 Position of the central retinal vessel trunk and pattern of remaining visual field in advanced glaucoma
Huang H; Jonas JB; Dai Y; Hong J; Wang M; Chen J; Wu J; Sun X
British Journal of Ophthalmology 2013; 97: 96-100 (IGR: 14-4)
51661 HIF-1 expression in retinal ganglion cells and optic nerve axons in glaucoma
Reszeć J; Zalewska R; Bernaczyk P; Chyczewski L
Folia histochemica et cytobiologica / Polish Academy of Sciences, Polish Histochemical and Cytochemical Society 2012; 50: 456-459 (IGR: 14-4)
51848 Anterior and posterior optic nerve head blood flow in nonhuman primate experimental glaucoma model measured by laser speckle imaging technique and microsphere method
Wang L; Cull GA; Piper C; Burgoyne CF; Fortune B
Investigative Ophthalmology and Visual Science 2012; 53: 8303-8309 (IGR: 14-4)
51394 Automated alternation flicker for the detection of optic disc haemorrhages
Syed ZA; Radcliffe NM; De Moraes CG; Smith SD; Liebmann JM; Ritch R
Acta Ophthalmologica 2012; 90: 645-650 (IGR: 14-4)
51711 Improved reproducibility in measuring the laminar thickness on enhanced depth imaging SD-OCT images using maximum intensity projection
Lee EJ; Kim TW; Weinreb RN
Investigative Ophthalmology and Visual Science 2012; 53: 7576-7582 (IGR: 14-4)
51993 Enhanced Detection of Open-angle Glaucoma with an Anatomically Accurate Optical Coherence Tomography-Derived Neuroretinal Rim Parameter
Chauhan BC; O'Leary N; Almobarak FA; Reis AS; Yang H; Sharpe GP; Hutchison DM; Nicolela MT; Burgoyne CF
Ophthalmology 2013; 120: 535-543 (IGR: 14-4)
51954 Clinicopathologic correlation of disc and peripapillary region using SD-OCT
Sigler EJ; Mascarenhas KG; Tsai JC; Loewen NA
Optometry and Vision Science 2013; 90: 84-93 (IGR: 14-4)
51988 Diagnostic Capability of Lamina Cribrosa Thickness by Enhanced Depth Imaging and Factors Affecting Thickness in Patients with Glaucoma
Park HY; Park CK
Ophthalmology 2013; 120: 745-752 (IGR: 14-4)
52042 Prospective evaluation of optic nerve head by confocal scanning laser ophthalmoscopy after intraocular pressure control in adult glaucoma
Rao A; Sihota R; Srinivasan G; Gupta V; Gupta A; Sharma A
Seminars in Ophthalmology 2013; 28: 13-18 (IGR: 14-4)
51748 Pulsatile movement of the optic nerve head and the peripapillary retina in normal subjects and in glaucoma
Singh K; Dion C; Godin AG; Lorghaba F; Descovich D; Wajszilber M; Ozaki T; Costantino S; Lesk MR
Investigative Ophthalmology and Visual Science 2012; 53: 7819-7824 (IGR: 14-4)
51967 Quantitative OCT angiography of optic nerve head blood flow
Jia Y; Morrison JC; Tokayer J; Tan O; Lombardi L; Baumann B; Lu CD; Choi W; Fujimoto JG; Huang D
Biomedical optics express 2012; 3: 3127-3137 (IGR: 14-4)
51931 Diagnostic Specificities of Retinal Nerve Fiber Layer, Optic Nerve Head, and Macular Ganglion Cell-Inner Plexiform Layer Measurements in Myopic Eyes
Aref AA; Sayyad FE; Mwanza JC; Feuer WJ; Budenz DL
Journal of Glaucoma 2014; 23: 487-493 (IGR: 14-4)
52081 Morphometric characteristics of optic disc in patients with myopia and primary open-angle glaucoma
Gvozdenović R; Risović D; Marjanović I; Vuković D; Stanković B
Vojnosanitetski pregled. Military-medical and pharmaceutical review 2013; 70: 51-56 (IGR: 14-4)
51775 Superior segmental optic nerve hypoplasia accompanied by progressive normal-tension glaucoma
Yamazaki Y; Hayamizu F
Clinical Ophthalmology 2012; 6: 1713-1716 (IGR: 14-4)
51869 Optic disc rim area to retinal nerve fiber layer thickness correlation: comparison of diabetic and normal tension glaucoma eyes
Suh MH; Kim SH; Park KH; Yu HG; Huh JW; Kim DM
Japanese Journal of Ophthalmology 2013; 57: 156-165 (IGR: 14-4)
51737 Differentiation by imaging of superior segmental optic hypoplasia and normal-tension glaucoma with inferior visual field defects only
Yamada M; Ohkubo S; Higashide T; Nitta K; Takeda H; Sugiyama K
Japanese Journal of Ophthalmology 2013; 57: 25-33 (IGR: 14-4)
51992 A classic temporal optic disc pit showing progression in the corresponding optic nerve fiber and visual field defects
Tawara A; Miyamoto R; Tou N; Ishibashi S; Kondo H
Japanese Journal of Ophthalmology 2013; 57: 263-267 (IGR: 14-4)
51223 Human lamina cribrosa insertion and age
Sigal IA; Flanagan JG; Lathrop KL; Tertinegg I; Bilonick R
Investigative Ophthalmology and Visual Science 2012; 53: 6870-6879 (IGR: 14-3)
51041 Genetic investigation into the endophenotypic status of central corneal thickness and optic disc parameters in relation to open-angle glaucoma
Dimasi DP; Burdon KP; Hewitt AW; Fitzgerald J; Wang JJ; Healey PR; Mitchell P; Mackey DA; Craig JE
American Journal of Ophthalmology 2012; 154: 833-842.e2 (IGR: 14-3)
51246 Distribution of damage to the entire retinal ganglion cell pathway: quantified using spectral-domain optical coherence tomography analysis in patients with glaucoma
Lee K; Kwon YH; Garvin MK; Niemeijer M; Sonka M; Abràmoff MD
Archives of Ophthalmology 2012; 130: 1118-1126 (IGR: 14-3)
51190 Evaluation of Optic Nerve Head Using a Newly Developed Stereo Retinal Imaging Technique by Glaucoma Specialist and Non-Expert-Certified Orthoptist
Asakawa K; Kato S; Shoji N; Morita T; Shimizu K
Journal of Glaucoma 2013; 22: 698-706 (IGR: 14-3)
50821 Measurement of optic disc size and rim area with spectral-domain OCT and scanning laser ophthalmoscopy
Moghimi S; Hosseini H; Riddle J; Lee GY; Bitrian E; Giaconi J; Caprioli J; Nouri-Mahdavi K
Investigative Ophthalmology and Visual Science 2012; 53: 4519-4530 (IGR: 14-3)
50685 Glaucoma diagnostic capabilities of optic nerve head parameters as determined by Cirrus HD optical coherence tomography
Sung KR; Na JH; Lee Y
Journal of Glaucoma 2012; 21: 498-504 (IGR: 14-3)
51170 Comparison of Spectral-Domain Optical Coherence Tomography and Heidelberg Retina Tomograph III Optic Nerve Head Parameters in Glaucoma
Seymenoğlu G; Başer E; Oztürk B
Ophthalmologica 2013; 229: 101-105 (IGR: 14-3)
50925 Does optic nerve head size variation affect circumpapillary retinal nerve fiber layer thickness measurement by optical coherence tomography?
Huang D; Chopra V; Lu AT; Tan O; Francis B; Varma R;
Investigative Ophthalmology and Visual Science 2012; 53: 4990-4997 (IGR: 14-3)
50982 Laminar displacement and prelaminar tissue thickness change after glaucoma surgery imaged with optical coherence tomography
Reis AS; O'Leary N; Stanfield MJ; Shuba LM; Nicolela MT; Chauhan BC
Investigative Ophthalmology and Visual Science 2012; 53: 5819-5826 (IGR: 14-3)
50970 Juvenile glaucoma and optic disc pit with macular detachment in Klinefelter's syndrome
Muniesa Royo MJ; Sánchez Pérez C; Jurjo Campo C
Archivos de la Sociedad Española de Oftalmologia 2012; 87: 256-259 (IGR: 14-3)
50684 Glaucoma progression after the first-detected optic disc hemorrhage by optical coherence tomography
Suh MH; Park KH; Kim H; Kim TW; Kim SW; Kim SY; Kim DM
Journal of Glaucoma 2012; 21: 358-366 (IGR: 14-3)
50263 Under pressure: cellular and molecular responses during glaucoma, a common neurodegeneration with axonopathy
Nickells RW; Howell GR; Soto I; John SW
Annual review of neuroscience 2012; 35: 153-179 (IGR: 14-2)
50304 Pupil Ruff Atrophy Correlations with Intraocular Pressure and Cup-to-Disc Ratio in a Glaucoma Clinic Population
Ang GS; Wong T; Nicholas S; Wells AP
Ophthalmology 2012; 119: 1546-1551 (IGR: 14-2)
50569 Quantification of retrograde axonal transport in the rat optic nerve by fluorogold spectrometry
van Oterendorp C; Sgouris S; Bach M; Martin G; Biermann J; Jordan JF; Lagrè,ze WA
PLoS ONE 2012; 7: e38820 (IGR: 14-2)
50567 Changes in optic nerve head circulation in response to vasoactive agents: inter-eye comparison in monkeys with experimental unilateral glaucoma
Mayama C; Ishii K; Ota T; Tomidokoro A; Araie M
Investigative Ophthalmology and Visual Science 2012; 53: 5771-5778 (IGR: 14-2)
50485 In vivo imaging of lamina cribrosa pores by adaptive optics scanning laser ophthalmoscopy
Akagi T; Hangai M; Takayama K; Nonaka A; Ooto S; Yoshimura N
Investigative Ophthalmology and Visual Science 2012; 53: 4111-4119 (IGR: 14-2)
50355 Differences between Proximal versus Distal Intraorbital Optic Nerve Diffusion Tensor Magnetic Resonance Imaging Properties in Glaucoma Patients
Bolacchi F; Garaci FG; Martucci A; Meschini A; Fornari M; Marziali S; Mancino R; Squillaci E; Floris R; Cerulli L; Simonetti G; Nucci C
Investigative Ophthalmology and Visual Science 2012; 53: 4191-4196 (IGR: 14-2)
50400 Optic Disc Torsion Direction Predicts the Location of Glaucomatous Damage in Normal-Tension Glaucoma Patients with Myopia
Park HY; Lee K; Park CK
Ophthalmology 2012; 119: 1844-1851 (IGR: 14-2)
50205 Evaluation of lamina cribrosa and peripapillary sclera stiffness in pseudoexfoliation and normal eyes by atomic force microscopy
Braunsmann C; Hammer CM; Rheinlaender J; Kruse FE; Schä,ffer TE; Schlö,tzer-Schrehardt U
Investigative Ophthalmology and Visual Science 2012; 53: 2960-2967 (IGR: 14-2)
50444 LOXL1 Deficiency in the Lamina Cribrosa as Candidate Susceptibility Factor for a Pseudoexfoliation-Specific Risk of Glaucoma
Schlö,tzer-Schrehardt U; Hammer CM; Krysta AW; Hofmann-Rummelt C; Pasutto F; Sasaki T; Kruse FE; Zenkel M
Ophthalmology 2012; 119: 1832-1843 (IGR: 14-2)
50357 Glaucomatous optic nerve head alterations in patients with chronic heart failure
Meira-Freitas D; Melo LA; Almeida-Freitas DB; Paranhos A
Clinical Ophthalmology 2012; 6: 623-629 (IGR: 14-2)
50572 Effect of trabeculectomy on RNFL thickness and optic disc parameters using optical coherence tomography
Raghu N; Pandav SS; Kaushik S; Ichhpujani P; Gupta A
Eye 2012; 26: 1131-1137 (IGR: 14-2)
49235 The Optic Nerve Head As A Robust Biomechanical System
Sigal IA; Bilonick RA; Kagemann L; Wollstein G; Ishikawa H; Schuman JS; Grimm JL
Investigative Ophthalmology and Visual Science 2012; 53: 2658-2667 (IGR: 14-1)
48940 Horizontal central ridge of the lamina cribrosa and regional differences in laminar insertion in healthy subjects
Park SC; Kiumehr S; Teng CC; Tello C; Liebmann JM; Ritch R
Investigative Ophthalmology and Visual Science 2012; 53: 1610-166 (IGR: 14-1)
49155 Comparison of optic nerve head parameters using Heidelberg retinal tomography 3 and spectral-domain optical coherence tomography
Sato S; Hirooka K; Baba T; Shiraga F
Clinical and Experimental Ophthalmology 2012; 40: 721-726 (IGR: 14-1)
48919 Neuroretinal rim area and body mass index
Xu L; Wang YX; Wang S; Jonas JB
PLoS ONE 2012; 7: e30104 (IGR: 14-1)
48867 Optic disc margin anatomy in patients with glaucoma and normal controls with spectral domain optical coherence tomography
Reis AS; Sharpe GP; Yang H; Nicolela MT; Burgoyne CF; Chauhan BC
Ophthalmology 2012; 119: 738-747 (IGR: 14-1)
48881 In Vivo Evaluation of Focal Lamina Cribrosa Defects in Glaucoma
Kiumehr S; Park SC; Dorairaj S; Teng CC; Tello C; Liebmann JM; Ritch R
Archives of Ophthalmology 2012; 130: 552-559 (IGR: 14-1)
49147 Lamina Cribrosa Thickening in Early Glaucoma Predicted by a Microstructure Motivated Growth and Remodeling Approach
Grytz R; Sigal IA; Ruberti JW; Meschke G; Downs JC
Mechanics of Materials: an International Journal 2012; 44: 99-109 (IGR: 14-1)
49301 Glial cell and glaucomatous optic neuropathy
Ling ZH; Sun XH
Chinese Journal of Ophthalmology 2012; 48: 85-88 (IGR: 14-1)
48763 Diabetes mellitus affects biomechanical properties of the optic nerve head in the rat
Terai N; Spoerl E; Haustein M; Hornykewycz K; Haentzschel J; Pillunat LE
Ophthalmic Research 2012; 47: 189-194 (IGR: 14-1)
48875 Ischaemia in the Zinn-Haller circle and glaucomatous optic neuropathy in macaque monkeys
Hiraoka M; Inoue K; Ninomiya T; Takada M
British Journal of Ophthalmology 2012; 96: 597-603 (IGR: 14-1)
48661 Morphology of retinal vessels in the optic disk in a Göttingen minipig experimental glaucoma model
Galdos M; Bayó,n A; Rodriguez FD; Micó C; Sharma SC; Vecino E
Veterinary Ophthalmology 2012; 15: 36-46 (IGR: 14-1)
49049 Integrity/demyelination of the optic radiation, morphology of the papilla, and contrast sensitivity in glaucoma patients
Michelson G; Wä,rntges S; Engelhorn T; El-Rafei A; Hornegger J; Dö,rfler A
Klinische Monatsblätter für Augenheilkunde 2012; 229: 143-148 (IGR: 14-1)
48985 Planimetrically determined vertical cup/disc and rim width/disc diameter ratios and related factors
Tsutsumi T; Tomidokoro A; Araie M; Iwase A; Sakai H; Sawaguchi S
Investigative Ophthalmology and Visual Science 2012; 53: 1332-1340 (IGR: 14-1)
49107 The accuracy of the inferior>superior>nasal>temporal neuroretinal rim area rule for diagnosing glaucomatous optic disc damage
Morgan JE; Bourtsoukli I; Rajkumar KN; Ansari E; Cunliffe IA; North RV; Wild JM
Ophthalmology 2012; 119: 723-730 (IGR: 14-1)
49105 Glaucoma Diagnostic Accuracy of Ganglion Cell-Inner Plexiform Layer Thickness: Comparison with Nerve Fiber Layer and Optic Nerve Head
Mwanza JC; Durbin MK; Budenz DL; Sayyad FE; Chang RT; Neelakantan A; Godfrey DG; Carter R; Crandall AS
Ophthalmology 2012; 119: 1151-1158 (IGR: 14-1)
49197 Glaucoma Diagnostic Ability of Quadrant and Clock-Hour Neuroretinal Rim Assessment Using Cirrus HD Optical Coherence Tomography
Hwang YH; Kim YY
Investigative Ophthalmology and Visual Science 2012; 53: 2226-2234 (IGR: 14-1)
49207 Effect of race, age, and axial length on optic nerve head parameters and retinal nerve fiber layer thickness measured by Cirrus HD-OCT
Knight OJ; Girkin CA; Budenz DL; Durbin MK; Feuer WJ;
Archives of Ophthalmology 2012; 130: 312-318 (IGR: 14-1)
49198 Influence of clinically invisible, but optical coherence tomography detected, optic disc margin anatomy on neuroretinal rim evaluation
Reis AS; O',Leary N; Yang H; Sharpe GP; Nicolela MT; Burgoyne CF; Chauhan BC
Investigative Ophthalmology and Visual Science 2012; 53: 1852-1860 (IGR: 14-1)
48852 Significant correlations between optic nerve head microcirculation and visual field defects and nerve fiber layer loss in glaucoma patients with myopic glaucomatous disk
Yokoyama Y; Aizawa N; Chiba N; Omodaka K; Nakamura M; Otomo T; Yokokura S; Fuse N; Nakazawa T
Clinical Ophthalmology 2011; 5: 1721-1727 (IGR: 14-1)
49240 Rates of visual field progression in distinct optic disc phenotypes
Schor KS; De Moraes CG; Teng CC; Tello C; Liebmann JM; Ritch R
Clinical and Experimental Ophthalmology 2012; 40: 706-712 (IGR: 14-1)
48548 Comparison of newly diagnosed ocular hypertension and open-angle glaucoma: ocular variables, risk factors, and disease severity
Buys YM; Harasymowycz P; Gaspo R; Kwok K; Hutnik CM; Blondeau P; Birt CM; Piemontesi RL; Gould LF; Lesk MR; Ahmed IK
Journal of Ophthalmology 2012; 2012: 757106 (IGR: 14-1)
48824 The Influence of Surgical and Medical Interventions upon Optic Disc Structure in Patients with Primary Open Angle Glaucoma
Xiao H; Liu X; Zhong YM; Mao Z
Eye Science 2011; 26: 185-192 (IGR: 14-1)
49279 Reversal of Lamina Cribrosa Displacement and Thickness after Trabeculectomy in Glaucoma
Lee EJ; Kim TW; Weinreb RN
Ophthalmology 2012; 119: 1359-1366 (IGR: 14-1)
47722 Structural basis of glaucoma: The fortified astrocytes of the optic nerve head are the target of raised intraocular pressure
Dai C; Khaw PT; Yin ZQ; Li D; Raisman G; Li Y
GLIA 2012; 60: 13-28 (IGR: 13-4)
47929 The effect of education on the assessment of optic nerve head photographs for the glaucoma diagnosis
Andersson S; Heijl A; Boehm AG; Bengtsson B
BMC Ophthalmology 2011; 11: 12 (IGR: 13-4)
48135 IOP-Induced Lamina Cribrosa Deformation and Scleral Canal Expansion: Independent or Related?
Sigal IA; Yang H; Roberts MD; Grimm JL; Burgoyne CF; Demirel S; Downs JC
Investigative Ophthalmology and Visual Science 2011; 52: 9023-9032 (IGR: 13-4)
47583 The first signs of glaucomatous cupping in the optic nerve
Anderson DR
Klinika Oczna 2011; 113: 82-90 (IGR: 13-4)
47999 The collagen fibril architecture in the lamina cribrosa and peripapillary sclera predicted by a computational remodeling approach
Grytz R; Meschke G; Jonas JB
Biomechanics and modeling in mechanobiology 2011; 10: 371-382 (IGR: 13-4)
47574 Exploring the development of the mouse lamina cribrosa
Hart ML; Tochlin A; Taylor JSH
Journal of Anatomy 2011; 218: 356-357 (IGR: 13-4)
47968 Deformation of the rodent optic nerve head and peripapillary structures during acute intraocular pressure elevation
Fortune B; Choe TE; Reynaud J; Hardin C; Cull GA; Burgoyne CF; Wang L
Investigative ophthalmology & visual science 2011; 52: 6651-6661 (IGR: 13-4)
47507 Corneal Hysteresis and Beta-Zone Parapapillary Atrophy
Hayes DD; Teng CC; De Moraes CG; Tello C; Liebmann JM; Ritch R
American Journal of Ophthalmology 2011; (IGR: 13-4)
47731 Optic disc dimensions and cup-disc ratios among healthy South Indians: The Chennai glaucoma study
Arvind H; George R; Raju P; Ve RS; Mani B; Kannan P; Vijaya L
Ophthalmic Epidemiology 2011; 18: 189-197 (IGR: 13-4)
47860 Topographic differences between large and normal optic discs: A confocal scanning laser ophthalmoscopy study
Cankaya AB; Simsek T
European Journal of Ophthalmology 2011; 22: 63-69 (IGR: 13-4)
48386 Optic disc classification by the Heidelberg Retina Tomograph and by physicians with varying experience of glaucoma
Andersson S; Heijl A; Bengtsson B
Eye 2011; 25: 1401-1407 (IGR: 13-4)
48064 Comparison of different methods of inter-eye asymmetry of rim area and disc area analysis
Fansi AA; Boisjoly H; Chagnon M; Harasymowycz PJ
Eye 2011; 25: 1590-1597 (IGR: 13-4)
48353 The optic nerve head assessed with HRT in 5-16-year-old normal children: normal values, repeatability and interocular difference
Larsson E; Nuija E; Alm A
Acta Ophthalmologica 2011; 89: 755-758 (IGR: 13-4)
47628 Enhanced Depth Imaging Optical Coherence Tomography of Deep Optic Nerve Complex Structures in Glaucoma
Park SC; De Moraes CGV; Teng CC; Tello C; Liebmann JM; Ritch R
Ophthalmology 2011; (IGR: 13-4)
47617 Enhanced Depth Imaging Detects Lamina Cribrosa Thickness Differences in Normal Tension Glaucoma and Primary Open-Angle Glaucoma
Park H-YL; Jeon SH; Park CK
Ophthalmology 2011; (IGR: 13-4)
47870 Influence of optic disc size on the diagnostic performance of macular ganglion cell complex and peripapillary retinal nerve fiber layer analyses in glaucoma
Cordeiro DV; Lima VC; Castro DP; Castro LC; Pacheco MA; Lee JM; Dimantas MI; Prata TS
Clinical Ophthalmology 2011; 5: 1333-1337 (IGR: 13-4)
48052 The Effect of Acute Intraocular Pressure Elevation on the Monkey Optic Nerve Head As Detected by Spectral Domain Optical Coherence Tomography
Strouthidis NG; Fortune B; Yang H; Sigal IA; Burgoyne CF
Investigative Ophthalmology and Visual Science 2011; 52: 9431-9437 (IGR: 13-4)
48107 Correct calculation circle location of optical coherence tomography in measuring retinal nerve fiber layer thickness in eyes with myopic tilted discs
Chung JK; Yoo YC
Investigative Ophthalmology and Visual Science 2011; 52: 7894-7900 (IGR: 13-4)
47687 Significance of optic disc topography and retinal nerve fiber layer thickness measurement by spectral-domain OCT in diagnosis of glaucoma
Wang X-Z; Li S-N; Wu G-W; Mu D-P; Wang N-L
Chinese Journal of Ophthalmology 2010; 46: 702-707 (IGR: 13-4)
48316 Myopia-related optic disc and retinal changes in adolescent children from Singapore
Samarawickrama C; Mitchell P; Tong L; Gazzard G; Lim L; Wong TY; Saw SM
Ophthalmology 2011; 118: 2050-2057 (IGR: 13-4)
47913 Clock-hour laminar displacement and age in primary open-angle glaucoma and normal tension glaucoma
Rho CR; Park H-YL; Lee NY; Park CK
Clinical and Experimental Ophthalmology 2011; (IGR: 13-4)
47676 Clinical characteristics of eyes with unilateral disc hemorrhage in normal tension glaucoma patients
Li M; Cai Y; Pan YZ; Qiao RH; Fang Y; Liu LN; Wang J
Zhonghua Yi Xue Za Zhi 2011; 91: 445-450 (IGR: 13-4)
47013 Energy as a cause of nerve damage in Glaucoma: A theory on some mechanisms
Hetland JG
Techniques in Ophthalmology 2011; 9: 50-53 (IGR: 13-3)
46364 Combining rim area to disc area asymmetry ratio and Moorfields regression analysis of confocal scanning laser ophthalmoscopy for glaucoma screening
Kamdeu Fansi AA; Boisjoly H; Chagnon M; Harasymowycz PJ
Canadian Journal of Ophthalmology 2011; 46: 261-266 (IGR: 13-3)
46538 An study on central corneal thickness and optic disc size in patients with primary open angle glaucoma
Bandyopadhyay AK; Bhattacharya A; Dan AK; Banerjee B; Biswas I; Das SK; Bhaduri G
Journal of the Indian Medical Association 2011; 109: 465-468 (IGR: 13-3)
46411 Glaucomatous cupping of the lamina cribrosa: A review of the evidence for active progressive remodeling as a mechanism
Crawford Downs J; Roberts MD; Sigal IA
Experimental Eye Research 2011; 93: 133-140 (IGR: 13-3)
46814 The "iSN'T rule" in healthy participant optic nerve head by confocal scanning laser ophthalmoscopy
Iester M; Bertolotto M; Recupero SM; Perdicchi A
Journal of Glaucoma 2011; 20: 350-354 (IGR: 13-3)
46429 Posterior (Outward) Migration of the Lamina Cribrosa and Early Cupping in Monkey Experimental Glaucoma
Yang H; Williams G; Downs JC; Sigal IA; Roberts MD; Thompson H; Burgoyne CF
Investigative Ophthalmology and Visual Science 2011; (IGR: 13-3)
47088 Thickness of the lamina cribrosa and peripapillary sclera in Rhesus monkeys with nonglaucomatous or glaucomatous optic neuropathy
Jonas JB; Hayreh SS; Yong T
Acta Ophthalmologica 2011; 89: 423-427 (IGR: 13-3)
46391 A biomechanical paradigm for axonal insult within the optic nerve head in aging and glaucoma
Burgoyne CF
Experimental Eye Research 2011; 93: 120-132 (IGR: 13-3)
47075 The relationship between central corneal thickness and optic disc size in patients with primary open-angle glaucoma in a hospital-based population
Terai N; Spoerl E; Pillunat LE; Kuhlisch E; Schmidt E; Boehm AG
Acta Ophthalmologica 2011; 89: 556-559 (IGR: 13-3)
46384 The pathogenic role of transforming growth factor-?2 in glaucomatous damage to the optic nerve head
Fuchshofer R
Experimental Eye Research 2011; 93: 165-169 (IGR: 13-3)
46855 Transforming growth factor-(beta)2 increases extracellular matrix proteins in optic nerve head cells via activation of the smad signaling pathway
Zode GS; Sethi A; Brun-Zinkernagel A-M; Chang I; Clark AF; Wordinger RJ
Molecular Vision 2011; 17: 1745-1758 (IGR: 13-3)
47071 Myelination transition zone astrocytes: A novel cell type in the optic nerve with a putative role in glaucoma
Prasanna G; Pang L-H
Expert Review of Ophthalmology 2011; 6: 291-294 (IGR: 13-3)
46412 Pathophysiology of human glaucomatous optic nerve damage: Insights from rodent models of glaucoma
Morrison JC; Cepurna WO; Guo Y; Johnson EC
Experimental Eye Research 2011; 93: 156-164 (IGR: 13-3)
46417 The impact of acutely elevated intraocular pressure on the porcine optic nerve head
Fatehee N; Yu PK; Morgan WH; Cringle SJ; Yu DY
Investigative Ophthalmology and Visual Science 2011; 52: 6192-6198 (IGR: 13-3)
46828 Comparing stereometric parameters between heidelberg retinal tomography 2 and 3 in Asian eyes: The Singapore Malay eye study
Koh V; Loon SC; Wong W-L; Wong TY; Aung T
Journal of Glaucoma 2011; (IGR: 13-3)
46359 Influence of refractive error on optic disc topographic parameters: the Singapore malay eye study
Wu RY; Wong TY; Zheng YF; Cheung CY; Perera SA; Saw SM; Aung T
American Journal of Ophthalmology 2011; 152: 81-86 (IGR: 13-3)
46385 Reproducibility of measuring lamina cribrosa pore geometry in human and nonhuman primates with in vivo adaptive optics imaging
Ivers KM; Li C; Patel N; Sredar N; Luo X; Queener H; Harwerth RS; Porter J
Investigative Ophthalmology and Visual Science 2011; 52: 5473-5480 (IGR: 13-3)
47054 End-to-end pipeline for spectral domain optical coherence tomography and morphometric analysis of human optic nerve head
Lee S; Young M; Sarunic MV; Beg MF
Journal of Medical and Biological Engineering 2011; 31: 111-119 (IGR: 13-3)
46826 Optic disc size and other parameters from optical coherence tomography in Vietnamese-Americans
Peng P-H; Fu S; Nguyen N; Porco T; Lin SC
Journal of Glaucoma 2011; 20: 355-360 (IGR: 13-3)
46459 Visualization of the lamina cribrosa using enhanced depth imaging spectral-domain optical coherence tomography
Lee EJ; Kim T-W; Weinreb RN; Park KH; Kim SH; Kim DM
American Journal of Ophthalmology 2011; 152: 87-95 (IGR: 13-3)
46476 Structure-function relationship in glaucoma using spectral-domain optical coherence tomography
Rao HL; Zangwill LM; Weinreb RN; Leite MT; Sample PA; Medeiros FA
Archives of Ophthalmology 2011; 129: 864-871 (IGR: 13-3)
46675 Longitudinal study of optic cup progression in children
Park H-J; Hampp C; Demer JL
Journal of Pediatric Ophthalmology & Strabismus 2011; 48: 151-156 (IGR: 13-3)
46654 Shrinkage of the Scleral Canal During Cupping Reversal in Children
Mochizuki H; Lesley AG; Brandt JD
Ophthalmology 2011; (IGR: 13-3)
46602 Abnormalities of the optic disc
Sadun AA; Wang MY
Handbook of Clinical Neurology 2011; 102: 117-157 (IGR: 13-3)
46769 Short-term changes in the optic nerve head and visual field after trabeculectomy
Figus M; Lazzeri S; Nardi M; Bartolomei MP; Ferreras A; Fogagnolo P
Eye 2011; 25: 1057-1063 (IGR: 13-3)
46445 An applet to estimate the IOP-induced stress and strain within the optic nerve head
Sigal IA
Investigative Ophthalmology and Visual Science 2011; 52: 5497-5506 (IGR: 13-3)
46709 An hypothesis on pressure transmission from anterior chamber to optic nerve
Gerometta R; Escobar D; Candia OA
Medical Hypotheses 2011; (IGR: 13-3)
45876 Trans-lamina cribrosa pressure difference correlated with neuroretinal rim area in glaucoma
Ren R; Wang N; Zhang X; Cui T; Jonas JB
Graefe's Archive for Clinical and Experimental Ophthalmology 2011; 249: 1057-1063 (IGR: 13-2)
45638 Finite element modeling of the human sclera: Influence on optic nerve head biomechanics and connections with glaucoma
Norman RE; Flanagan JG; Sigal IA; Rausch SMK; Tertinegg I; Ethier CR
Experimental Eye Research 2011; 93: 4-12 (IGR: 13-2)
45516 Glaucomatous eye macular ganglion cell complex thickness and its relation to temporal circumpapillary retinal nerve fiber layer thickness
Kita Y; Kita R; Nitta A; Nishimura C; Tomita G
Japanese Journal of Ophthalmology 2011; 55: 228-234 (IGR: 13-2)
45978 Angle assessment by eyecam, goniophotography, and gonioscopy
Baskaran M; Perera SA; Nongpiur ME; Tun TA; Park J; Kumar RS; Friedman DS; Aung T
Journal of Glaucoma 2011; (IGR: 13-2)
46195 Discus: investigating subjective judgment of optic disc damage
Denniss J; Echendu D; Henson DB; Artes PH
Optometry and Vision Science 2011; 88: 93-101 (IGR: 13-2)
45925 Genome-wide association studies in Asians confirm the involvement of ATOH7 and TGFBR3, and further identify CARD10 as a novel locus influencing optic discarea
Khor CC; Ramdas WD; Vithana EN; Cornes BK; Sim X; Tay W-T; Saw S-M; Lavanya YZ; Wu R; Wang JJ
Human Molecular Genetics 2011; 20: 1864-1872 (IGR: 13-2)
45719 The effect of graded cyclic stretching on extracellular matrix-related gene expression profiles in cultured primary human lamina cribrosa cells
Quill B; Docherty NG; Clark AF; O'brien CJ
Investigative Ophthalmology and Visual Science 2011; 52: 1908-1915 (IGR: 13-2)
46205 The 97.5th and 99.5th percentile of vertical cup disc ratio in the United States
Swanson MW
Optometry and Vision Science 2011; 88: 86-92 (IGR: 13-2)
45717 Genetic variants associated with optic nerve vertical cup-to-disc ratio are risk factors for primary open angle glaucoma in a US Caucasian population
Fan BJ; Wang DY; Pasquale LR; Haines JL; Wiggs JL
Investigative Ophthalmology and Visual Science 2011; 52: 1788-1792 (IGR: 13-2)
46204 Modeling the patterns of visual field loss in glaucoma
Carreras FJ; Rica R; Delgado AV
Optometry and Vision Science 2011; 88: 63-79 (IGR: 13-2)
45998 Longitudinal changes in anterior chamber configuration in eyes with open-angle glaucoma and associated factors
Pan Z; Furuya T; Kashiwagi K
Journal of Glaucoma 2011; (IGR: 13-2)
45696 Appraisal of optic disc stereo photos pre- and post-training session
Callewaert S; Fieuws S; Stalmans I; Zeyen T
Bulletin de la Société Belge d'Ophtalmologie 2010; 316: 27-32 (IGR: 13-2)
45759 Optic disc evaluation in optic neuropathies: The optic disc assessment project
O'Neill EC; Danesh-Meyer HV; Kong GXY; Hewitt AW; Coote MA; Mackey DA; Crowston JG
Ophthalmology 2011; 118: 964-970 (IGR: 13-2)
45988 Effect of optic disc size and disease severity on the diagnostic capability of glaucoma imaging technologies in an Indian population
Garudadri CS; Rao HL; Parikh RS; Jonnadula GB; Selvaraj P; Nutheti R; Thomas R
Journal of Glaucoma 2011; (IGR: 13-2)
45508 Change in optic nerve head topography in healthy volunteers: an 11-year follow-up
Harju M; Kurvinen L; Saari J; Vesti E
British Journal of Ophthalmology 2011; 95: 818-821 (IGR: 13-2)
45770 Influence of Disc Size on Optic Nerve Head versus Retinal Nerve Fiber Layer Assessment for Diagnosing Glaucoma
Oddone F; Centofanti M; Tanga L; Parravano M; Michelessi M; Schiavone M; Villani CM; Fogagnolo P; Manni G
Ophthalmology 2011; 118: 1340-1347 (IGR: 13-2)
45524 Accuracy of the RTVue-100 Fourier-domain optical coherence tomograph in an optic neuropathy screening trial
Garas A; Kóthy P; Holló G
International Ophthalmology 2011; 31: 175-182 (IGR: 13-2)
45845 Optic disc topography in normal Indian eyes using spectral domain optical coherence tomography
Mansoori T; Viswanath K; Balakrishna N
Indian Journal of Ophthalmology 2011; 59: 23-27 (IGR: 13-2)
45989 Optic disc parameters from optovue optical coherence tomography: Comparison of manual versus automated disc rim determination
Mesiwala NK; Pekmezci M; Porco TC; Lin SC
Journal of Glaucoma 2011; (IGR: 13-2)
45777 Comparison of Automated Analysis of Cirrus HD OCT Spectral-Domain Optical Coherence Tomography with Stereo Photographs of the Optic Disc
Sharma A; Oakley JD; Schiffman JC; Budenz DL; Anderson DR
Ophthalmology 2011; 118: 1348-1357 (IGR: 13-2)
46235 Mixture model-based approach for optic cup segmentation
Tan NM; Liu J; Wong DK; Yin F; Lim JH; Wong TY
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2010; 2010: 4817-4820 (IGR: 13-2)
45549 Disruption of gap junctions may be involved in impairment of autoregulation in optic nerve head blood flow of diabetic rabbits
Shibata M; Oku H; Sugiyama T; Kobayashi T; Tsujimoto M; Okuno T; Ikeda T
Investigative Ophthalmology and Visual Science 2011; 52: 2153-2159 (IGR: 13-2)
46038 Myopic optic disc tilt and the characteristics of peripapillary retinal nerve fiber layer thickness measured by spectral-domain optical coherence tomography
Hwang YH; Yoo C; Kim YY
Journal of Glaucoma 2011; (IGR: 13-2)
45594 Optic nerve sheath diameter in normal-tension glaucoma patients
Jaggi GP; Miller NR; Flammer J; Weinreb RN; Remonda L; Killer HE
British Journal of Ophthalmology 2011; (IGR: 13-2)
46144 Period prevalence and incidence of optic disc haemorrhage in normal tension glaucoma and primary open-angle glaucoma
Suh MH; Park KH
Clinical and Experimental Ophthalmology 2011; 39: 513-519 (IGR: 13-2)
45440 Glaucomatous optic neuropathy evaluation project: a standardized internet system for assessing skills in optic disc examination
Kong YX; Coote MA; O'Neill EC; Gurria LU; Xie J; Garway-Heath D; Medeiros FA; Crowston JG
Clinical and Experimental Ophthalmology 2011; 39: 308-317 (IGR: 13-2)
45992 Development of a resident training module for systematic optic disc evaluation in glaucoma
Law SK; Tamboli DA; Ou Y; Giaconi JAA; Caprioli J
Journal of Glaucoma 2011; (IGR: 13-2)
45449 Gaze Behavior among Experts and Trainees during Optic Disc Examination: Does How We Look Affect What We See?
O'Neill EC; Kong YX; Connell PP; Ong DN; Haymes SA; Coote MA; Crowston JG
Investigative Ophthalmology and Visual Science 2011; 52: 3976-3983 (IGR: 13-2)
27727 Heritability of optic disc diameters: a twin study
Drobnjak D; Taarnhøj NC; Mitchell P; Wang JJ; Tan A; Kessel L; Hougaard JL ; Sørensen TI; Larsen M
Acta Ophthalmologica 2011; 89: 193-198 (IGR: 13-1)
27822 Cup-to-disc ratio asymmetry in adolescents
De Campos MEJ; Garcia DM; Rodrigues MDLV
Arquivos Brasileiros de Oftalmologia 2010; 73: 231-234 (IGR: 13-1)
27747 Relationship of Central Corneal Thickness with Optic Disc Parameters: The Singapore Malay Eye Study
Wu R-Y; Zheng Y-F; Wong T-Y; Cheung CY-L; Loon S-C; Chauhan BC; Aung T
Investigative Ophthalmology and Visual Science 2011; 52: 1320-1324 (IGR: 13-1)
27716 Visual field results and optic disc morphology in patients treated with allogeneic stem-cell transplantation in childhood
Törnquist AL; Olsson M; Martin L; Winiarski J; Fahnehjelm KT
Acta Ophthalmologica 2011; 89: 62-69 (IGR: 13-1)
27875 Early microglia activation in a mouse model of chronic glaucoma
Bosco A; Steele MR; Vetter ML
Journal of Comparative Neurology 2011; 519: 599-620 (IGR: 13-1)
27767 Retinal Ganglion Cell Loss in a Rat Ocular Hypertension Model Is Sectorial and Involves Early Optic Nerve Axon Loss
Soto I; Pease ME; Son JL; Shi X; Quigley HA; Marsh-Armstrong N
Investigative Ophthalmology and Visual Science 2011; 52: 434-441 (IGR: 13-1)
27734 Deformation of the Early Glaucomatous Monkey Optic Nerve Head Connective Tissue after Acute IOP Elevation in 3-D Histomorphometric Reconstructions
Yang H; Thompson H; Roberts MD; Sigal IA; Downs JC; Burgoyne CF
Investigative Ophthalmology and Visual Science 2011; 52: 345-363 (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)
27942 Automated segmentation of optic disc region on retinal fundus photographs: Comparison of contour modeling and pixel classification methods
Muramatsu C; Nakagawa T; Sawada A; Hatanaka Y; Hara T; Yamamoto T; Fujita H
Computer Methods and Programs in Biomedicine 2011; 101: 23-32 (IGR: 13-1)
27698 Assessment of optic disc parameters among healthy adult Malays by Heidelberg Retinal Tomograph II
Jusoh S; Shaharuddin B; Wan Hitam WH
Clinical and Experimental Ophthalmology 2011; 39: 15-22 (IGR: 13-1)
28239 Heidelberg Retina Tomography analysis in optic disks with anatomic particularities
Dascalu AM; Alexandrescu C; Pascu R; Ilinca R; Popescu V; Ciuluvica R; Voinea L; Celea C
Journal of medicine and life 2010; 3: 359-364 (IGR: 13-1)
27756 Predictors of Normal Optic Nerve Head, Retinal Nerve Fiber Layer, and Macular Parameters Measured by Spectral Domain Optical Coherence Tomography
Rao HL; Kumar AU; Babu JG; Kumar A; Senthil S; Garudadri CS
Investigative Ophthalmology and Visual Science 2011; 52: 1103-1110 (IGR: 13-1)
27761 Longitudinal change detected by spectral domain optical coherence tomography in the optic nerve head and peripapillary retina in experimental glaucoma
Strouthidis NG; Fortune B; Yang H; Sigal IA; Burgoyne CF
Investigative Ophthalmology and Visual Science 2011; 52: 1206-1219 (IGR: 13-1)
28087 Diagnostic power of optic disc morphology, peripapillary retinal nerve fiber layer thickness, and macular inner retinal layer thickness in glaucoma diagnosis with fourier-domain optical coherence tomography
Huang J-Y; Pekmezci M; Mesiwala N; Kao A; Lin S
Journal of Glaucoma 2011; 20: 87-94 (IGR: 13-1)
27770 Effect of Disease Severity and Optic Disc Size on Diagnostic Accuracy of RTVue Spectral Domain Optical Coherence Tomograph in Glaucoma
Rao HL; Leite MT; Weinreb RN; Zangwill LM; Alencar LM; Sample PA; Medeiros FA
Investigative Ophthalmology and Visual Science 2011; 52: 1290-1296 (IGR: 13-1)
27998 Diagnostic ability of retinal ganglion cell complex, retinal nerve fiber layer, and optic nerve head measurements by Fourier-domain optical coherence tomography
Schulze A; Lamparter J; Pfeiffer N; Berisha F; Schmidtmann I; Hoffmann EM
Graefe's Archive for Clinical and Experimental Ophthalmology 2011; 1-7 (IGR: 13-1)
28028 Diagnostic accuracy of nerve fibre layer, macular thickness and optic disc measurements made with the RTVue-100 optical coherence tomograph to detect glaucoma
Garas A; Vargha P; Hollo G
Eye 2011; 25: 57-65 (IGR: 13-1)
28032 Factors associated with topographic changes of the optic nerve head induced by acute intraocular pressure reduction in glaucoma patients
Prata TS; Lima VC; De Moraes CGV; Guedes LM; Magalhes FP; Teixeira SH; Ritch R; Paranhos Jr A
Eye 2011; 25: 201-207 (IGR: 13-1)
27930 Laminar and prelaminar tissue displacement during intraocular pressure elevation in glaucoma patients and healthy controls
Agoumi Y; Sharpe GP; Hutchison DM; Nicolela MT; Artes PH; Chauhan BC
Ophthalmology 2011; 118: 52-59 (IGR: 13-1)
27685 Acute primary angle closure attack does not cause an increased cup-to-disc ratio
Chew SS; Vasudevan S; Patel HY; Gurria LU; Kerr NM; Gamble G; Crowston JG; Danesh-Meyer HV
Ophthalmology 2011; 118: 254-159 (IGR: 13-1)
27673 Impact of Panretinal Photocoagulation on Optic Nerve Head Parameters
Cankaya AB; Ozdamar Y; Ozalp S; Ozkan SS
Ophthalmologica 2011; 225: 193-199 (IGR: 13-1)
27210 Characteristics of cup/disc ratios in a population of northern Togo aged 20-40 years
Ayena KD; Agbo ADR; Attaya ABM; Djagnikpo AP; Kondi GM; Dzidzinyo KB; Amedome KM; Nononsaa KB; Banla M; Balo KP
Journal Français d'Ophtalmologie 2010; 33: 408-413 (IGR: 12-4)
27495 Minocycline is cytoprotective in human trabecular meshwork cells and optic nerve head astrocytes by increasing expression of XIAP, survivin, and Bcl-2
Kernt M; Neubauer AS; Eibl KH; Wolf A; Ulbig MW; Kampik A; Hirneiss C
Clinical Ophthalmology 2010; 4: 591-604 (IGR: 12-4)
26977 Automated quantification of inherited phenotypes from color images: a twin study of the variability of optic nerve head shape.
Tang L; Scheetz TE; Mackey DA; Hewitt AW; Fingert JH; Kwon YH; Quellec G; Reinhardt JM; Abràmoff MD
Investigative Ophthalmology and Visual Science 2010; 51: 5870-5877 (IGR: 12-4)
26961 Changes in the biomechanical response of the optic nerve head in early experimental glaucoma.
Roberts MD; Sigal IA; Liang Y; Burgoyne CF; Downs JC
Investigative Ophthalmology and Visual Science 2010; 51: 5675-5684 (IGR: 12-4)
26944 Optic disc area and correlation with central corneal thickness, corneal hysteresis and ocular pulse amplitude in glaucoma patients and controls.
E Insull; S Nicholas; GS Ang; A Poostchi; K Chan; A Wells
Clinical and Experimental Ophthalmology 2010; 38: 839-844 (IGR: 12-4)
27576 Qualitative and quantitative morphologic changes in the vasculature and extracellular matrix of the prelaminar optic nerve head in eyes with POAG
Tektas OY; Lutjen-Drecoll E; Scholz M
Investigative ophthalmology & visual science 2010; 51: 5083-5091 (IGR: 12-4)
27532 Fenestrations and preferential flow routes in the prelaminar optic nerve through wet scanning electron microscope and perfusion of tracers
Carreras FJ; Porcel D; Guerra-Tschuschke I; Carreras I
Clinical and Experimental Ophthalmology 2010; 38: 705-717 (IGR: 12-4)
27115 Cross-linked actin networks (CLANs) are present in lamina cribrosa cells
Job R; Raja V; Grierson I; Currie L; O'Reilly S; Pollock N; Knight E; Clark AF
British Journal of Ophthalmology 2010; 94: 1388-1392 (IGR: 12-4)
27447 Peptidylarginine deiminase type 2 is over expressed in the glaucomatous optic nerve
Cafaro TA; Santo S; Robles LA; Crim N; Urrets-Zavalia JA; Serra HM
Molecular Vision 2010; 16: 654-1658 (IGR: 12-4)
27580 A genome-wide association study of optic disc parameters
Ramdas WD; van Koolwijk LM; Ikram MK; Jansonius NM; De Jong PT; Bergen AA; Isaacs A; Amin N; Aulchenko YS; Wolfs RC
PLoS Genetics 2010; 6: e1000978 (IGR: 12-4)
27336 The relationship between the cornea and the optic disc
Kim JM; Park KH; Kim SH; Kang JH; Cho SW
Eye 2010; 24: 1653-1657 (IGR: 12-4)
27499 Correlation between morphology of optic disc determined by heidelberg retina tomograph ii and visual function in eyes with open-angle glaucoma
Omodaka K; Nakazawa T; Otomo T; Nakamura M; Fuse N; Nishida K
Clinical Ophthalmology 2010; 4: 765-772 (IGR: 12-4)
27429 Optic nerve head morphology assessed by laser scanning tomography in normal Japanese subjects
Sawada Y; Ishikawa M; Sato N; Yoshitomi T
Journal of Glaucoma 2010; (IGR: 12-4)
27117 Change in optic nerve head topography in healthy volunteers: An 11-year follow-up
Harju M; Kurvinen L; Saari J; Vesti E
British Journal of Ophthalmology 2010; (IGR: 12-4)
27273 Reproducibility of RTVue retinal nerve fiber layer thickness and optic nerve head measurements in normal and glaucoma eyes
Li J-P; Wang X-Z; Fu J; Li S-N; Wang N-L
Chinese Medical Journal 2010; 123: 1898-1903 (IGR: 12-4)
27241 Optic nerve hypoplasia and optical coherence tomography
Fujimoto N
Neuro-Ophthalmology Japan 2010; 27: 254-260 (IGR: 12-4)
26976 Automated segmentation of neural canal opening and optic cup in 3D spectral optical coherence tomography volumes of the optic nerve head.
Hu Z; Abràmoff MD; Kwon YH; Lee K; Garvin MK
Investigative Ophthalmology and Visual Science 2010; 51: 5708-5717 (IGR: 12-4)
26957 Reproducibility of peripapillary retinal nerve fiber layer thickness and optic nerve head parameters measured with cirrus HD-OCT in glaucomatous eyes.
Mwanza JC; Chang RT; Budenz DL; Durbin MK; Gendy MG; Shi W; Feuer WJ
Investigative Ophthalmology and Visual Science 2010; 51: 5724-5730 (IGR: 12-4)
26994 Correlation between peripapillary retinal nerve fiber layer thickness and optic nerve head parameters using spectral domain optical coherence tomography.
Mansoori T; Viswanath K; Balakrishna N
Journal of Glaucoma 2010; 19: 604-608 (IGR: 12-4)
27049 Histomorphometry of the circular peripapillary arterial ring of Zinn-Haller in normal eyes and eyes with secondary angle-closure glaucoma.
Jonas JB; Jonas SB
Acta Ophthalmologica 2010; 88: 317-322 (IGR: 12-4)
27634 Optic disc hemorrhages and progression in glaucoma
Niyadurupola N; Broadway DC
Expert Review of Ophthalmology 2010; 5: 637-643 (IGR: 12-4)
27524 Cup to disc ratio by optical coherence tomography is abnormal inmultiple sclerosis
Syc SB; Warner CV; Farrell SK; Balcer LJ; Frohman EM; Calabresi PA
Multiple Sclerosis 2010; 16: 1012 (IGR: 12-4)
26774 Effects of scleral stiffness properties on optic nerve head biomechanics
Eilaghi A; Flanagan JG; Simmons CA; Ethier CR
Annals of Biomedical Engineering 2010; 38: 1586-1592 (IGR: 12-3)
26452 Different types of optic disc shape in patients with advanced open-angle glaucoma
Nakazawa T; Fuse N; Omodaka K; Aizawa N; Kuwahara S; Nishida K
Japanese Journal of Ophthalmology 2010; 54: 291-295 (IGR: 12-3)
26357 Optic disc damage staging system
Brusini P; Zeppieri M; Tosoni C; Parisi L; Salvetat ML
Journal of Glaucoma 2010; 19: 442-449 (IGR: 12-3)
26393 The role of endothelin-1 and its receptors in optic nerve head astrocyte proliferation
Murphy JA; Archibald ML; Chauhan BC
British Journal of Ophthalmology 2010; 94: 1233-1238 (IGR: 12-3)
26453 Localized retinal nerve fiber layer defects associated with cotton wool spots
Koh JW; Park KH; Kim MS; Kim JM
Japanese Journal of Ophthalmology 2010; 54: 296-299 (IGR: 12-3)
26486 Tilted optic disks
Witmer MT; Margo CE; Drucker M
Survey of Ophthalmology 2010; 55: 403-428 (IGR: 12-3)
26443 A geometric morphometric assessment of the optic cup in glaucoma
Sanfilippo PG; Cardini A; Sigal IA; Ruddle JB; Chua BE; Hewitt AW; Mackey DA
Experimental Eye Research 2010; 91: 405-414 (IGR: 12-3)
26655 Presence of an optic disc notch and glaucoma
Healey PR; Mitchell P
Journal of Glaucoma 2010; (IGR: 12-3)
26808 A genome-wide association study of optic disc parameters
Ramdas WD; van Koolwijk LME; Ikram MK; Jansonius NM; de Jong PTVM; Bergen AAB; Isaacs A; Amin N; Aulchenko YS; Wolfs RCW
PLoS Genetics 2010; 6: 1-12 (IGR: 12-3)
26625 Genome-wide association identifies ATOH7 as a major gene determining human optic disc size
Macgregor S; Hewitt AW; Hysi PG; Ruddle JB; Medland SE; Henders AK; Gordon SD; Andrew T; McEvoy B; Sanfilippo PG
Human Molecular Genetics 2010; 19: 2716-2724 (IGR: 12-3)
26565 Disc photography and heidelberg retinal tomography documentation of reversal of cupping following trabeculectomy
Yuen D; Buys YM
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1671-1673 (IGR: 12-3)
26327 Comparison of different spectral domain optical coherence tomography scanning areas for glaucoma diagnosis
Rao HL; Zangwill LM; Weinreb RN; Sample PA; Alencar LM; Medeiros FA
Ophthalmology 2010; 117: 1692-1699 (IGR: 12-3)
26854 Correlation of disc damage likelihood scale with the structural and functional change in optic nerve with primary open-angle glaucoma
Cui M; Chen X-M; Huang Y-Z
International Journal of Ophthalmology 2010; 10: 1140-1142 (IGR: 12-3)
26325 Predicting the onset of glaucoma the confocal scanning laser ophthalmoscopy ancillary study to the ocular hypertension treatment study
Weinreb RN; Zangwill LM; Jain S; Becerra LM; Dirkes K; Piltz-Seymour JR; Cioffi GA; Trick GL; Coleman AL; Brandt JD
Ophthalmology 2010; 117: 1674-1683 (IGR: 12-3)
26479 Correlation between disc damage likelihood scale and optical coherence tomography in the diagnosis of glaucoma
Abdul Majid ASB; Kwag JH; Jung SH; Yim HB; Kim YD; Kang KD
Ophthalmologica 2010; 224: 274-282 (IGR: 12-3)
26576 Altered temporal peripapillary retinal flow in patients with disc hemorrhages
Kurvinen L; Harju M; Saari J; Vesti E
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1771-1775 (IGR: 12-3)
26806 Relationship of retinal vascular tortuosity with the neuroretinal rim: the singapore malay eye study
Koh V; Cheung CY; Zheng Y; Wong TY; Wong W; Aung T
Investigative Ophthalmology and Visual Science 2010; 51: 3736-3741 (IGR: 12-3)
26698 Optic nerve abnormalities in children: A practical approach
Capo H; Repka MX; Edmond JC; Drack AV; Blumenfeld LC; Siatkowski RM
Journal of AAPOS 2010; 14: 32 (IGR: 12-3)
26376 Clinical Characteristics and Prognostic Significance of Disc Hemorrhage in Open-angle and Angle-closure Glaucoma
Hsieh JW; Lan YW; Wang IJ; Sun FJ
Journal of Glaucoma 2010; 19: 483-487 (IGR: 12-3)
26347 Optic nerve regeneration
Benowitz LI; Yin Y
Archives of Ophthalmology 2010; 128: 1059-1064 (IGR: 12-3)
26214 African Descent and Glaucoma Evaluation Study (ADAGES): II. Ancestry differences in optic disc, retinal nerve fiber layer, and macular structure in healthy subjects
Girkin CA; Sample PA; Liebmann JM; Jain S; Bowd C; Becerra LM; Medeiros FA; Racette L; Dirkes KA; Weinreb RN
Archives of Ophthalmology 2010; 128: 541-550 (IGR: 12-2)
25745 Central corneal thickness, lamina cribrosa and peripapillary scleral histomorphometry in non-glaucomatous chinese eyes
Ren R; Li B; Gao F; Li L; Xu X; Wang N; Jonas JB
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 1579-1585 (IGR: 12-2)
25701 Metabolic vulnerability disposes retinal ganglion cell axons to dysfunction in a model of glaucomatous degeneration
Baltan S; Inman DM; Danilov CA; Morrison RS; Calkins DJ; Horner PJ
Journal of Neuroscience 2010; 30: 5644-5652 (IGR: 12-2)
26099 Optic disc morphology in open-angle glaucoma compared with anterior ischemic optic neuropathies
Danesh-Meyer HV; Boland MV; Savino PJ; Miller NR; Subramanian PS; Girkin CA; Quigley HA
Investigative Ophthalmology and Visual Science 2010; 51: 2003-2010 (IGR: 12-2)
25974 A computer algorithm to quantitatively assess quality of digital optic disc images
Moscaritolo M; Jampel H; Zimmer-Galler I; Knezevich F; Zeimer R
Ophthalmic Surgery Lasers and Imaging 2010; 41: 279-284 (IGR: 12-2)
26159 Optic disc diameter increases during acute elevations of intraocular pressure
Poostchi A; Wong T; Chan KC; Kedzlie L; Sachdev N; Nicholas S; Garway-Heath DF; Wells AP
Investigative Ophthalmology and Visual Science 2010; 51: 2313-2316 (IGR: 12-2)
26221 Influence of optic-disc size on parameters of retinal nerve fibre analysis as measured using GDx VCC and ECC in healthy subjects
Resch H; Deak G; Vass C
British Journal of Ophthalmology 2010; 94: 424-427 (IGR: 12-2)
26142 Do Optic Discs get "Thinner" or "Narrower?"
Spaeth GL; Jatla KK; Ichhpujani P
Journal of Glaucoma 2010; 19: 288-292 (IGR: 12-2)
26001 Intelligent fusion of cup-to-disc ratio determination methods for glaucoma detection in ARGALI
Wong DW; Liu J; Lim JH; Tan NM; Zhang Z; Lu S; Li H; Teo MH; Chan KL; Wong TY
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2009; 2009: 5777-5780 (IGR: 12-2)
26000 Convex hull based neuro-retinal optic cup ellipse optimization in glaucoma diagnosis
Zhang Z; Liu J; Cherian NS; Sun Y; Lim JH; Wong WK; Tan NM; Lu S; Li H; Wong TY
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2009; 2009: 1441-1444 (IGR: 12-2)
26104 Hydrostatic pressure-induced release of stored calcium in cultured rat opticnerve head astrocytes
Mandal A; Shahidullah M; Delamere NA
Investigative Ophthalmology and Visual Science 2010; 51: 3129-3138 (IGR: 12-2)
25932 Glaucoma risk index: Automated glaucoma detection from color fundus images
Bock R; Meier J; Nyul LG; Hornegger J; Michelson G
Medical Image Analysis 2010; 14: 471-481 (IGR: 12-2)
26087 Long-term follow-ups of patients with glaucoma with digital planimetry
Raum C; Viestenz A; Mardin CY
Klinische Monatsblätter für Augenheilkunde 2010; 227: 215-220 (IGR: 12-2)
26133 Clinical assessment of stereoscopic optic disc photographs for glaucoma: the European Optic Disc Assessment Trial
Reus NJ; Lemij HG; Garway-Heath DF; Airaksinen PJ; Anton A; Bron AM; Faschinger C; Holló G; Iester M; Jonas JB
Ophthalmology 2010; 117: 717-723 (IGR: 12-2)
25988 Spectral domain optical coherence tomography in glaucoma: Qualitative and quantitative analysis of the optic nerve head and retinal nerve fiber layer (an AOS thesis)
Chen TC
Transactions of the American Ophthalmological Society 2009; 107: 254-281 (IGR: 12-2)
26004 Segmentation of the optic disc in 3-D OCT scans of the optic nerve head
Lee K; Niemeijer M; Garvin MK; Kwon YH; Sonka M; Abramoff MD
IEEE Transactions on Medical Imaging 2010; 29: 159-168 (IGR: 12-2)
26138 Optic Nerve Head (ONH) Topographic Analysis by Stratus OCT in Normal Subjects: Correlation to Disc Size, Age, and Ethnicity
Marsh BC; Cantor LB; WuDunn D; Hoop J; Lipyanik J; Patella VM; Budenz DL; Greenfield DS; Savell J; Schuman JS
Journal of Glaucoma 2010; 19: 310-318 (IGR: 12-2)
26226 Diagnostic ability of a linear discriminant function for optic nerve head parameters measured with optical coherence tomography for perimetric glaucoma
Pablo LE; Ferreras A; Pajarín AB; Fogagnolo P
Eye 2010; 24: 1051-1057 (IGR: 12-2)
26002 Multiscale finite element modeling of the lamina cribrosa microarchitecture in the eye
Downs JC; Roberts MD; Burgoyne CF; Hart RT
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2009; 2009: 4277-4280 (IGR: 12-2)
26111 Influence of height, weight, and body mass index on optic disc parameters
Zheng Y; Cheung CY; Wong TY; Mitchell P; Aung T
Investigative Ophthalmology and Visual Science 2010; 51: 2998-3002 (IGR: 12-2)
25368 Elevated hydrostatic pressure activates sodium-hydrogen exchanger-1 in rat optic nerve head astrocytes
Mandal A; Shahidullah M; Delamere N A; Teran M A
FASEB Journal 2009; 297: C111-1120 (IGR: 12-1)
25346 High resolution three-dimensional reconstruction of the collagenous matrix of the human optic nerve head
Winkler M; Jester B; Nien-Shy C; Massei S; Minckler D S; Jester J V; Brown D J
Brain Research Bulletin 2010; 81: 339-348 (IGR: 12-1)
25027 The presence and distribution of elastin in the posterior and retrobulbar regions of the mouse eye
Gelman S; Cone FE; Pease ME; Nguyen TD; Myers K; Quigley HA
Experimental Eye Research 2010; 90: 210-215 (IGR: 12-1)
25147 Correlation between local stress and strain and lamina cribrosa connective tissue volume fraction in normal monkey eyes
Roberts MD; Liang Y; Sigal IA; Grimm J; Reynaud J; Bellezza A; Burgoyne CF; Downs JC
Investigative Ophthalmology and Visual Science 2010; 51: 295-307 (IGR: 12-1)
25570 Experimental study about the effect of qingguangan suspel on the structure and function of lamina cribrosa in rabbit eye with chronic hypertension
Li X -J; Peng Q -H; Zeng Z -C; Li J -C
International Journal of Ophthalmology 2009; 9: 2310-2314 (IGR: 12-1)
25035 Violation of the ISNT rule in Nonglaucomatous pediatric optic disc cupping
Pogrebniak AE; Wehrung B; Pogrebniak KL; Shetty RK; Crawford P
Investigative Ophthalmology and Visual Science 2010; 51: 890-895 (IGR: 12-1)
25009 Optic nerve head changes in early glaucoma: a comparison between stereophotography and Heidelberg retina tomography
Pablo LE; Ferreras A; Fogagnolo P; Figus M; Pajarin AB
Eye 2010; 24: 123-130 (IGR: 12-1)
25019 Evaluation of optic nerve head and retinal nerve fiber layer in early and advance glaucoma using frequency-domain optical coherence tomography
Li S; Wang X; Wu G; Wang N
Graefe's Archive for Clinical and Experimental Ophthalmology 2010; 248: 429-434 (IGR: 12-1)
24971 Comparing specific disc findings of a European and a bantu population
Krueger H; Schittkowski MP; Kilangalanga N; Hopkins A; Guthoff R
Klinische Monatsblätter für Augenheilkunde 2009; 226: 844-848 (IGR: 11-4)
24944 Subtilisin-like proprotein convertase expression, localization, and activity in the human retina and optic nerve head
Fuller JA; Brun-Zinkernagel AM; Clark AF; Wordinger RJ
Investigative Ophthalmology and Visual Science 2009; 50: 5759-5768 (IGR: 11-4)
24537 The morphology and spatial arrangement of astrocytes in the optic nerve head of the mouse
Sun D; Lye-Barthel M; Masland RH; Jakobs TC
Journal of Comparative Neurology 2009; 516: 1-19 (IGR: 11-4)
24969 Cell-cell adhesion in the prelaminar region of the optic nerve head: a possible target for ionic stress
Carreras FJ; Porcel D; Alaminos M; Garzón I
Ophthalmic Research 2009; 2: 106-111 (IGR: 11-4)
24641 Hydrostatic pressure-dependent changes in cyclic AMP signaling in optic nerve head astrocytes from Caucasian and African American donors
Chen L; Lukas TJ; Hernandez MR
Molecular Vision 2009; 15: 1664-1672 (IGR: 11-4)
24926 Deformation of the normal monkey optic nerve head connective tissue after acute IOP elevation within 3-D histomorphometric reconstructions
Yang H; Downs JC; Sigal IA; Roberts MD; Thompson H; Burgoyne CF
Investigative Ophthalmology and Visual Science 2009; 50: 5785-5799 (IGR: 11-4)
24691 Concordance of flicker comparison versus side-by-side comparison in glaucoma
Cymbor M; Lear L; Mastrine M
Optometry 2009; 80: 437-441 (IGR: 11-4)
24574 Assessment of optic nerve cup-to-disk ratio changes in patients receiving multiple intravitreal injections of antivascular endothelial growth factor agents
Seth RK; Salim S; Shields MB; Adelman RA
Retina (Philadelphia, Pa.) 2009; 29: 956-959 (IGR: 11-4)
24834 Measurement of optic nerve head parameters: comparison of optical coherence tomography with digital planimetry
Samarawickrama C; Pai A; Huynh SC; Burlutsky G; Jonas JB; Mitchell P
Journal of Glaucoma 2009; 18: 571-575 (IGR: 11-4)
24604 Optic disc photography and retinal nerve fiber layer photography
Hoffmann EM
Ophthalmologe 2009; 106: 683-686 (IGR: 11-4)
24814 Optic disk size variability between African, Asian, white, Hispanic, and Filipino Americans using Heidelberg retinal tomography
Seider MI; Lee RY; Wang D; Pekmezci M; Porco TC; Lin SC
Journal of Glaucoma 2009; 18: 595-600 (IGR: 11-4)
24780 The effect of contour line position on optic nerve head analysis by Heidelberg Retina Tomograph
Iester M; Mariotti V; Lanza F; Calabria G
European Journal of Ophthalmology 2009; 19: 942-948 (IGR: 11-4)
24943 Automated segmentation of the cup and rim from spectral domain OCT of the optic nerve head
Abràmoff MD; Lee K; Niemeijer M; Alward WL; Greenlee EC; Garvin MK; Sonka M; Kwon YH
Investigative Ophthalmology and Visual Science 2009; 50: 5778-5784 (IGR: 11-4)
24992 Changes in optic nerve head blood flow induced by the combined therapy of latanoprost and beta blockers
Sugiyama T; Kojima S; Ishida O; Ikeda T
Acta Ophthalmologica 2009; 87: 797-800 (IGR: 11-4)
24963 Twelve-hour reproducibility of retinal and optic nerve blood flow parameters in healthy individuals
Luksch A; Lasta M; Polak K; Fuchsjäger-Mayr G; Polska E; Garhöfer G; Schmetterer L
Acta Ophthalmologica 2009; 87: 875-880 (IGR: 11-4)
24965 Incidence and rates of visual field progression after longitudinally measured optic disc change in glaucoma
Chauhan BC; Nicolela MT; Artes PH
Ophthalmology 2009; 116: 2110-2118 (IGR: 11-4)
24799 Correlation between optical coherence tomography and glaucomatous optic nerve head damage in children
El-Dairi MA; Holgado S; Asrani SG; Enyedi LB; Freedman SF
British Journal of Ophthalmology 2009; 93: 1325-1330 (IGR: 11-4)
24229 Peripapillary and posterior scleral mechanics--part II: experimental and inverse finite element characterization
Girard MJ; Downs JC; Bottlang M; Burgoyne CF; Suh JK
Journal of Biomechanical Engineering 2009; 131: 051012 (IGR: 11-3)
24228 Peripapillary and posterior scleral mechanics--part I: development of an anisotropic hyperelastic constitutive model
Girard MJ; Downs JC; Burgoyne CF; Suh JK
Journal of Biomechanical Engineering 2009; 131: 051011 (IGR: 11-3)
24026 Population prevalence of tilted and torted optic discs among an adult Chinese population in Singapore: the Tanjong Pagar Study
How AC; Tan GS; Chan YH; Wong TT; Seah SK; Foster PJ; Aung T
Archives of Ophthalmology 2009; 127: 894-899 (IGR: 11-3)
24233 Glaucoma and drusen of the optic nerve head
Kawa P; Nowomiejska K; Bialek M; Haszcz D; Czop D; Krukowski J; Mankowska A; Zagorski Z; Zarnowski T
Neuro-Ophthalmology 2009; 33: 77-83 (IGR: 11-3)
24301 The segmentation of zones with increased autofluorescence in the junctional zone of parapapillary atrophy
Kolar R; Laemmer R; Jan J; Mardin CY
Physiological Measurement 2009; 30: 505-516 (IGR: 11-3)
24041 Tilted disc syndrome: an OCT and mfERG study
Moschos MM; Triglianos A; Rotsos T; Papadimitriou S; Margetis I; Minogiannis P; Moschos M
Documenta Ophthalmologica 2009; 119: 23-28 (IGR: 11-3)
24085 Optic disc morphology--rethinking shape
Sanfilippo PG; Cardini A; Hewitt AW; Crowston JG; Mackey DA
Progress in Retinal and Eye Research 2009; 28: 227-248 (IGR: 11-3)
24425 Modeling individual-specific human optic nerve head biomechanics. Part II: influence of material properties
Sigal IA; Flanagan JG; Tertinegg I; Ethier CR
Biomechanics and modeling in mechanobiology 2009; 8: 99-109 (IGR: 11-3)
24424 Modeling individual-specific human optic nerve head biomechanics. Part I: IOP-induced deformations and influence of geometry
Sigal IA; Flanagan JG; Tertinegg I; Ethier CR
Biomechanics and modeling in mechanobiology 2009; 8: 85-98 (IGR: 11-3)
24010 The spatial pattern of neuroretinal rim loss in ocular hypertension
Strouthidis NG; Gardiner SK; Sinapis C; Burgoyne CF; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2009; 50: 3737-3742 (IGR: 11-3)
24460 Association between optic disc hemorrhages and the position of central retinal vessels
Teixeira SH; Mello PA; Paranhos Junior A
Arquivos Brasileiros de Oftalmologia 2008; 71: 559-563 (IGR: 11-3)
24178 Optic nerve head morphologic characteristics in chronic angle-closure glaucoma and normal-tension glaucoma
Zhao L; Wu L; Wang X
Journal of Glaucoma 2009; 18: 460-463 (IGR: 11-3)
24351 Increased isolevuglandin-modified proteins in glaucomatous astrocytes
Govindarajan B; Junk A; Algeciras M; Salomon RG; Bhattacharya SK
Molecular Vision 2009; 15: 1079-1091 (IGR: 11-3)
24012 Intracellular flow in optic nerve axons: a mechanism for cell death in glaucoma
Band LR; Hall CL; Richardson G; Jensen OE; Siggers JH; Foss AJ
Investigative Ophthalmology and Visual Science 2009; 50: 3750-3758 (IGR: 11-3)
24496 Glaucoma: an area of darkness
Hitchings RA
Eye 2009; 23: 1764-1774 (IGR: 11-3)
24296 Measurement of the Disc Area by Indirect Ophthalmoscopy
Haustein M; Schmidt E; Sporl E; Pillunat LE; Bohm AG
Ophthalmologe 2009; 106: 141-148 (IGR: 11-3)
24441 Morphological characteristics of neuroretinal rim loss in the course of primary open angle glaucoma and its clinical significance
Dai J; Wang H-G
International Journal of Ophthalmology 2009; 9: 1099-1100 (IGR: 11-3)
24455 Topographic changes at the optic disc in 33 patients with primary open angle glaucoma
Marjanovic I; Kontic D; Hentova-Sencanic P; Markovic V; Bozic M; Milic N
International Journal of Ophthalmology 2009; 9: 1026-1029 (IGR: 11-3)
24031 Fixed-diameter scan protocol preferable for retinal nerve fibre layer measurement by optical coherence tomography in all sizes of optic discs
Kaushik S; Pandav SS; Ichhpujani P; Gupta A
British Journal of Ophthalmology 2009; 93: 895-900 (IGR: 11-3)
24405 Bilateral developmental glaucoma associated with optic disc pit and uveal effusion
Ichhpujani P; Ramasubramanian A; Pandav S; Kaushik S
Ophthalmic Surgery Lasers and Imaging 2009; 40: 290-292 (IGR: 11-3)
24052 Optic nerve head topography in nonglaucomatous, normotensive patients with unilateral exfoliation syndrome
Puska P; Harju M
Graefe's Archive for Clinical and Experimental Ophthalmology 2009; 247: 1111-1117 (IGR: 11-3)
23917 Evaluating a new disc staging scale for glaucomatous damage: the ability to detect change over time
Henderer J; Wang Y; Bayer A; Altangerel U; Schwartz L; Schmidt C
European Journal of Ophthalmology 2009; 19: 404-410 (IGR: 11-2)
23948 Reactivation of optic nerve head astrocytes by TGF-beta2 and H2O2 is accompanied by increased Hsp32 and Hsp47 expression
Yu AL; Moriniere J; Birke M; Neumann C; Fuchshofer R; Kampik A; Bloemendal H; Welge-Lussen U
Investigative Ophthalmology and Visual Science 2009; 50: 1707-1717 (IGR: 11-2)
23719 Biomechanics of the optic nerve head
Sigal IA; Ethier CR
Experimental Eye Research 2009; 88: 799-807 (IGR: 11-2)
23938 Comparison of clinical and three-dimensional histomorphometric optic disc margin anatomy
Strouthidis NG; Yang H; Downs JC; Burgoyne CF
Investigative Ophthalmology and Visual Science 2009; 50: 2165-2174 (IGR: 11-2)
23995 Imaging of optic nerve head drusen: improvements with spectral domain optical coherence tomography
Yi K; Mujat M; Sun W; Burnes D; Latina MA; Lin DT; Deschler DG; Rubin PA; Park BH; de Boer JF
Journal of Glaucoma 2009; 18: 373-378 (IGR: 11-2)
23898 Population-based prevalence of optic disc haemorrhages in elderly Japanese
Tomidokoro A; Iwase A; Araie M; Yamamoto T; Kitazawa Y
Eye 2009; 23: 1032-1037 (IGR: 11-2)
23875 The disc damage likelihood scale (DDLS): interobserver agreement of a new grading system to assess glaucomatous optic disc damage
Bochmann F; Howell JP; Meier C; Becht C; Thiel MA
Klinische Monatsblätter für Augenheilkunde 2009; 226: 280-283 (IGR: 11-2)
23929 Lamina cribrosa and peripapillary sclera histomorphometry in normal and advanced glaucomatous Chinese eyes with various axial length
Ren R; Wang N; Li B; Li L; Gao F; Xu X; Jonas JB
Investigative Ophthalmology and Visual Science 2009; 50: 2175-2184 (IGR: 11-2)
23892 Interactions between geometry and mechanical properties on the optic nerve head
Sigal IA
Investigative Ophthalmology and Visual Science 2009; 50: 2785-2795 (IGR: 11-2)
23974 Friend or foe? Resolving the impact of glial responses in glaucoma
Johnson EC; Morrison JC
Journal of Glaucoma 2009; 18: 341-353 (IGR: 11-2)
23936 Impact of systemic blood pressure on the relationship between intraocular pressure and blood flow in the optic nerve head of nonhuman primates
Liang Y; Downs JC; Fortune B; Cull G; Cioffi GA; Wang L
Investigative Ophthalmology and Visual Science 2009; 50: 2154-2160 (IGR: 11-2)
23602 Level-set based automatic cup-to-disc ratio determination using retinal fundus images in ARGALI
Wong DK; Liu J; Lim JH; Jia X; Yin F; Li H; Wong TY
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2008; 2266-2269 (IGR: 11-2)
23520 Quantitative depth analysis of optic nerve head using stereo retinal fundus image pair
Nakagawa T; Suzuki T; Hayashi Y; Mizukusa Y; Hatanaka Y; Ishida K; Hara T; Fujita H; Yamamoto T
Journal of biomedical Optics 2008; 13: 064026 (IGR: 11-2)
23977 Optic nerve head analysis using the confocal scanning laser ophthalmoscope (CSLO) of big cups versus normal cups
Ouertani A; Tounsi L; Khammari C; Bouden J; Mili-Boussen I
Journal Français d'Ophtalmologie 2009; 32: 50-55 (IGR: 11-2)
23871 Rates of neuroretinal rim and peripapillary atrophy area change: a comparative study of glaucoma patients and normal controls
See JL; Nicolela MT; Chauhan BC
Ophthalmology 2009; 116: 840-847 (IGR: 11-2)
23955 Optic disc progression in glaucoma: comparison of confocal scanning laser tomography to optic disc photographs in a prospective study
Chauhan BC; Hutchison DM; Artes PH; Caprioli J; Jonas JB; Leblanc RP; Nicolela MT
Investigative Ophthalmology and Visual Science 2009; 50: 1682-1691 (IGR: 11-2)
23861 Sector-based analysis with the Heidelberg Retinal Tomograph 3 across disc sizes and glaucoma stages: a multicenter study
Oddone F; Centofanti M; Iester M; Rossetti L; Fogagnolo P; Michelessi M; Capris E; Manni G
Ophthalmology 2009; 116: 1106-1111 (IGR: 11-2)
23855 Effects of age on optical coherence tomography measurements of healthy retinal nerve fiber layer, macula, and optic nerve head
Sung KR; Wollstein G; Bilonick RA; Townsend KA; Ishikawa H; Kagemann L; Noecker RJ; Fujimoto JG; Schuman JS
Ophthalmology 2009; 116: 1119-1124 (IGR: 11-2)
23925 Hyperfluorescence of the optic disc with indocyanine green angiography
Maaijwee K; van den Biesen PR; van Meurs JC
Eye 2009; 23: 819-821 (IGR: 11-2)
23809 The association between retinal vein ophthalmodynamometric force change and optic disc excavation
Morgan WH; Hazelton ML; Balaratnasingamm C; Chan H; House PH; Barry CJ; Cringle SJ; Yu DY
British Journal of Ophthalmology 2009; 93: 594-596 (IGR: 11-2)
23787 Quantitative assessment of optic nerve head morphology and retinal nerve fibre layer in non-arteritic anterior ischaemic optic neuropathy with optical coherence tomography and confocal scanning laser ophthalmoloscopy
Chan CK; Cheng AC; Leung CK; Cheung CY; Yung AY; Gong B; Lam DS
British Journal of Ophthalmology 2009; 93: 731-735 (IGR: 11-2)
23880 Birth weight and optic nerve head parameters
Samarawickrama C; Huynh SC; Liew G; Burlutsky G; Mitchell P
Ophthalmology 2009; 116: 1112-1118 (IGR: 11-2)
22537 Remodeling of the connective tissue microarchitecture of the lamina cribrosa in early experimental glaucoma
Roberts MD; Grau V; Grimm J; Reynaud J; Bellezza AJ; Burgoyne CF; Downs JC
Investigative Ophthalmology and Visual Science 2009; 50: 681-690 (IGR: 11-1)
22718 Activation of stretch-activated channels and maxi-K+ channels by membrane stress of human lamina cribrosa cells
Irnaten M; Barry RC; Quill B; Clark AF; Harvey BJ; O'brien CJ
Investigative Ophthalmology and Visual Science 2009; 50: 194-202 (IGR: 11-1)
22508 The relationship between central corneal thickness and the optic disc in an elderly population: the Bridlington Eye Assessment Project
Hawker MJ; Edmunds MR; Vernon SA; Hillman JG; Macnab HK
Eye 2009; 23: 56-62 (IGR: 11-1)
22711 Physiologic intereye differences in monkey optic nerve head architecture and their relation to changes in early experimental glaucoma
Yang H; Downs JC; Burgoyne CF
Investigative Ophthalmology and Visual Science 2009; 50: 224-234 (IGR: 11-1)
22926 Differential global and extra-cellular matrix focused gene expression patterns between normal and glaucomatous human lamina cribrosa cells
Kirwan RP; Wordinger RJ; Clark AF; O'brien CJ
Molecular Vision 2009; 15: 76-88 (IGR: 11-1)
22615 Mechanical stretching elevates peptidyl arginine deiminase 2 expression in astrocytes
Algeciras ME; Takahara H; Bhattacharya SK
Current Eye Research 2008; 33: 994-1001 (IGR: 11-1)
22690 Elevated intraocular pressure, optic nerve atrophy, and impaired retinal development in ODAG transgenic mice
Sasaki T; Watanabe W; Muranishi Y; Kanamoto T; Aihara M; Miyazaki K; Tamura H; Saeki T; Oda H; Souchelnytskyi N
Investigative Ophthalmology and Visual Science 2009; 50: 242-248 (IGR: 11-1)
22514 Assessment of cup-to-disc ratio with slit-lamp funduscopy, Heidelberg Retina Tomography II, and stereoscopic photos
Durmus M; Karadag R; Erdurmus M; Totan Y; Feyzi Hepsen I
European Journal of Ophthalmology 2009; 19: 55-60 (IGR: 11-1)
22626 Association of optic disc configuration and clustered visual field sensitivity in glaucomatous eyes with hemifield visual field defects
Nagai-Kusuhara A; Nakamura M; Kanamori A; Negi A
Journal of Glaucoma 2009; 18: 62-68 (IGR: 11-1)
23399 Artifacts on the optic nerve head analysis of the optical coherence tomography in glaucomatous and nonglaucomatous eyes
Ortega Jde L; Kakati B; Girkin CA
Journal of Glaucoma 2009; 18: 186-191 (IGR: 11-1)
22656 Three-dimensional high-speed optical coherence tomography imaging of lamina cribrosa in glaucoma
Inoue R; Hangai M; Kotera Y; Nakanishi H; Mori S; Morishita S; Yoshimura N
Ophthalmology 2009; 116: 214-222 (IGR: 11-1)
22810 Role of active and passive modulations of ocular microcirculation in altering the morphometric parameters of the optic disk in primary glaucoma
Bakshinskii PP; Kuroedov AV; Shamshinova AM
Vestnik Oftalmologii 2008; 124: 35-39 (IGR: 11-1)
22688 Effect of systemic nitric oxide synthase inhibition on optic disc oxygen partial pressure in normoxia and in hypercapnia
Petropoulos IK; Pournaras JA; Stangos AN; Pournaras CJ
Investigative Ophthalmology and Visual Science 2009; 50: 378-384 (IGR: 11-1)
21767 Neural rim characteristics of healthy South Indians: The Chennai Glaucoma Study
Arvind H; George R; Raju P; Ve RS; Mani B; Kannan P; Vijaya L
Investigative Ophthalmology and Visual Science 2008; 49: 3457-3464 (IGR: 10-3)
21774 Prevalence of crowded optic discs in adult Chinese: The Beijing Eye Study
You QS; Xu L; Jonas JB
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 1291-1293 (IGR: 10-3)
21753 Corneal hysteresis but not corneal thickness correlates with optic nerve surface compliance in glaucoma patients
Wells AP; Garway-Heath DF; Poostchi A; Wong T; Chan KC; Sachdev N
Investigative Ophthalmology and Visual Science 2008; 49: 3262-3268 (IGR: 10-3)
21854 Determinants of the optic cup to disc ratio in an Asian population: The Singapore Malay Eye Study (SiMES)
Amerasinghe N; Wong TY; Wong WL; Mitchell P; Shen SY; Loon SC; Saw SM; Foster PJ; Aung T; SiMES Study Group
Archives of Ophthalmology 2008; 126: 1101-1108 (IGR: 10-3)
21595 Assessment of stereoscopic optic disc images using an autostereoscopic screen - Experimental study
Habib MS; Lowell JA; Holliman NS; Hunter A; Vaideanu D; Hildreth A; Steel DHW
BMC Ophthalmology 2008; 8: 13 (IGR: 10-3)
21809 Reversal of optic disc cupping in glaucoma
Harju M; Saari J; Kurvinen L; Vesti E
British Journal of Ophthalmology 2008; 92: 901-905 (IGR: 10-3)
21797 Tilted disc syndrome may mimic false visual field deterioration
Vuori ML; Mäntyjärvi M
Acta Ophthalmologica 2008; 86: 622-625 (IGR: 10-3)
21621 Human optic nerve head astrocytes culture in vitro: I. The primary culture and passage
Dai W-J; Culp-Stewwart S; Cheng A; Flanagan J; Ethier CR
International Journal of Ophthalmology 2008; 8: 1311-1314 (IGR: 10-3)
21500 Identification of the optic nerve head with genetic algorithms
Carmona EJ; Rincon M; Garcia-Feijoo J; Martinez-de-la-Casa JM
Artificial Intelligence in Medicine 2008; 43: 243-259 (IGR: 10-3)
21707 Characteristics of disc hemorrhage in primary angle-closure glaucoma
Lan YW; Wang IJ; Hsiao YC; Sun FJ; Hsieh JW
Ophthalmology 2008; 115: 1328-1333 (IGR: 10-3)
21643 Analysis of causes for hemorrhage at the edge of optic disc
Jin Q-X
International Journal of Ophthalmology 2008; 8: 1264-1265 (IGR: 10-3)
21828 Optic disc and peripapillary morphology in unilateral nonarteritic anterior ischemic optic neuropathy and age- and refraction-matched normals
Saito H; Tomidokoro A; Tomita G; Araie M; Wakakura M
Ophthalmology 2008; 115: 1585-1590 (IGR: 10-3)
20928 Lower corneal hysteresis in glaucoma patients with acquired pit of the optic nerve (APON)
Bochmann F; Ang GS; Azuara-Blanco A
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 735-738 (IGR: 10-2)
20887 Central corneal thickness in adult Chinese. Association with ocular and general parameters. The Beijing Eye Study
Zhang H; Xu L; Chen C; Jonas JB
Graefe's Archive for Clinical and Experimental Ophthalmology 2008; 246: 587-592 (IGR: 10-2)
21372 Relationships of retinal vessel diameters with optic disc, macular and retinal nerve fiber layer parameters in 6-year-old children
Cheung N; Huynh S; Wang JJ; Taylor B; Islam FM; Saw SM; Wong TY; Mitchell P
Investigative Ophthalmology and Visual Science 2008; 49: 2403-2408 (IGR: 10-2)
21360 3D vs 2D qualitative and semiquantitative evaluation of the glaucomatous optic disc atrophy using computer-assisted stereophotography
Lehmann MV; Mardin CY; Martus P; Bergua A
Eye 2008; 22: 628-635 (IGR: 10-2)
21351 Endothelin-1 mediated regulation of extracellular matrix collagens in cells of human lamina cribrosa
Rao VR; Krishnamoorthy RR; Yorio T
Experimental Eye Research 2008; 86: 886-894 (IGR: 10-2)
21344 Vascular anatomy of the optic nerve head
Mackenzie PJ; Cioffi GA
Canadian Journal of Ophthalmology 2008; 43: 308-312 (IGR: 10-2)
21033 Heritability of optic disc and cup measured by the Heidelberg retinal tomography in Chinese: The Guangzhou Twin Eye Study
He M; Liu B; Huang W; Zhang J; Yin Q; Zheng Y; Wang D; Ge J
Investigative Ophthalmology and Visual Science 2008; 49: 1350-1355 (IGR: 10-2)
20899 Agreement between slit lamp examination and optical coherence tomography in estimating cup-disc ratios
Martinez-de-la-Casa JM; Saenz-Frances F; Fernandez-Vidal AM; Mendez-Hernandez CD; Pablo-Julvez L; Garcia-Sanchez J; Garcia-Feijoo J
European Journal of Ophthalmology 2008; 18: 423-428 (IGR: 10-2)
21148 Disc hemorrhages in patients with both normal tension glaucoma and branch retinal vein occlusion in different eyes
Yoo YC; Park KH
Korean Journal of Ophthalmology 2007; 21: 222-227 (IGR: 10-2)
21109 Importance of assessing optic disc size for accurate diagnosis of glaucoma
Wakakura M
Neuro-Ophthalmology Japan 2007; 24: 405-413 (IGR: 10-2)
21262 Analysis of 120 cases with primary open angle glaucoma in 6-year follow-up
Ai F-R; Li Y; Zhang X; Zhao J-L
International Journal of Ophthalmology 2008; 8: 753-755 (IGR: 10-2)
21356 Is the ISNT rule violated in early primary open-angle glaucoma - a scanning laser tomography study
Sihota R; Srinivasan G; Dada T; Gupta V; Ghate D; Sharma A
Eye 2008; 22: 819-824 (IGR: 10-2)
21396 Evaluation of the optic nerve head with the Heidelberg retina tomograph in diabetes mellitus
Tekeli O; Turaçli ME; Atmaca LS; Elhan AH
Ophthalmologica 2008; 22: 168-172 (IGR: 10-2)
21235 Segmentation of optic nerve head using warping and RANSAC
Kim SK; Kong HJ; Seo JM; Cho BJ; Park KH; Hwang JM; Kim DM; Chung H; Kim HC
Conference proceedings : Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2007; 2007: 900-903 (IGR: 10-2)
21213 Software-assisted optic nerve assessment for glaucoma telescreening
Khouri AS; Szirth BC; Shahid KS; Fechtner RD
Telemedicine Journal and E-Health: the Official Journal of the American Telemedicine Association 2008; 14: 261-265 (IGR: 10-2)
21188 DICOM transmission of simultaneous stereoscopic images of the optic nerve in patients with glaucoma
Khouri AS; Szirth BC; Salti HI; Fechtner RD
Journal of Telemedicine and Telecare 2007; 13: 337-340 (IGR: 10-2)
21345 What can we learn from the disc appearance about the risk factors in glaucoma?
Drance SM
Canadian Journal of Ophthalmology 2008; 43: 322-327 (IGR: 10-2)
21110 Study of MR imaging of optic nerve in the case with complication of disc anomaly and normal tension glaucoma
Nakao Y
Neuro-Ophthalmology Japan 2007; 24: 397-404 (IGR: 10-2)
21271 Analysis of optic disc parameters by HRT-II in the patients with chronic angle-closure glaucoma
Xue M-H; Zhang L; Tang G-T; Li B; Zhao J-W; Wang M-H
International Journal of Ophthalmology 2008; 8: 299-300 (IGR: 10-2)
20961 Unilateral papilledema after trabeculectomy in a patient with intracranial hypertension
Abegg M; Fleischhauer J; Landau K
Klinische Monatsblätter für Augenheilkunde 2008; 225: 441-442 (IGR: 10-2)
21363 Tilted optic discs: The Beijing Eye Study
You QS; Xu L; Jonas JB
Eye 2008; 22: 728-729 (IGR: 10-2)
21140 Effects of unoprostone on phosphorylated extracellular signal-regulated kinase expression in endothelin-1-induced retinal and optic nerve damage
Munemasa Y; Kitaoka Y; Hayashi Y; Takeda H; Fujino H; Ohtani-Kaneko R; Hirata K; Ueno S
Visual Neuroscience 2008; 25: 197-208 (IGR: 10-2)
20319 Relationship between central corneal thickness and parameters of optic nerve head topography in healthy subjects
Cankaya AB; Elgin U; Batman A; Acaroglu G
European Journal of Ophthalmology 2008; 18: 32-38 (IGR: 10-1)
20318 Peripapillary atrophy in elderly Chinese in rural and urban Beijing
Wang Y; Xu L; Zhang L; Yang H; Ma Y; Jonas JB
Eye 2008; 22: 261-266 (IGR: 10-1)
20354 Association of retinal nerve fibre layer thickness measured by confocal scanning laser ophthalmoscopy and optical coherence tomography with disc size and axial length
Nagai-Kusuhara A; Nakamura M; Fujioka M; Tatsumi Y; Negi A
British Journal of Ophthalmology 2008; 92: 186-90 (IGR: 10-1)
20548 The effect of swimming goggles on intraocular pressure and blood flow within the optic nerve head
Ma KT; Chung WS; Seo KY; Seong GJ; Kim CY
Yonsei Medical Journal 2007; 48: 807-809 (IGR: 10-1)
20750 Optic disc hemorrhages in glaucoma and ocular hypertension: implications and recommendations
Uhler TA; Piltz-Seymour J
Current Opinions in Ophthalmology 2008; 19: 89-94 (IGR: 10-1)
20761 The morphology of the optic nerve head in the Singaporean Chinese population (the Tanjong Pagar study): part 1--Optic nerve head morphology
Bourne RR; Foster PJ; Bunce C; Peto T; Hitchings RA; Khaw PT; Seah SK; Garway-Heath DF
British Journal of Ophthalmology 2008; 92: 303-309 (IGR: 10-1)
20450 The Prevalence of Optic Disc Pits and Their Relationship to Glaucoma
Healey PR; Mitchell P
Journal of Glaucoma 2008; 17: 11-14 (IGR: 10-1)
20776 The morphology of the optic nerve head in the Singaporean Chinese population (the Tanjong Pagar study): part 2--Biometric and systemic associations
Bourne RR; Foster PJ; Bunce C; Peto T; Hitchings RA; Khaw PT; Seah SK; Garway-Heath DF
British Journal of Ophthalmology 2008; 92: 310-314 (IGR: 10-1)
20436 The heritability of optic disc parameters: a classic twin study
Healey P; Carbonaro F; Taylor B; Spector TD; Mitchell P; Hammond CJ
Investigative Ophthalmology and Visual Science 2008; 49: 77-80 (IGR: 10-1)
20346 Optic disc size in a population-based study in central India: the Central India Eye and Medical Study (CIEMS)
Nangia V; Matin A; Bhojwani K; Kulkarni M; Yadav M; Jonas JB
Acta Ophthalmologica Scandinavica 2008; 86: 103-104 (IGR: 10-1)
20700 Optic disc asymmetry: Normal tension glaucoma or a space-occupying lesion?
Gupta A; Rahman I; Mohan M
Annals of ophthalmology (Skokie, Ill.) 2007; 39: 246-248 (IGR: 10-1)
20853 Optic Nerve Head Drusen and Visual Field Loss in Normotensive and Hypertensive Eyes
Grippo TM; Shihadeh WA; Schargus M; Gramer E; Tello C; Liebmann JM; Ritch R
Journal of Glaucoma 2008; 17: 100-104 (IGR: 10-1)
20576 Correlation of visual changes with disc morphology
Garway-Heath DF
Eye 2007; 21: S29-S33 (IGR: 10-1)
20332 Diagnostic ability of the heidelberg retina tomograph 3 for glaucoma
Ferreras A; Pablo LE; Pajarín AB; Larrosa JM; Polo V; Pueyo V
American Journal of Ophthalmology 2008; 145: 354-359 (IGR: 10-1)
20562 Detection of glaucomatous change based on vessel shape analysis
Matsopoulos GK; Asvestas PA; Delibasis KK; Mouravliansky NA; Zeyen TG
Computerized Medical Imaging and Graphics 2008; 32: 183-192 (IGR: 10-1)
20696 Detection of glaucoma-like optic discs in a diabetes teleretinal program
Pasquale LR; Asefzadeh B; Dunphy RW; Fisch BM; Conlin PR
Optometry 2007; 78: 657-663 (IGR: 10-1)
20625 Optic neuropathy after Epi-LASIK
Montezuma SR; Lesseil S; Pineda R
Journal of Refractive Surgery 2008; 24: 204-208 (IGR: 10-1)
20588 Aloe-emodin suppressed NMDA-induced apoptosis of retinal ganglion cells through regulation of ERK phosphorylation
Lin H-J; Chao P-DL; Huang S-Y; Wan L; Wu C-J; Tsai F-J
Phytotherapy Research 2007; 21: 1007-1014 (IGR: 10-1)
20040 Optic nerve head and retinal nerve fiber layer analysis: a report by the American Academy of Ophthalmology
Lin SC; Singh K; Jampel HD; Hodapp EA; Smith SD; Francis BA; Dueker DK; Fechtner RD; Samples JS; Schuman JS
Ophthalmology 2007; 114: 1937-1949 (IGR: 9-4)
20108 Upregulation of EphB2 and ephrin-B2 at the optic nerve head of DBA/2J glaucomatous mice coincides with axon loss
Du J; Tran T; Fu C; Sretavan DW
Investigative Ophthalmology and Visual Science 2007; 48: 5567-5581 (IGR: 9-4)
19686 Ethnic differences in the parameters of the head of the optic nerve: data of optical coherent tomography
Dzhumataeva ZA
Vestnik Oftalmologii 2007; 123: 29-30 (IGR: 9-4)
20028 Does the blood-brain barrier play a role in glaucoma?
Grieshaber MC; Flammer J
Survey of Ophthalmology 2007; 52: S115-121 (IGR: 9-4)
19862 Clinical key points. Optic disk
Sellem E
Journal Français d'Ophtalmologie 2007; 30: 5 Pt 2 3S47-51 (IGR: 9-4)
19889 Size of the neuroretinal rim and optic cup and their correlations with ocular and general parameters in adult Chinese: The Beijing Eye Study
Xu L; Wang Y; Yang H; Zhang L; Jonas JB
British Journal of Ophthalmology 2007; 91: 1616-1619 (IGR: 9-4)
20101 Activation of the BMP canonical signaling pathway in human optic nerve head tissue and isolated optic nerve head astrocytes and lamina cribrosa cells
Zode GS; Clark AF; Wordinger RJ
Investigative Ophthalmology and Visual Science 2007; 48: 5058-5067 (IGR: 9-4)
19962 Role of immune system in glaucomatous optic nerve degeneration
Zhang Y; Zhao JL
Zhonghua Yan Ke Za Zhi 2007; 43: 858-861 (IGR: 9-4)
20100 3-D histomorphometry of the normal and early glaucomatous monkey optic nerve head: prelaminar neural tissues and cupping
Yang H; Downs JC; Bellezza A; Thompson H; Burgoyne CF
Investigative Ophthalmology and Visual Science 2007; 48: 5068-5084 (IGR: 9-4)
20090 3-D histomorphometry of the normal and early glaucomatous monkey optic nerve head: lamina cribrosa and peripapillary scleral position and thickness
Yang H; Downs JC; Girkin C; Sakata L; Bellezza A; Thompson H; Burgoyne CF
Investigative Ophthalmology and Visual Science 2007; 48: 4597-4607 (IGR: 9-4)
20104 Relationship of retinal vascular caliber with optic disc diameter in children
Cheung N; Tong L; Tikellis G; Saw SM; Mitchell P; Wang JJ; Wong TY
Investigative Ophthalmology and Visual Science 2007; 48: 4945-4948 (IGR: 9-4)
19759 Diagnosis of open-angle glaucoma by Moorfields regression analysis and multivariate discriminate analysis
Liu C; Hu Y; Xu C; Zhu Z
Chinese Ophthalmic Research 2007; 25: 778-781 (IGR: 9-4)
19741 Optic disc melanocytoma and glaucoma
Rai S; Medeiros FA; Levi L; Weinreb RN
Seminars in Ophthalmology 2007; 22: 147-150 (IGR: 9-4)
19866 Recognizing the pitfalls. Non-glaucomatous optic disc cupping
Milea D
Journal Français d'Ophtalmologie 2007; 30: 5 Pt 2 3S31-34 (IGR: 9-4)
19522 Expression of ephrinB1 and its receptor in glaucomatous optic neuropathy
Schmidt JF; Agapova OA; Yang P; Kaufman PL; Hernandez MR
British Journal of Ophthalmology 2007; 91: 1219-1224 (IGR: 9-3)
19647 Axonal transport and cytoskeletal changes in the laminar regions after elevated intraocular pressure
Balaratnasingam C; Morgan WH; Bass L; Matich G; Cringle SJ; Yu DY
Investigative Ophthalmology and Visual Science 2007; 48: 3632-3644 (IGR: 9-3)
19640 Endothelin-1-mediated signaling in the expression of matrix metalloproteinases and tissue inhibitors of metalloproteinases in astrocytes
He S; Prasanna G; Yorio T
Investigative Ophthalmology and Visual Science 2007; 48: 3737-3745 (IGR: 9-3)
19558 Gray optic disc crescent: Influence of ethnicity in a glaucoma population
Higginbotham L; Shafranov G; Shields MB
Journal of Glaucoma 2007; 16: 572-576 (IGR: 9-3)
19560 Quantification of neuroretinal rim loss using digital planimetry in long-term follow-up of normals and patients with ocular hypertension
Laemmer R; Schroeder S; Martus P; Viestenz A; Mardin CY
Journal of Glaucoma 2007; 16: 430-436 (IGR: 9-3)
19320 Pressure induces loss of gap junction communication and redistribution of connexin 43 in astrocytes
Malone P; Miao H; Parker A; Juarez S; Hernandez MR
GLIA 2007; 55: 1085-1098 (IGR: 9-3)
19555 The acute morphologic changes that occur at the optic nerve head induced by medical reduction of intraocular pressure
Meredith SP; Swift L; Eke T; Broadway DC
Journal of Glaucoma 2007; 16: 556-561 (IGR: 9-3)
19340 Research progress in biomechanics of optic disc
Qian D
Chinese Ophthalmic Research 2007; 25: 551-553 (IGR: 9-3)
19502 Effects of refraction and axial length on childhood optic disk parameters measured by optical coherence tomography
Samarawickrama C; Wang XY; Huynh SC; Burlutsky G; Stapleton F; Mitchell P
American Journal of Ophthalmology 2007; 144: 459-461 (IGR: 9-3)
19485 Predicted extension, compression and shearing of optic nerve head tissues
Sigal IA; Flanagan JG; Tertinegg I; Ethier CR
Experimental Eye Research 2007; 85: 312-322 (IGR: 9-3)
19649 Population differences in elastin maturation in optic nerve head tissue and astrocytes
Urban Z; Agapova O; Hucthagowder V; Yang P; Starcher BC; Hernandez MR
Investigative Ophthalmology and Visual Science 2007; 48: 3209-3215 (IGR: 9-3)
19500 Shape of the neuroretinal rim and its correlations with ocular and general parameters in adult chinese: the beijing eye study
Wang Y; Xu L; Jonas JB
American Journal of Ophthalmology 2007; 144: 462-464 (IGR: 9-3)
19656 Three-dimensional histomorphometry of the normal and early glaucomatous monkey optic nerve head: neural canal and subarachnoid space architecture
Downs JC; Yang H; Girkin C; Sakata L; Bellezza A; Thompson H; Burgoyne CF
Investigative Ophthalmology and Visual Science 2007; 48: 3195-208 (IGR: 9-3)
19552 Interocular differences in optic nerve head topography of the subjects with unilateral peripapillary myelinated nerve fibers
Unal M; Yücel I; Duman O; Ylmaz A; Akar Y
Journal of Glaucoma 2007; 16: 539-542 (IGR: 9-3)
19360 Application of second harmonic imaging microscopy to assess structural changes in optic nerve head structure ex vivo
Brown DJ; Morishige N; Neekhra A; Minckler DS; Jester JV
Journal of biomedical Optics 2007; 12: 24-29 (IGR: 9-3)
19623 Optic disc measurements in myopia with optical coherence tomography and confocal scanning laser ophthalmoscopy
Leung CK; Cheng AC; Chong KK; Leung KS; Mohamed S; Lau CS; Cheung CY; Chu GC; Lai RY; Pang CC
Investigative Ophthalmology and Visual Science 2007; 48: 3178-3183 (IGR: 9-3)
19511 Tilted disc syndrome and colour vision
Vuori ML; Mäntyjärvi M
Acta Ophthalmologica Scandinavica 2007; 85: 648-652 (IGR: 9-3)
19452 Effect of statin drugs and aspirin on progression in open-angle glaucoma suspects using confocal scanning laser ophthalmoscopy
De Castro DK; Punjabi OS; Bostrom AG; Stamper RL; Lietman TM; Ray K; Lin SC
Clinical and Experimental Ophthalmology 2007; 35: 506-513 (IGR: 9-3)
18171 American Chinese glaucoma imaging study: A comparison of the optic disc and retinal nerve fiber layer in detecting glaucomatous damage
Leung CK; Medeiros FA; Zangwill LM; Sample PA; Bowd C; Ng D; Cheung CY; Lam DS; Weinreb RN
Investigative Ophthalmology and Visual Science 2007; 48: 2644-2652 (IGR: 9-2)
17642 Optic disc imaging in perimetrically normal eyes of glaucoma patients with unilateral field loss
Caprioli J; Nouri-Mahdavi K; Law SK; Badala F
Transactions of the American Ophthalmological Society 2006; 104: 202-210 (IGR: 9-2)
18185 Heritable features of the optic disc: a novel twin method for determining genetic significance
Hewitt AW; Poulsen JP; Alward WL; Bennett SL; Budde WM; Cooper RL; Craig JE; Fingert JH; Foster PJ; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2007; 48: 2469-2475 (IGR: 9-2)
18138 Non-glaucomatous optic disc cupping
Milea D
Journal Français d'Ophtalmologie 2007; 30: 3S31-3S35 (IGR: 9-2)
18133 Optic disk
Sellem E
Journal Français d'Ophtalmologie 2007; 30: 3S47-3S52 (IGR: 9-2)
17989 Hypoxia/reoxygenation and TGF-β increase αB-crystallin expression in human optic nerve head astrocytes
Yu AL; Fuchshofer R; Birke M; Priglinger SG; Eibl KH; Kampik A; Bloemendal H; Welge-Lussen U
Experimental Eye Research 2007; 84: 694-706 (IGR: 9-2)
18191 New agreement in assessing vertical cup: disc ratio using a 78D lens with slit-lamp eyepiece measuring graticule
Zheng Y; He M
Eye Science 2007; 23: 53-57 (IGR: 9-2)
18225 Automated segmentation of the optic disc from stereo color photographs using physiologically plausible features
Abràmoff MD; Alward WL; Greenlee EC; Shuba L; Kim CY; Fingert JH; Kwon YH
Investigative Ophthalmology and Visual Science 2007; 48: 1665-1673 (IGR: 9-2)
17552 Retinal nerve fiber layer thickness evaluation using optical coherence tomography in eyes with optic disc hemorrhage
Choi F; Park KH; Kim DM; Kim TW
Ophthalmic Surgery Lasers and Imaging 2007; 38: 118-125 (IGR: 9-2)
18122 The 'cup-to-disc ratio': A comparison of TopSS, HRT II and subjective findings
Hitzl W; Hornykewycz K; Grabner G; Reitsamer HA
Klinische Monatsblätter für Augenheilkunde 2007; 224: 391-395 (IGR: 9-2)
18001 Detection of glaucomatous optic nerve head by using Heidelberg topographic maps
Iester M; Zanini M; Vittone P; Calabria G
Eye 2007; 21: 609-613 (IGR: 9-2)
17450 Adaptive optics scanning laser ophthalmoscopy for in vivo imaging of lamina cribrosa
Vilupuru AS; Rangaswamy NV; Frishman LJ; Smith 3rd EL; Harwerth RS; Roorda A
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2007; 24: 1417-1425 (IGR: 9-2)
18178 Correlation between optic disc area and retinal nerve fiber layer thickness: A study on scanning laser polarimetry with variable corneal compensation
Da Pozzo S; Iacono P; Michelone L; Paoloni M; Ravalico G
Graefe's Archive for Clinical and Experimental Ophthalmology 2007; 245: 511-515 (IGR: 9-2)
17550 Relationship of changes in visual functions and optic disk in patients with glaucoma concurrent with myopia
Makashova NV; Eliseeva EG
Vestnik Oftalmologii 2007; 123: 9-12 (IGR: 9-2)
18043 Familial cavitary optic disk anomalies: identification of a novel genetic locus
Fingert JH; Honkanen RA; Shankar SP; Affatigato LM; Ehlinger MA; Moore MD; Jampol LM; Sheffield VC; Stone EM; Alward WL
American Journal of Ophthalmology 2007; 143: 795-800 (IGR: 9-2)
18035 Familial cavitary optic disk anomalies: Clinical features of a large family with examples of progressive optic nerve head cupping
Honkanen RA; Jampol LM; Fingert JH; Moore MD; Taylor CM; Stone EM; Alward WL
American Journal of Ophthalmology 2007; 143: 788-794 (IGR: 9-2)
18077 Assessment of the optic disc to measure neuroprotection
Mikelberg FS
Canadian Journal of Ophthalmology 2007; 42: 421-424 (IGR: 9-2)
17088 A cellular solid model of the lamina cribrosa: Mechanical dependence on morphology
Sander EA; Downs JC; Hart RT; Burgoyne CF; Nauman EA
Journal of Biomechanical Engineering 2006; 128: 879-889 (IGR: 9-1)
17045 Optic disc tomography and perimetry in controls, glaucoma suspects, and early and established glaucomas
de la Rosa MG; Gonzalez-Hernandez M; Lozano-Lopez V; Mendez MS; De La Vega RR
Optometry and Vision Science 2007; 84: 33-41 (IGR: 9-1)
17023 The optic nerve head in myocilin glaucoma
Hewitt AW; Bennett SL; Fingert JH; Cooper RL; Stone EM; Craig JE; Mackey DA
Investigative Ophthalmology and Visual Science 2007; 48: 238-243 (IGR: 9-1)
17016 Optic disk size and glaucoma
Hoffmann EM; Zangwill LM; Crowston JG; Weinreb RN
Survey of Ophthalmology 2007; 52: 32-49 (IGR: 9-1)
17178 Correlation between the shape of optic nerve head and retinal nerve fiber layer defect
Koike I; Hiroishi G; Koike N; Ikeda Y; Yoshida S; Fujisawa K; Ishibashi T
Japanese Journal of Clinical Ophthalmology 2006; 60: 1925-1929 (IGR: 9-1)
17020 Association of retinal vessel caliber to optic disc and cup diameters
Lee KE; Klein BE; Klein R; Meuer SM
Investigative Ophthalmology and Visual Science 2007; 48: 63-67 (IGR: 9-1)
17021 Measurement of retinal vascular caliber: issues and alternatives to using the arteriole to venule ratio
Liew G; Sharrett AR; Kronmal R; Klein R; Wong TY; Mitchell P; Kifley A; Wang JJ
Investigative Ophthalmology and Visual Science 2007; 48: 52-57 (IGR: 9-1)
16819 4-Hydroxynonenal, a product of oxidative stress, leads to an antioxidant response in optic nerve head astrocytes
Malone PE; Hernandez MR
Experimental Eye Research 2007; 84: 444-454 (IGR: 9-1)
16822 Does treated systemic hypertension affect progression of optic nerve damage in glaucoma suspects?
Punjabi OS; Stamper RL; Bostrom AG; Lin SC
Current Eye Research 2007; 32: 153-160 (IGR: 9-1)
17022 The mutant human ND4 subunit of complex I induces optic neuropathy in the mouse
Qi X; Sun L; Lewin AS; Hauswirth WW; Guy J
Investigative Ophthalmology and Visual Science 2007; 48: 1-10 (IGR: 9-1)
16765 New findings in the evaluation of the optic disc in glaucoma diagnosis
Susanna R Jr; Vessani RM
Current Opinions in Ophthalmology 2007; 18: 122-128 (IGR: 9-1)
16959 Accelerated aging in glaucoma: immunohistochemical assessment of advanced glycation end products in the human retina and optic nerve head
Tezel G; Luo C; Yang X
Investigative Ophthalmology and Visual Science 2007; 48: 1201-1211 (IGR: 9-1)
17008 Mechanisms of immune system activation in glaucoma: oxidative stress-stimulated antigen presentation by the retina and optic nerve head glia
Tezel G; Yang X; Luo C; Peng Y; Sun SL; Sun D
Investigative Ophthalmology and Visual Science 2007; 48: 705-714 (IGR: 9-1)
16923 Usefulness of optical coherence tomography parameters of the optic disc and the retinal nerve fiber layer to differentiate glaucomatous, ocular hypertensive, and normal eyes
Anton A; Moreno-Montanes J; Blazquez F; Alvarez A; Martin B; Molina B
Journal of Glaucoma 2007; 16: 1-8 (IGR: 9-1)
16980 Interobserver variability in confocal optic nerve analysis (HRT)
Hermann MM; Garway-Heath DF; Jonescu-Cuypers CP; Burk RO; Jonas JB; Mardin CY; Funk J; Diestelhorst M
International Ophthalmology 2005; 26: 143-149 (IGR: 9-1)
16875 Agreement between stereophotographic and confocal scanning laser ophthalmoscopy measurements of cup/disc ratio: Effect on a predictive model for glaucoma development
Medeiros FA; Zangwill LM; Bowd C; Vasile C; Sample PA; Weinreb RN
Journal of Glaucoma 2007; 16: 209-214 (IGR: 9-1)
16829 Sensitivity and specificity of Heidelberg Retinal Tomography II parameters in detecting early and moderate glaucomatous damage: effect of disc size
Uysal Y; Bayer A; Erdurman C; Kilic S
Clinical and Experimental Ophthalmology 2007; 35: 113-118 (IGR: 9-1)
16977 Comparison of the GDx VCC scanning laser polarimeter and the Stratus optical coherence tomograph in the detection of band atrophy of the optic nerve
Monteiro ML; Moura FC
Eye 2007; Epub ahead of print (IGR: 9-1)
16844 Oxygen saturation in optic nerve head structures by hyperspectral image analysis
Beach J; Ning J; Khoobehi B
Current Eye Research 2007; 32: 161-170 (IGR: 9-1)
16924 Nonprogressive glaucomatous cupping and visual field abnormalities in young Chinese males
Doshi A; Kreidl KO; Lombardi L; Sakamoto DK; Singh K
Ophthalmology 2007; 114: 472-479 (IGR: 9-1)
16925 High myopia and glaucoma susceptibility the Beijing Eye Study
Xu L; Wang S; Wang Y; Jonas JB
Ophthalmology 2007; 114: 216-220 (IGR: 9-1)
16922 Predictive factors for open-angle glaucoma among patients with ocular hypertension in the European Glaucoma Prevention Study
European Glaucoma Prevention Study (EGPS) Group; Miglior S; Pfeiffer N; Torri V; Zeyen T; Cunha-Vaz J; Adamsons I
Ophthalmology 2007; 114: 3-9 (IGR: 9-1)
15206 Relationship between central corneal thickness and changes of optic nerve head topography and blood flow after intraocular pressure reduction in open-angle glaucoma and ocular hypertension
Lesk MR; Hafez AS; Descovich D
Archives of Ophthalmology 2006; 124: 1568-1572 (IGR: 8-4)
15072 Optic nerve head parameters of an indigenous population living within Central Australia
Landers JA; Henderson TR; Craig JE
Clinical and Experimental Ophthalmology 2006; 34: 852-856 (IGR: 8-4)
14671 Mathematical modeling of the biomechanics of the lamina cribrosa under elevated intraocular pressures
Newson T; El Sheikh A
Journal of Biomechanical Engineering 2006; 128: 496-504 (IGR: 8-4)
14835 Neurosensory detachment arising from a fractured inner-limiting membrane secondary to chronically elevated intraocular pressure
Pilon A; Newman T; Messner LV
Optometry and Vision Science 2006; 83: 415-420 (IGR: 8-4)
14473 Nitric oxide synthase in retina and optic nerve head of rat with increased intraocular pressure and effect of timolol
Vidal L; Diaz F; Villena A; Moreno M; Campos JG; Vargas IPd
Brain Research Bulletin 2006; 70: 406-413 (IGR: 8-4)
14534 Auto-adjusted 3-D optic disk viewing from low-resolution stereo fundus image
Xu J; Chutatape O
Computers in Biology and Medicine 2006; 36: 921-940 (IGR: 8-4)
14944 Cup-to-disc ratios of Aboriginal and non-Aboriginal youths
Gerry P; Johnson K
Clinical and Experimental Optometry 2006; 89: 306-309 (IGR: 8-4)
14560 Proper patterning of the optic fissure requires the sequential activity of BMP7 and SHH
Morcillo J; Martinez Morales JR; Trousse F; Fermin Y; Sowden JC; Bovolenta P
Development 2006; 133: 3179-3190 (IGR: 8-4)
15077 How to assess the stability of glaucoma? Optic nerve
Renard J-P
Journal Français d'Ophtalmologie 2006; 29: 27-31 (IGR: 8-4)
14745 Scleral edge, not optic disc or retina, is the primary site of injury in chronic glaucoma
Hasnain SS
Medical Hypotheses 2006; 67: 1320-1325 (IGR: 8-4)
15141 Thermal injury induces heat shock protein in the optic nerve head in vivo
Kim JM; Park KH; Kim YJ; Park HJ; Kim DM
Investigative Ophthalmology and Visual Science 2006; 47: 4888-4894 (IGR: 8-4)
15093 Structure and function in glaucoma: The relationship between a functional visual field map and an anatomic retinal map
Strouthidis NG; Vinciotti V; Tucker AJ; Gardiner SK; Crabb DP; Garway-Heath DF
Investigative Ophthalmology and Visual Science 2006; 47: 5356-5362 (IGR: 8-4)
15170 Detection and prognostic significance of optic disc hemorrhages during the Ocular Hypertension Treatment Study
Budenz DL; Anderson DR; Feuer WJ; Beiser JA; Schiffman J; Parrish RK 2nd; Piltz-Seymour JR; Gordon MO; Kass MA; Ocular Hypertension Treatment Study Group
Ophthalmology 2006; 113: 2137-2143 (IGR: 8-4)
15208 The ISNT rule and differentiation of normal from glaucomatous eyes
Harizman N; Oliveira C; Chiang A; Tello C; Marmor M; Ritch R; Liebmann JM
Archives of Ophthalmology 2006; 124: 1579-1583 (IGR: 8-4)
15111 Time-multiplexing stereophotography: 2D and 3D qualitative and semiquantitative evaluation of glaucomatous optic disc atrophy
Lehmann MV; Mardin CY; Lausen B; Reulbach U; Bergua A
Journal Français d'Ophtalmologie 2006; 29: 916-923 (IGR: 8-4)
14934 Abnormal cupping of the optic disc: clinical screening before performing a neuroimaging examination
Collignon NJ
Bulletin de la Société Belge d'Ophtalmologie 2006; 300: 21-23 (IGR: 8-4)
15172 Comparison of the Moorfields classification using confocal scanning laser ophthalmoscopy and subjective optic disc classification in detecting glaucoma in blacks and whites
Girkin CA; Deleon-Ortega JE; Xie A; McGwin G; Arthur SN; Monheit BE
Ophthalmology 2006; 113: 2144-2149 (IGR: 8-4)
15260 Morphometric assessment of normal, suspect and glaucomatous optic discs with Stratus OCT and HRT II
Iliev ME; Meyenberg A; Garweg JG
Eye 2006; 20: 1288-1299 (IGR: 8-4)
15101 Measurement variability in heidelberg retina tomograph imaging of neuroretinal rim area
Owen VM; Strouthidis NG; Garway-Heath DF; Crabb DP
Investigative Ophthalmology and Visual Science 2006; 47: 5322-5330 (IGR: 8-4)
14961 Automatic recovery of the optic nervehead geometry in optical coherence tomography
Boyer KL; Herzog A; Roberts C
IEEE Transactions on Medical Imaging 2006; 25: 553-570 (IGR: 8-4)
14913 Reproducibility of optic nerve head and retinal nerve fiber layer thickness measurements using optical coherence tomography
Pueyo V; Polo V; Larrosa JM; Mayoral F; Ferreras A; Honrubia FM
Archivos de la Sociedad Española de Oftalmologia 2006; 81: 205-211 (IGR: 8-4)
15249 Comparison of optic disk and retinal nerve fiber layer thickness in nonglaucomatous and glaucomatous patients with high myopia
Melo GB; Libera RD; Barbosa AS; Pereira LM; Doi LM; Melo LA Jr
American Journal of Ophthalmology 2006; 142: 858-860 (IGR: 8-4)
13960 Measurements of optic disk size with HRT II, Stratus OCT, and funduscopy are not interchangeable
Barkana Y; Harizman N; Gerber Y; Liebmann JM; Ritch R
American Journal of Ophthalmology 2006; 142: 375-380 (IGR: 8-3)
14175 Segmentation of trabeculated structures using an anisotropic Markov random field: application to the study of the optic nerve head in glaucoma
Grau V; Downs JC; Burgoyne CF
IEEE Transactions on Medical Imaging 2006; 25: 245-255 (IGR: 8-3)
14306 Study of comparison of optic nerve between big cupped disc and early glaucoma
Guo J; Wu L-L; Xiao G-G
Ophthalmology in China 2006; 15: 119-121 (IGR: 8-3)
14118 Iris colour, optic disc dimensions, degree and progression of glaucomatous optic nerve damage
Jonas JB; Budde WM; Stroux A; Oberacher-Velten IM
Clinical and Experimental Ophthalmology 2006; 34: 654-660 (IGR: 8-3)
13971 Optic disk size in chronic glaucoma: the Beijing eye study
Jonas JB; Xu L; Zhang L; Wang Y
American Journal of Ophthalmology 2006; 142: 168-170 (IGR: 8-3)
14010 Optic nerve dynein motor protein distribution changes with intraocular pressure elevation in a rat model of glaucoma
Martin KR; Quigley HA; Valenta D; Kielczewski J; Pease ME
Experimental Eye Research 2006; 83: 255-262 (IGR: 8-3)
13947 Systems for staging the amount of optic nerve damage in glaucoma: a critical review and new material
Spaeth GL; Lopes JF; Junk AK; Grigorian AP; Henderer J
Survey of Ophthalmology 2006; 51: 293-315 (IGR: 8-3)
13781 Keratometry, optic disc dimensions, and degree and progression of glaucomatous optic nerve damage
Jonas JB; Stroux A; Martus P; Budde W
Journal of Glaucoma 2006; 15: 206-212 (IGR: 8-2)
13761 Androgen receptor and NFkB expression in human normal and glaucomatous optic nerve head astrocytes in vitro and in experimental glaucoma
Agapova OA; Kaufman PL; Hernandez MR
Experimental Eye Research 2006; 82: 1053-1059 (IGR: 8-2)
13792 Comparison of disc damage likelihood scale, cup to disc ratio, and Heidelberg retina tomograph in the diagnosis of glaucoma
Danesh-Meyer HV; Gaskin BJ; Jayusundera T; Donaldson M; Gamble GD
British Journal of Ophthalmology 2006; 90: 437-441 (IGR: 8-2)
13793 Regional correlation of structure and function in glaucoma, using the Disc Damage Likelihood Scale, Heidelberg Retina Tomograph, and visual fields
Danesh-Meyer HV; Ku JY; Papchenko TL; Jayasundera T; Hsiang JC; Gamble GD
Ophthalmology 2006; 113: 603-611 (IGR: 8-2)
13797 Comparability of cup and disk diameters measured from nonstereoscopic digital and stereoscopic film images
Ewen A; Lee KE; Klein BE; Klein R
American Journal of Ophthalmology 2006; 141: 1126-1128 (IGR: 8-2)
13612 Long-term changes in the shape of glaucomatous optic disc
Hiroishi G; Koike I; Ikeda Y; Yoshida S; Fujisawa K; Kubota T; Ishibashi T
Japanese Journal of Clinical Ophthalmology 2006; 60: 329-333 (IGR: 8-2)
13799 Healthy optic discs with large cups - a diagnostic challenge in glaucoma
Mardin CY; Horn F; Viestenz A; Lammer R; Junemann A
Klinische Monatsblätter für Augenheilkunde 2006; 223: 308-314 (IGR: 8-2)
13585 Genetic propensity of physiologic large cups
Zhang Y-Y; Sun X-H; Zuo J; Ji X-C; Ye W
Fudan University Journal of Medical Sciences 2006; 33: 60-62 (IGR: 8-2)
13575 Three essential lements of glaucomatous optic nerve damage and discrimination of optic nerve rim loss
Xu L
Chinese Journal of Ophthalmology 2006; 42: 196-198 (IGR: 8-2)
13568 Immunofluorescence-histochemical changes of the astrocytes in cribriform plate due to high intraocular pressure in rats
Xie L; He XG; Ma JZ; Long ZY; Wu YM; Wang YT
Chinese Journal of Clinical Rehabilitation 2005; 9: 37-39 (IGR: 8-2)
13449 Optic disc size in a population based study in northern China: the Beijing Eye Study
Wang Y; Xu L; Zhang L; Yang H; Ma Y; Jonas JB
British Journal of Ophthalmology 2006; 90: 353-356 (IGR: 8-1)
13297 Visual impairment and disc cupping among newly diagnosed patients with glaucoma
Ling CL; Bin OL; Tet CM; Vengadasalam SR; Leong NG; Tajudin L-SA
Asian Journal of Ophthalmology 2005; 7: 140-145 (IGR: 8-1)
13383 Quantitative correlation of optic nerve pathology with ocular pressure and corneal thickness in the DBA/2 mouse model of glaucoma
Inman DM; Sappington RM; Horner PJ; Calkins DJ
Investigative Ophthalmology and Visual Science 2006; 47: 986-996 (IGR: 8-1)
13265 Five rules to evaluate the optic disc and retinal nerve fiber layer for glaucoma
Fingeret M; Medeiros FA; Susanna R Jr; Weinreb RN
Optometry 2005; 76: 661-668 (IGR: 8-1)
13522 Semiquantitative optic nerve grading scheme for determining axonal loss in experimental optic neuropathy
Chauhan BC; Levatte TL; Garnier KL; Tremblay F; Pang IH; Clark AF; Archibald ML
Investigative Ophthalmology and Visual Science 2006; 47: 634-640 (IGR: 8-1)
13369 Pathological optic-disc cupping
Piette SD; Sergott RC
Current Opinions in Ophthalmology 2006; 17: 1-6 (IGR: 8-1)
12675 Diffusion tensor imaging of the human optic nerve using a non-CPMG fast spin echo sequence
Chabert S; Molko N; Cointepas Y; Le Roux P; Le Bihan D
Journal of Magnetic Resonance Imaging 2005; 22: 307-310 (IGR: 7-3)
13050 Assessment of optic disc cupping with digital fundus photographs
Constantinou M; Ferraro JG; Lamoureux EL; Taylor HR
American Journal of Ophthalmology 2005; 140: 529-31 (IGR: 7-3)
12673 The re-engineering of a software system for glaucoma analysis
Fraser RG; Armarego J; Yogesan K
Computer Methods and Programs in Biomedicine 2005; 79: 97-109 (IGR: 7-3)
13012 Pathophysiologic changes in the optic nerves of eyes with primary open angle and pseudoexfoliation glaucoma
Gottanka J; Kuhlmann A; Scholz M; Johnson DH; Lutjen-Drecoll E
Investigative Ophthalmology and Visual Science 2005; 46: 4170-4181 (IGR: 7-3)
12676 Clinical variables associated with glaucomatous injury in eyes with large optic disc cupping
Greenfield DS; Bagga H
Ophthalmic Surgery Lasers and Imaging 2005; 36: 401-409 (IGR: 7-3)
13199 Asymmetry in optic disc morphometry as measured by heidelberg retina tomography in a normal elderly population: the Bridlington Eye Assessment Project
Hawker MJ; Vernon SA; Ainsworth G; Hillman JG; Macnab HK; Dua HS
Investigative Ophthalmology and Visual Science 2005; 46: 4153-4158 (IGR: 7-3)
12553 Influence of cyclical mechanical strain on extracellular matrix gene expression in human lamina cribrosa cells in vitro
Kirwan RP; Fenerty CH; Crean J; Wordinger RJ; Clark AF; O'brien CJ
Molecular Vision 2005; 11: 798-810 (IGR: 7-3)
12569 Transforming growth factor-β-regulated gene transcription and protein expression in human GFAP-negative lamina cribrosa cells
Kirwan RP; Leonard MO; Murphy M; Clark AF; O’Brien CJ
GLIA 2005; 52: 309-324 (IGR: 7-3)
13153 Age effect on retina and optic disc normal values
Neubauer AS; Chryssafis C; Thiel M; Tsinopoulos I; Hirneiss C; Kampik A
Ophthalmic Research 2005; 37: 243-249 (IGR: 7-3)
13036 The influence of pharmacological mydriasis on biomicroscopic evaluation of the glaucomatous optic nerve head
O'Brien PD; Bogdan AJ; Fitzpatrick P; Beatty S
Eye 2005; 19: 1194-1199 (IGR: 7-3)
13056 Test-retest reproducibility of optic disk deterioration detected from stereophotographs by masked graders
Parrish RK 2nd; Schiffman JC; Feuer WJ; Anderson DR; Budenz DL; Wells-Albornoz MC; Vandenbroucke R; Kass MA; Gordon MO; Ocular Hypertension Treatment Study Group
American Journal of Ophthalmology 2005; 140: 762-764 (IGR: 7-3)
13181 Effect of carbogen breathing and acetazolamide on optic disc PO2.
Petropoulos IK; Pournaras JA; Munoz JL; Pournaras CJ
Investigative Ophthalmology and Visual Science 2005; 46: 4139-4146 (IGR: 7-3)
13014 Factors influencing optic nerve head biomechanics
Sigal IA; Flanagan JG; Ethier CR
Investigative Ophthalmology and Visual Science 2005; 46: 4189-4199 (IGR: 7-3)
13089 Improving the repeatability of Heidelberg retina tomograph and Heidelberg retina tomograph II rim area measurements
Strouthidis NG; White ET; Owen VM; Ho TA; Garway-Heath DF
British Journal of Ophthalmology 2005; 89: 1433-1437 (IGR: 7-3)
13088 Factors affecting the test-retest variability of Heidelberg retina tomograph and Heidelberg retina tomograph II measurements
Strouthidis NG; White ET; Owen VM; Ho TA; Hammond CJ; Garway-Heath DF
British Journal of Ophthalmology 2005; 89: 1427-1432 (IGR: 7-3)
13077 Enhanced corneal compensation for scanning laser polarimetry on eyes with atypical polarisation pattern
Toth M; Hollo G
British Journal of Ophthalmology 2005; 89: 1139-1142 (IGR: 7-3)
13122 Intraobserver and interobserver reliability indices for drawing scanning laser ophthalmoscope optic disc contour lines with and without the aid of optic disc photographs
Watkins RJ; Broadway DC
Journal of Glaucoma 2005; 14: 351-357 (IGR: 7-3)
13095 Baseline topographic optic disc measurements are associated with the development of primary open-angle glaucoma: the Confocal Scanning Laser Ophthalmoscopy Ancillary Study to the Ocular Hypertension Treatment Study
Zangwill LM; Weinreb RN; Beiser JA; Berry CC; Cioffi GA; Coleman AL; Trick G; Liebmann JM; Brandt JD; Piltz-Seymour JR
Archives of Ophthalmology 2005; 123: 1188-1197 (IGR: 7-3)
12700 Factors of optic nerve regeneration
Jiang WM; Tang LS
International Journal of Ophthalmology 2005; 5: 543-546 (IGR: 7-3)
12674 Optic disc characteristics assessed by evaluation of clinical optic disc photographs in glaucoma patients
Ohguro I; Ohguro H; Ohkuro H; Nakazawa M
Hirosaki Medical Journal 2005; 57: 27-34 (IGR: 7-3)
12678 Influrence of age, gender, refraction, keratometry and disc area on the topographic parameters of the optic nerve head
Skorkovska K; Skorkovska S; Michalek J; Koci J
?eska a Slovenska Oftalmologie 2005; 61: 245-252 (IGR: 7-3)
13155 Linkage to 10q22 for maximum intraocular pressure and 1p32 for maximum cup-to-disc ratio in an extended primary open-angle glaucoma pedigree
Charlesworth JC; Dyer TD; Stankovich JM; Blangero J; Mackey DA; Craig JE; Green CM; Foote SJ; Baird PN; Sale MM
Investigative Ophthalmology and Visual Science 2005; 46: 3723-3729 (IGR: 7-3)
12548 Long-term activation of c-Fos and c-Jun in optic nerve head astrocytes in experimental ocular hypertension in monkeys and after exposure to elevated pressure in vitro
Hashimoto K; Parker A; Malone P; Gabelt BT; Rasmussen C; Kaufman PS; Hernandez MR
Brain Research 2005; 1054: 103-115 (IGR: 7-3)
12457 Determinants and heritability of intraocular pressure and cup-to-disc ratio in a defined older population
Chang TC; Congdon NG; Wojciechowski R; Munoz B; Gilbert D; Chen P; Friedman DS; West SK
Ophthalmology 2005; 112: 1186-1191 (IGR: 7-2)
12372 Microvessels of the human optic nerve head: ultrastructural and radioreceptorial changes in eyes with increased IOP
Feher J; Pescosolido N; Leali FM; Cavallotti C
Canadian Journal of Ophthalmology 2005; 40: 492-498 (IGR: 7-2)
12460 Discrimination of glaucomatous optic neuropathy by digital stereoscopic analysis
Morgan JE; Sheen NJ; North RV; Goyal R; Morgan S; Ansari E; Wild JM
Ophthalmology 2005; 112: 855-862 (IGR: 7-2)
12278 Relationship of disk area and RNFL thickness in patients with large cup
Shao Y; Yan Y
Chinese Ophthalmic Research 2005; 23: 311-313 (IGR: 7-2)
12377 Use of progressive glaucomatous optic disk change as the reference standard for evaluation of diagnostic tests in glaucoma
Medeiros FA; Zangwill LM; Bowd C; Sample PA; Weinreb RN
American Journal of Ophthalmology 2005; 139: 1010-1018 (IGR: 7-2)
11739 Viscoelastic material properties of the peripapillary sclera in normal and early-glaucoma monkey eyes
Downs JC; Suh JK; Thomas KA; Bellezza AJ; Hart RT; Burgoyne CF
Investigative Ophthalmology and Visual Science 2005; 46: 540-546 (IGR: 7-1)
11757 Transforming growth factor-beta 2 modulated extracellular matrix component expression in cultured human optic nerve head astrocytes
Fuchshofer R; Birke M; Welge-Lussen U; Kook D; Lutjen-Drecoll E
Investigative Ophthalmology and Visual Science 2005; 46: 568-578 (IGR: 7-1)
11796 Relationship between corneal thickness and optic disc damage in glaucoma
Hewitt AW; Cooper RL
Clinical and Experimental Ophthalmology 2005; 33: 158-163 (IGR: 7-1)
11819 Central corneal thickness and thickness of the lamina cribrosa in human eyes
Jonas JB; Holbach L
Investigative Ophthalmology and Visual Science 2005; 46: 1275-1279 (IGR: 7-1)
11711 The optic nerve head as a biomechanical structure: a new paradigm for understanding the role of IOP-related stress and strain in the pathophysiology of glaucomatous optic nerve head damage
Burgoyne CF; Downs JC; Bellezza AJ; Suh JK; Hart RT
Progress in Retinal and Eye Research 2005; 24: 39-73 (IGR: 7-1)
11767 Differences in optic disc topography between black and white normal subjects
Girkin CA; McGwin G Jr; Xie A; Deleon-Ortega J
Ophthalmology 2005; 112: 33-39 (IGR: 7-1)
11822 Optic disk size correlated with refractive error
Jonas JB
American Journal of Ophthalmology 2005; 139: 346-348 (IGR: 7-1)
11978 Glaucoma without cupping
Sherman J; Bass SJ; Slotnick S
Optometry 2004; 75: 677-708 (IGR: 7-1)
11995 Optic nerve oxygenation
Stefansson E; Pedersen DB; Jensen PK; la Cour M; Kiilgaard JF; Bang K; Eysteinsson T
Progress in Retinal and Eye Research 2005; 24: 307-332 (IGR: 7-1)
12003 Optic disk ovality as an index of tilt and its relationship to myopia and perimetry
Tay E; Seah SK; Chan SP; Lim AT; Chew SJ; Foster PJ; Aung T
American Journal of Ophthalmology 2005; 139: 247-252 (IGR: 7-1)
11278 Three-dimensional reconstruction of normal and early glaucoma monkey optic nerve head connective tissues
Burgoyne CF; Downs JC; Bellezza AJ; Hart RT
Investigative Ophthalmology and Visual Science 2004; 45: 4388-4399 (IGR: 6-3)
11245 Visibility of lamina cribrosa pores and open-angle glaucoma
Healey PR; Mitchell P
American Journal of Ophthalmology 2004; 138: 871-872 (IGR: 6-3)
11276 Regional optic nerve damage in experimental mouse glaucoma
Mabuchi F; Aihara M; Mackey MR; Lindsey JD; Weinreb RN
Investigative Ophthalmology and Visual Science 2004; 45: 4352-4358 (IGR: 6-3)
11246 Ethnic variability of the vasculature of the optic disc in normal and glaucomatous eyes
Nagasubramanian S; Weale RA
European Journal of Ophthalmology 2004; 14: 501-507 (IGR: 6-3)
11525 Comparison of the optic nerve rim tissue between healthy Caucasian and Hispanic populations using the HRT II
Sendrowski DP; Kostura II MR; Kostura SK
Clinical and Refractive Optometry 2004; 15: 142-148 (IGR: 6-3)
11244 Digital stereoscopic analysis of the optic disc: evaluation of a teaching program
Sheen NJ; Morgan JE; Poulsen JL; North RV
Ophthalmology 2004; 111: 1873-1879 (IGR: 6-3)
11275 Finite element modeling of optic nerve head biomechanics
Sigal IA; Flanagan JG; Tertinegg I; Ethier CR
Investigative Ophthalmology and Visual Science 2004; 45: 4378-4387 (IGR: 6-3)
11500 Role of eIF5A in TNF-α-mediated apoptosis of lamina cribrosa cells
Taylor CA; Senchyna M; Flanagan J; Joyce EM; Cliche DO; Boone AN; Culp-Stewart S; Thompson JE
Investigative Ophthalmology and Visual Science 2004; 45: 3568-3576 (IGR: 6-3)
11273 Hypoxia-inducible factor 1alpha in the glaucomatous retina and optic nerve head
Tezel G; Wax MB
Archives of Ophthalmology 2004; 122: 1348-1356 (IGR: 6-3)
10573 Functional and structural analysis of the visual system in the rhesus monkey model of optic nerve head ischemia
Brooks DE; Kallberg ME; Cannon RL; Komaromy AM; Ollivier FJ; Malakhova OE; Dawson WW; Sherwood MB; Kuekuerichkina EE; Lambrou GN
Investigative Ophthalmology and Visual Science 2004; 45: 1830-40 (IGR: 6-2)
10600 The effect of optic disc diameter on vertical cup to disc ratio percentiles in a population based cohort: the Blue Mountains Eye Study
Crowston JG; Hopley CR; Healey PR; Lee A; Mitchell P; Blue Mountains Eye Study Group
British Journal of Ophthalmology 2004; 88: 766-70 (IGR: 6-2)
10648 Digital analysis of the optic disc with fundus camera: a study of variability
Gili Manzanaro P; Carrasco Font C; Martin Rodrigo JC; Yanguela Rodilla J; Arias Puente A
Archivos de la Sociedad Española de Oftalmologia 2004; 79: 125-30 (IGR: 6-2)
10686 Lamina Cribrosa Thickness and Spatial Relationships between Intraocular Space and Cerebrospinal Fluid Space in Highly Myopic Eyes
Jonas JB; Berenshtein E; Holbach L
Investigative Ophthalmology and Visual Science 2004; 45: 2660-5 (IGR: 6-2)
10687 Predictive factors of the optic nerve head for development or progression of glaucomatous visual field loss
Jonas JB; Martus P; Horn FK; Junemann A; Korth M; Budde WM
Investigative Ophthalmology and Visual Science 2004; 45: 2613-8 (IGR: 6-2)
10706 Effect of cyclical mechanical stretch and exogenous transforming growth factor-β1 on matrix metalloproteinase-2 activity in lamina cribrosa cells from the human optic nerve head
Kirwan RP; Crean JK; Fenerty CH; Clark AF; O'brien CJ
Journal of Glaucoma 2004; 13: 327-34 (IGR: 6-2)
10736 Optic nerve head segmentation
Lowell J; Hunter A; Steel D; Basu A; Ryder R; Fletcher E; Kennedy L
IEEE Transactions on Medical Imaging 2004; 23: 256-64 (IGR: 6-2)
10787 Digital planimetry for long-term follow-up of glaucomatous optic disk injuries in patients with normal pressure glaucoma
Nguyen NX; Meindl C; Horn FK; Dzialach M; Langenbucher A; Junemann A; Mardin CY
Ophthalmologe 2004; 101: 589-94 (IGR: 6-2)
10723 Optic disk appearance in advanced age-related macular degeneration
Law SK; Sohn YH; Hoffman D; Small K; Coleman AL; Caprioli J
American Journal of Ophthalmology 2004; 138: 38-45 (IGR: 6-2)
10249 Ganglion cell axon pathfinding in the retina and optic nerve
Oster SF; Deiner M; Birgbauer E; Sretavan DW
Seminars in Cell and Developmental Biology 2004; 15: 125-136 (IGR: 6-1)
10307 Effect of scan repetition on the reproducibility of optic nerve head topographic measurements with the Top SS
Akar Y; Bozkurt B; Grkec M; Orhan M; Karaagaoglu E
Clinical and Experimental Ophthalmology 2004; 32: 142-146 (IGR: 6-1)
10254 Major determinants of optic nerve head topographic characteristics in a normal Turkish population
Akar Y; Orhan M; Irkec M; Karaagaoglu E
Clinical and Experimental Ophthalmology 2004; 32: 9-13 (IGR: 6-1)
10308 The distribution of cup disc ratios in a general population of Southern Togo aged 40 years and over
Balo KP; Anika A; Banla M; Agla K; Djagnikpo PA; Koffi Gue KB
Journal Français d'Ophtalmologie 2004; 27: 250-255 (IGR: 6-1)
10253 The distributions of mitochondria and sodium channels reflect the specific energy requirements and conduction properties of the human optic nerve head
Barron MJ; Griffiths P; Turnbull DM; Bates D; Nichols P
British Journal of Ophthalmology 2004; 88: 286-290 (IGR: 6-1)
10256 The optic disc hemifield test
Jonas JB; Budde WM; Martus P
Journal of Glaucoma 2004; 13: 108-113 (IGR: 6-1)
10484 Correlations between retinal thickness analyzer (RTA) and confocal scanning laser tomography (HRT) in optic disc analysis
Martinez De La Casa JM; Garcia Feijoo J; Castillo Gomez A; Garcia Sanchez J
Archivos de la Sociedad Española de Oftalmologia 2004; 79: 21-25 (IGR: 6-1)
10262 Identifying early glaucoma with optical coherence tomography
Nouri-Mahdavi K; Hoffman D; Tannenbaum DP; Law SK; Caprioli J
American Journal of Ophthalmology 2004; 137: 228-235 (IGR: 6-1)
10454 Responses and signaling pathways in human optic nerve head astrocytes exposed to hydrostatic pressure in vitro
Salvador-Silva M; Aoi S; Parker A; Yang P; Pecen P; Hernandez MR
GLIA 2004; 45: 364-377 (IGR: 6-1)
10255 Magnification changes in scanning laser tomography
Tan JC; Poinoosawmy D; Fitzke FW; Hitchings RA
Journal of Glaucoma 2004; 13: 137-141 (IGR: 6-1)
10263 Alterations in the morphology of lamina cribrosa pores in glaucomatous eyes
Tezel G; Trinkaus K; Wax MB
British Journal of Ophthalmology 2004; 88: 251-256 (IGR: 6-1)
10455 DNA microarray analysis of gene expression in human optic nerve head astrocytes in response to hydrostatic pressure
Yang P; Agapova O; Parker A; Shannon W; Pecen P; Duncan J; Salvador-Silva M; Hernandez MR
Physiol Genomics 2004; 17:157-69 (IGR: 6-1)
10257 Racial differences in optic disc topography: baseline results from the confocal scanning laser ophthalmoscopy ancillary study to the ocular hypertension treatment study
Zangwill LM; Weinreb RN; Berry CC; Smith AR; Dirkes KA; Coleman AL; Piltz-Seymour JR; Liebmann JM; Cioffi GA; Trick G
Archives of Ophthalmology 2004; 122: 22-28 (IGR: 6-1)
10261 The confocal scanning laser ophthalmoscopy ancillary study to the ocular hypertension treatment study: study design and baseline factors
Zangwill LM; Weinreb RN; Berry CC; Smith AR; Dirkes KA; Liebmann JM; Brandt JD; Trick G; Cioffi GA; Coleman AL
American Journal of Ophthalmology 2004; 137: 219-227 (IGR: 6-1)
10259 Influence of ciliary-retinal arteries on functional damage in open-angle glaucoma
Budde WM; Jonas JB
Ophthalmologe 2003; 100: 1067-1070 (IGR: 6-1)
10258 Serial topographic changes at the optic disc in normal-tension glaucoma viewed with scanning laser tomography
Kato A; Sugiyama K; Kono Y; Uchida H; Tomita G; Yamamoto T
Nippon Ganka Gakkai Zasshi 2003; 107): 597-601 (IGR: 6-1)
10478 Tracking the optic nervehead in OCT video using dual eigenspaces and an adaptive vascular distribution model
Koozekanani D; Boyer KL; Roberts C
IEEE Transactions on Medical Imaging 2003; 22: 1519-1536 (IGR: 6-1)
9698 Altered expression of 3α-hydroxysteroid dehydrogenases in human glaucomatous optic nerve head astrocytes
Agapova OA; Yang P; Wang WH; Lane DA; Clark AF; Weinstein BI; Hernandez MR
Neurobiology of Disease 2003; 14: 63-73 (IGR: 5-3)
9699 Clinical agreement among glaucoma experts in the detection of glaucomatous changes of the optic disc using simultaneous stereoscopic photographs
Azuara-Blanco A; Katz LJ; Spaeth GL; Vernon SA; Spencer F; Lanzl IM
American Journal of Ophthalmology 2003; 136: 949-950 (IGR: 5-3)
9691 Anterior scleral canal geometry in pressurised (IOP 10) and non-pressurised (IOP 0) normal monkey eyes
Bellezza AJ; Rintalan CJ; Thompson HW; Downs JC; Hart RT; Burgoyne CF
British Journal of Ophthalmology 2003; 87: 1284-1290 (IGR: 5-3)
9702 A comparison of visual field and optic disc appearance depending on the peak intraocular pressure in patients with normal-tension glaucoma
Ishikawa K; Tanino T; Ohtake Y; Kimura I; Miyata H; Mashima Y
Nippon Ganka Gakkai Zasshi 2003; 107: 433-439 (IGR: 5-3)
9692 Rate of optic disc cup progression in treated primary open-angle glaucoma
Kwon YH; Kim YI; Pereira ML; Montague PR; Zimmerman MB; Alward WL
Journal of Glaucoma 2003; 12: 409-416 (IGR: 5-3)
10031 Study of agreement of optic nerve parameters
Liang Y; Liu X; Ling Y; Huang J
Chinese Journal of Ophthalmology 2003; 39: 471-475 (IGR: 5-3)
9694 Glaucomatous optic neuropathy: when glia misbehave
Neufeld AH; Liu B
Neuroscientist 2003; 9: 485-495 (IGR: 5-3)
9693 Visual field and optic disc progression in patients with different types of optic disc damage
Nicolela MT; McCormick TA; Drance SM; Ferrier SN; Leblanc RP; Chauhan BC
Ophthalmology 2003; 110: 2178-2184 (IGR: 5-3)
9700 The disc damage likelihood scale: reproducibility of a new method of estimating the amount of optic nerve damage caused by glaucoma
Spaeth GL; Henderer J; Liu C; Kesen M; Altangerel U; Bayer A; Katz LJ; Myers J; Rhee D; Steinmann W
Transactions of the American Ophthalmological Society 2002; 100: 181-186 (IGR: 5-3)
9697 Characteristics of optic disc changes in Taiwanese patients with primary angle-closure glaucoma
Yang CH; Hung PT; Lin LLK; Hsieh JW; Wang TH; Wang IJ
Journal of the Formosan Medical Association 2003; 102: 183-188 (IGR: 5-3)
9696 Purification of astrocytes from adult human optic nerve heads by immunopanning
Yang P; Hernandez MR
Brain Research Protocols 2003; 12: 67-76 (IGR: 5-3)
8919 Glaucoma-screening with the Heidelberg Retina Tomograph II
Kóthy P; Vargha P; Holló G
Klinische Monatsblätter für Augenheilkunde 2003; 540-544 (IGR: 5-2)
9098 Optical coherence tomography assessment of retinal nerve fiber layer thickness changes after glaucoma surgery
Aydin A; Wollstein G; Price LL; Fujimoto JG; Schuman JS
Ophthalmology 2003; 110: 1506-1511 (IGR: 5-2)
9100 Digital stereo image analyzer for generating automated 3-D measures of optic disc deformation in glaucoma
Corona E; Mitra S; Wilson M; Krile T; Kwon YH; Soliz P
IEEE Transactions on Medical Imaging 2002; 21: 1244-1253 (IGR: 5-2)
9097 Comparison of optic nerve head assessment with a digital stereoscopic camera (discam), scanning laser ophthalmoscopy, and stereophotography
Correnti AJ; Wollstein G; Price LL; Schuman JS
Ophthalmology 2003; 110: 1499-1505 (IGR: 5-2)
9094 Comparison of data analysis tools for detection of glaucoma with the Heidelberg Retina Tomograph
Ford BA; Artes PH; McCormick TA; Nicolela MT; Leblanc RP; Chauhan BC
Ophthalmology 2003; 110: 1145-1150 (IGR: 5-2)
9095 Racial differences in the association between optic disc topography and early glaucoma
Girkin CA; McGwin Jr G; McNeal SF; Deleon-Ortega J
Investigative Ophthalmology and Visual Science 2003; 44: 3382-3387 (IGR: 5-2)
9105 A comparison of optic disc topographic parameters in patients with primary open angle glaucoma, normal tension glaucoma, and ocular hypertension
Kiriyama N; Ando A; Fukui C; Nambu H; Nishikawa M; Terauchi H; Kuwahara A; Matsumura M
Graefe's Archive for Clinical and Experimental Ophthalmology 2003; 241: 541-545 (IGR: 5-2)
9102 Picture archiving and fundus imaging in a glaucoma clinic
Lamminen H
Journal of Telemedicine and Telecare 2003; 9: 114-116 (IGR: 5-2)
8892 Activation of epidermal growth factor receptor signals induction of nitric oxide synthase-2 in human optic nerve head astrocytes in glaucomatous optic neuropathy
Liu B; Neufeld AH
Neurobiology of Disease 2003; 13: 109-123 (IGR: 5-2)
9096 New glaucoma classification method based on standard Heidelberg Retina Tomograph parameters by bagging classification trees
Mardin CY; Hothorn T; Peters A; Jünemann AG; Nguyen NX; Lausen B
Journal of Glaucoma 2003; 12: 340-346 (IGR: 5-2)
8867 The optic nerve head region of the aged rat: an immunohistochemical investigation
May CA
Current Eye Research 2003; 26: 347-354 (IGR: 5-2)
9090 Detection of glaucomatous visual field changes using the Moorfields regression analysis of the Heidelberg retina tomograph
Miglior S; Guareschi M; Albe E; Gomarasca S; Vavassori M; Orzalesi N
American Journal of Ophthalmology 2003; 136: 26-33 (IGR: 5-2)
9106 The evaluation of retinal nerve fiber layer in pigment dispersion syndrome and pigmentary glaucoma using scanning laser polarimetry
Mocan MC; Bozkurt B; Irkeç M; Orhan M; Karabulut E
European Journal of Ophthalmology 2003; 13: 377-382 (IGR: 5-2)
9091 A new fundus camera technique to help calculate eye-camera magnification: a rapid means to measure disc size
Quigley MG; Dube P
Archives of Ophthalmology 2003; 121: 707-709 (IGR: 5-2)
9092 Variability across the optic nerve head in scanning laser tomography
Tan JC; Garway-Heath DF; Hitchings RA
British Journal of Ophthalmology 2003; 87: 557-559 (IGR: 5-2)
9093 Approach for identifying glaucomatous optic nerve progression by scanning laser tomography
Tan JC; Hitchings RA
Investigative Ophthalmology and Visual Science 2003; 44: 2621-2626 (IGR: 5-2)
9099 Vertical cup to disc ratio: Agreement between direct ophthalmoscopic estimation, fundus biomicroscopic estimation, and scanning laser ophthalmoscopic measurement
Watkins R; Panchal L; Uddin J; Gunvant P
Optometry and Vision Science 2003; 80: 454-459 (IGR: 5-2)
8891 Cells of the human optic nerve head express glial cell line-derived neurotrophic factor (GDNF) and the GDNF receptor complex
Wordinger RJ; Lambert W; Agarwal R; Liu X; Clark AF
Molecular Vision 2003; 9: 249-256 (IGR: 5-2)
8389 Influence of cilioretinal arteries on neuroretinal rim and parapapillary atrophy in glaucoma
Budde WM; Jonas JB
Investigative Ophthalmology and Visual Science 2003; 44: 170-174 (IGR: 5-1)
8591 Scanning laser polarimetry of edematous and atrophic optic nerve heads
Banks MC; Robe-Collignon NJ; Rizzo JF 3rd; Pasquale LR
Archives of Ophthalmology 2003; 121: 484-490 (IGR: 5-1)
8811 Correlation between confocal scanning laser ophthalmoscopy and scanning laser polarimetry in open angle glaucoma
Sihota A; Gulati V; Saxena R; Agarwal HC; Sharma AK
European Journal of Ophthalmology 2003; 13: 266-275 (IGR: 5-1)
8571 Differential expression of matrix metalloproteinases in monkey eyes with experimental glaucoma or optic nerve transection
Agapova OA; Kaufman PL; Lucarelli MJ; Gabelt B'AT; Hernandez MR
Brain Research 2003; 967: 132-143 (IGR: 5-1)
8578 Reproducibility of the measurements of the optic nerve head topographic variables with a confocal scanning laser ophthalmoscope
Akar Y; Orhan M; Murat I
Japanese Journal of Ophthalmology 2003; 47: 173-177 (IGR: 5-1)
8404 Deformation of the lamina cribrosa and anterior scleral canal wall in early experimental glaucoma
Bellezza AJ; Rintalan CJ; Thompson HW; Downs JC; Hart RT; Burgoyne CF
Investigative Ophthalmology and Visual Science 2003; 44: 623-637 (IGR: 5-1)
8602 Determination of optic cup depth by confocal scanning laser tomography
Budde WM; Jonas JB; Hayler JK; Mardin CY
European Journal of Ophthalmology 2003; 13: 42-48 (IGR: 5-1)
8400 Reliability of the disc damage likelihood scale
Henderer JD; Liu C; Kesen M; Altangerel U; Bayer A; Steinmann WC; Spaeth GL
American Journal of Ophthalmology 2003; 135: 44-48 (IGR: 5-1)
8672 Bagging tree classifiers for laser scanning images: a data- and simulation-based strategy
Hothorn T; Lausen B
Artificial Intelligence in Medicine 2003; 27: 65-79 (IGR: 5-1)
8679 Comparison of optic disc topography measured by Retinal Thickness Analyzer with measurement by Heidelberg Retina Tomograph II
Itai N; Tanito M; Chihara E
Japanese Journal of Ophthalmology 2003; 47: 214-220 (IGR: 5-1)
8408 Structure and function evaluation (SAFE): II. Comparison of optic disc and visual field characteristics
Johnson CA; Sample PA; Zangwill LM; Vasile CG; Cioffi GA; Liebmann JR; Weinreb RN
American Journal of Ophthalmology 2003; 135: 148-154 (IGR: 5-1)
8401 Optic disc morphology in south India: the Vellore Eye Study
Jonas JB; Thomas R; George R; Berenshtein E; Muliyil J
British Journal of Ophthalmology 2003; 87: 189-196 (IGR: 5-1)
8405 Increase in dephosphorylation of the heavy neurofilament subunit in the monkey chronic glaucoma model
Kashiwagi K; Ou B; Nakamura S; Tanaka Y; Suzuki M; Tsukahara S
Investigative Ophthalmology and Visual Science 2003; 44: 154-159 (IGR: 5-1)
8772 Evaluation of nitric oxide synthesis in the optic nerve head in vivo using microdialysis and high-performance liquid chromatography and its interaction with endothelin-1
Okuno T; Oku H; Sugiyama T; Goto W; Ikeda T
Ophthalmic Research 2003; 35: 78-83 (IGR: 5-1)
8784 The construction of a model eye for investigation of laser-tissue interactions in scanning laser ophthalmoscopy
Rakebrandt F; North RV; Erichsen JT; Drasdo N; Fowler C; Cowey A; Morgan JE
Optometry and Vision Science 2003; 80: 252-258 (IGR: 5-1)
8804 Comparison of optic nerve head measurements obtained by optical coherence tomography and confocal scanning laser ophthalmoscopy
Schuman JS; Wollstein G; Farra T; Hertzmark E; Aydin A; Fujimoto JG; Paunescu LA
American Journal of Ophthalmology 2003; 135: 504-512 (IGR: 5-1)
8402 Reasons for rim area variability in scanning laser tomography
Tan JC; Garway-Heath DF; Fitzke FW; Hitchings RA
Investigative Ophthalmology and Visual Science 2003; 44: 1126-1131 (IGR: 5-1)
8403 Reference plane definition and reproducibility in optic nerve head images
Tan JC; Hitchings RA
Investigative Ophthalmology and Visual Science 2003; 44: 1132-1137 (IGR: 5-1)
8407 Increased disc size in glaucomatous eyes vs normal eyes in the Reykjavik eye study
Wang L; Damji KF; Munger R; Jonasson F; Arnarsson A; Sasaki H; Sasaki K
American Journal of Ophthalmology 2003; 135: 226-228 (IGR: 5-1)
8855 In Vivo imaging of human retinal flow dynamics by color Doppler optical coherence tomography
Yazdanfar S; Rollins AM; Izatt JA
Archives of Ophthalmology 2003; 121: 235-239 (IGR: 5-1)
8406 Reproducibility of evaluation of optic disc change for glaucoma with stereo optic disc photographs
Zeyen T; Miglior S; Pfeiffer N; Cunha-Vaz J; Adamsons I; European Glaucoma Prevention Study Group
Ophthalmology 2003; 110: 340-344 (IGR: 5-1)
8572 The normal optic nerve head on Heidelberg Retina Tomograph II
Agarwal HC; Gulati V; Sihota R
Indian Journal of Ophthalmology 2003; 51: 25-33 (IGR: 5-1)
8410 A comparison of cup-to-disc ratio evaluation in normal subjects using stereo biomicroscopy and digital imaging of the optic nerve head
Hrynchak P; Hutchings N; Jones D; Simpson T
Ophthalmic and Physiological Optics 2003; 23: 51-59 (IGR: 5-1)
8256 Morphometric change analysis of the optic nerve head in unilateral disc hemorrhage cases
Ahn JK; Park KH
American Journal of Ophthalmology 2002; 234: 920 (IGR: 4-3)
8175 Comparing neural networks and linear discriminant functions for glaucoma detection using confocal scanning laser ophthalmoscopy of the optic disc
Bowd C; Chan K; Zangwill LM; Goldbaum MH; Lee TW; Sejnowski TJ; Weinreb RN
Investigative Ophthalmology and Visual Science 2002; 43: 3444-3454 (IGR: 4-3)
8322 Research progress in glia cells of optic nerve
Bu S
Chinese Ophthalmic Research 2002; 20: 466-468 (IGR: 4-3)
8166 Effect of intraocular pressure on optic disc topography, electroretinography, and axonal loss in a chronic pressure-induced rat model of optic nerve damage
Chauhan BC; Pan J; Archibald ML; Levatte TL; Kelly MEM; Tremblay F
Investigative Ophthalmology and Visual Science 2002; 43: 2969-2976 (IGR: 4-3)
8168 Is the nasal optic disc sector important for morphometric glaucoma diagnosis?
Jonas JB; Budde WM
British Journal of Ophthalmology 2002; 86: 1232-1235 (IGR: 4-3)
8173 Inter-eye differences in chronic open-angle glaucoma patients with unilateral disc hemorrhages
Jonas JB; Martus P; Budde WM
Ophthalmology 2002; 109: 2078-2083 (IGR: 4-3)
8167 Anisometropia and degree of optic nerve damage in chronic open-angle glaucoma
Jonas JB; Martus P; Budde WM
American Journal of Ophthalmology 2002; 134: 547-551 (IGR: 4-3)
8165 Morphologic predictive factors for development of optic disc hemorrhages in glaucoma
Jonas JB; Martus P; Budde WM; Hayler J
Investigative Ophthalmology and Visual Science 2002; 43: 2956-2961 (IGR: 4-3)
8174 Optic nerve disc in unilateral myopia in children
Koraszewska-Matuszewska B; Samochowiec-Donocik E; Pieczara E; Filipek E
Klinika Oczna 2002; 104: 119-121 (IGR: 4-3)
8176 comparative analysis of changes in optic disc morphology after trabeculectomy, measured by scanning laser tomography
Krzyzanowska P; Jamrozy-Witkowska A; Koziorowska M
Klinika Oczna 2002; 104: 122-127 (IGR: 4-3)
8227 Comparison of clinical optic disc assessment with tests of early visual field loss
Landers JA; Goldberg I; Graham SL
Clinical and Experimental Ophthalmology 2002; 30: 338-342 (IGR: 4-3)
8169 Disc-to-macula distance to disc-diameter ratio for optic disc size estimation
Mok KH; Lee VW
Journal of Glaucoma 2002; 11: 392-395 (IGR: 4-3)
8171 Optic disc movement with variations in intraocular and cerebrospinal fluid pressure
Morgan WH; Chauhan BC; Yu DY; Cringle SJ; Alder VA; House PH
Investigative Ophthalmology and Visual Science 2002; 43: 3236-3242 (IGR: 4-3)
8172 Morphometry of the optic disc using a nerve fiver analyzer
Nakamura S; Kumagai K; Saito Y; Ishikawa H; Okita K; Furukawa M; Atsumi K
Japanese Journal of Clinical Ophthalmology 2002; 56: 1261-1265 (IGR: 4-3)
8170 Development of a novel reference plane for the Heidelberg retina tomograph with optical coherence tomography measurements
Park KH; Caprioli J
Journal of Glaucoma 2002; 11: 385-391 (IGR: 4-3)
8264 Reversal of optic disc cupping after trabeculotomy in primary congenital glaucoma
Wu SC; Huang S; Kuo CL; Lin KK; Lin SM
Canadian Journal of Ophthalmology 2002; 37: 337-341 (IGR: 4-3)
3387 Synucleins in glaucoma: implication of gamma-synuclein in glaucomatous alterations in the optic nerve
Surgucheva I; McMahan B; Ahmed F; Tomarev S; Wax MB; Surguchov A
Journal of Neuroscience Research 2002; 68: 97-106 (IGR: 4-2)
3403 Expression of bone morphogenetic proteins (BMP), BMP receptors, and BMP associated proteins in human trabecular meshwork and optic nerve head cells and tissues
Wordinger RJ; Agarwal R; Talati M; Fuller J; Lambert W; Clark AF
Molecular Vision 2002; 8: 241-250 (IGR: 4-2)
3418 Assessment of optic disc anatomy and nerve fiber layer thickness in ocular hypertensive subjects with normal short-wavelength automated perimetry
Mistlberger A; Liebmann JM; Greenfield DS; Hoh ST; Ishikawa H; Marmor M; Ritch R
Ophthalmology 2002; 109: 1362-1366 (IGR: 4-2)
3426 Validity of a new disk grading scale for estimating glaucomatous damage: correlation with visual field damage
Bayer A; Harasymowycz P; Henderer JD; Steinmann WG; Spaeth GL
American Journal of Ophthalmology 2002; 133: 758-763 (IGR: 4-2)
3427 Topographical analysis of corneal astigmatism in patients with tilted-disc syndrome
Bozkurt B; Irkec M; Gedik S; Orhan M; Erdener U
Cornea 2002; 21: 458-462 (IGR: 4-2)
3428 Optic disc cup slope and visual field indices in normal, ocular hypertensive and early glaucomatous eyes
Cullinane AB; Waldock A; Diamond JP; Sparrow JM
British Journal of Ophthalmology 2002; 86: 555-559 (IGR: 4-2)
3429 Anatomical correlations of intrinsic axon repair after partial optic nerve crush in rats
Hanke J
Annals of Anatomy 2002; 184: 113-123 (IGR: 4-2)
3430 Differential gene expression in astrocytes from human normal and glaucomatous optic nerve head analyzed by cDNA microarray
Hernandez MR; Agapova OA; Yang P; Salvador Silva M; Ricard CS; Aoi S
GLIA 2002; 38: 45-64 (IGR: 4-2)
3431 The Heidelberg Retina Tomograph versus clinical impression in the diagnosis of glaucoma
Kesen MR; Spaeth GL; Henderer JD; Pereira MLM; Smith AF; Steinmann WC
American Journal of Ophthalmology 2002; 133: 613-616 (IGR: 4-2)
3432 Image of optic nerve disc with laser scanning tomography and results of static perimetry in children with juvenile glaucoma
Koraszewska Matuszewska B; Filipek E; Samochowiec Donocik E; Pieczara E; Dudzinski A
Klinika Oczna 2002; 104: 37-40 (IGR: 4-2)
3433 Morphometry of the glaucomatous optic disc using an optical coherence tomography
Kumagami T; Saitoh A; Kinoshita A; Otani N; Kubota S; Amemiya T
Japanese Journal of Clinical Ophthalmology 2002; 56: 321-324 (IGR: 4-2)
3434 Intraobserver and interobserver reproducibility in the evaluation of optic disc stereometric parameters by Heidelberg Retina Tomograph
Miglior S; Albe E; Guareschi M; Rossetti L; Orzalesi N
Ophthalmology 2002; 109: 1072-1077 (IGR: 4-2)
3435 Cup-to-disc ratio asymmetry: diagnostic value in glaucoma
Polo Llorens V; Larrosa Poves JM; Pablo Julvez LE; Pinilla Lozano I; Marcuello Melendo B; Fernandez Larripa S; Honrubia Lopez FM
Archivos de la Sociedad Española de Oftalmologia 2002; 77: 17-22 (IGR: 4-2)
3436 The Autocad system for planimetric study of the optic disc in glaucoma: technique and reproducibility study
Sanchez Perez A; Honrubia Lopez FM; Larrosa Poves JM; Polo Llorens V; Melcon Sanchez Frieras B
Archivos de la Sociedad Española de Oftalmologia 2001; 76: 551-558 (IGR: 4-2)
3437 Variables affecting test-retest variability of Heidelberg Retina Tomograph II stereometric parameters
Sihota R; Gulati V; Agarwal HC; Saxena R; Sharma A; Pandey RM
Journal of Glaucoma 2002; 11: 321-328 (IGR: 4-2)
3438 Reproducibility of optic disc parameters acquisition in Heidelberg retina tomograph intraobserver and interobserver agreement in measurement of topometric data
Wang W; Chen X
Chinese Ophthalmic Research 2002; 20: 173-175 (IGR: 4-2)
3700 A morphological study of neuroretinal rim for different types of optic disc in normal eyes and early glaucoma
Xu L; Xia C; Yang H
Chinese Journal of Ophthalmology 2002; 38: 325-328 (IGR: 4-2)
3440 Expression of bFGF in the optic nerve of rat after injuries
Yuan H; Liu S; He X
Chinese Ophthalmic Research 2002; 20: 132-134 (IGR: 4-2)
6638 Comparison of optic nerve imaging methods to distinguish normal eyes from those with glaucoma
Greaney MJ; Hoffman DC; Garway Heath DF; Nakla M; Coleman AL; Caprioli J
Investigative Ophthalmology and Visual Science 2002; 43: 140-145 (IGR: 4-1)
6639 Optic nerve and retinal nerve fiber layer analyzers in glaucoma
Greenfield DS
Current Opinions in Ophthalmology 2002; 13: 68-76 (IGR: 4-1)
6646 Cup-to-disc ratio, intraocular pressure, and primary open-angle glaucoma in retinal venous occlusion
Beaumont PE; Kang HK
Ophthalmology 2002; 109: 282-286 (IGR: 4-1)
6647 Change detection in regional and volumetric disc parameters using longitudinal confocal scanning laser tomography
Burgoyne CF; Mercante DE; Thompson HW
Ophthalmology 2002; 109: 455-466 (IGR: 4-1)
6648 Optic nerve head behavior in Posner-Schlossman syndrome
Darchuk V; Sampaolesi J; Lopez Mato O; Nicoli C; Sampaolesi R
International Ophthalmology 2001; 23: 373-379 (IGR: 4-1)
6649 The Ocular Hypertension Treatment Study: reproducibility of cup/disc ratio measurements over time at an optic disc reading center
Feuer WJ; Parrish RK; Schiffman JC; Anderson DR; Budenz DL; Wells MC; Hess DJ; Kass MA; Gordon MO
American Journal of Ophthalmology 2002; 133: 19-28 (IGR: 4-1)
6650 Observer experience and Cup:Disc ratio assessment
Hanson S; Krishnan SK; Phillips J
Optometry and Vision Science 2001; 78: 701-705 (IGR: 4-1)
6651 Discriminant analysis formulas of optic nerve head parameters measured by confocal scanning laser tomography
Iester M; Mardin CY; Budde WM; Junemann AG; Hayler JK; Jonas JB
Journal of Glaucoma 2002; 11: 97-104 (IGR: 4-1)
6652 Comparing ophthalmoscopy, slide viewing, and semiautomated systems in optic disc morphometry
Ikram MK; Borger PH; Assink JJM; Jonas JB; Hofman A; de Jong PTVM
Ophthalmology 2002; 109: 486-493 (IGR: 4-1)
6653 Large optic nerve heads: megalopapilla or megalodiscs
Sampaolesi R; Sampaolesi JR
International Ophthalmology 2001; 23: 251-257 (IGR: 4-1)
6654 Agreement in assessing optic discs with a digital stereoscopic optic disc camera (Discam) and Heidelberg retina tomograph
Sung VCT; Bhan A; Vernon SA
British Journal of Ophthalmology 2002; 86: 196-202 (IGR: 4-1)
6655 Optic disc topography in pseudopapilledema: a comparison to pseudotumor cerebri
Trick GL; Bhatt SS; Dahl D; Skarf B
Journal of Neuro-Ophthalmology 2001; 21: 240-244 (IGR: 4-1)
18496 Optic disc surface compliance testing using confocal scanning laser tomography in the normal monkey eye
Bellezza AJ; Thompson HW; Burgoyne CF
Journal of Glaucoma 2001; 10: 369-382 (IGR: 3-3)
18495 Measuring structural changes in the optic nerve head and retinal nerve fibre layer
Anton A
European Journal of Ophthalmology 2001; 11: Suppl 2 S50-S56 (IGR: 3-3)
18494 Optic disc and visual field changes in a prospective longitudinal study of patients with glaucoma: comparison of scanning laser tomography with conventional perimetry and optic disc photography
Chauhan BC; McCormick TA; Nicolela MT; Leblanc RP
Annals of ophthalmology (Skokie, Ill.) 2001; 119: 1492-1499 (IGR: 3-3)
18493 Thinning of the papillomacular bundle in the glaucomatous eye and its influence of the reference plane of Heidelberg retinal tomography
Chen E; Gedda U; Landau I
Journal of Glaucoma 2001; 10: 386-389 (IGR: 3-3)
18492 The blood supply of the optic nerve head and the evaluation of it: myth and reality
Hayreh SS
Progress in Retinal and Eye Research 2001; 20: 563-593 (IGR: 3-3)
18491 Fast and robust optic disc detection using pyramidal decomposition and Hausdorff-based template matching
Lalonde M; Beaulieu M; Gagnon L
IEEE Transactions on Medical Imaging 2001; 20: 1193-1200 (IGR: 3-3)
18490 Neuroretinal rim width in normal, hypertensive and glaucomatous subjects
Larrosa JM; Polo V; Pinilla I; Gonzalvo F; Perez S; Honrubia FM
Archivos de la Sociedad Española de Oftalmologia 2001; 76: 673-678 (IGR: 3-3)
18489 Optic disc characteristics before the occurrence of disc hemorrhage in glaucoma patients
Law SK; Choe R; Caprioli J
American Journal of Ophthalmology 2001; 132: 411-413 (IGR: 3-3)
18488 Clinical ability of Heidelberg Retinal Tomograph examination to detect glaucomatous visual changes
Miglior S; Casula M; Guareschi M; Marchetti I; Iester M; Orzalesi N
Ophthalmology 2001; 108: 1621-1627 (IGR: 3-3)
18487 A clinical comparison study of two planimetry methods: conventional versus digital planimetry of optic disc photograph
Nguyen NX; Horn FK; Langenbucher A; Mardin CY
Klinische Monatsblätter für Augenheilkunde 2001; 218: 727-732 (IGR: 3-3)
18486 Agreement among clinicians in the recognition of patterns of optic disc damage in glaucoma
Nicolela MT; Drance SM; Broadway DC; Chauhan BC; McCormick TA; Leblanc RP
American Journal of Ophthalmology 2001; 132: 836-844 (IGR: 3-3)
18485 Nonlinear behavior of certain optic nerve head parameters and their determinants in normal subjects
Rudnicka AR; Frost C; Owen CG; Edgar DF
Ophthalmology 2001; 108: 2358-2368 (IGR: 3-3)
18484 Evaluation of optic disc in open-angle glaucoma with hemifield defect by Heidelberg retinal tomography
Wu L; Kunimatsu S; Suzuki Yet al.
Chinese Journal of Ophthalmology 2001; 37: 414 (IGR: 3-3)
18483 Correlation between blue chromatic macular sensitivity and optic disc change in early glaucoma patients
Yamazaki Y; Tanaka C; Hayamizu F; Mizuki K
Nippon Ganka Gakkai Zasshi 2001; 105: 776-780 (IGR: 3-3)
6305 In vitro evaluation of reactive astrocyte migration, a component of tissue remodeling in glaucomatous optic nerve head
Tezel G; Hernandez MR; Wax MB
GLIA 2001; 34: 178-189 (IGR: 3-2)
6309 Activated microglia in the human glaucomatous optic nerve head
Yuan L; Neufeld AH
Journal of Neuroscience Research 2001; 64: 523-532 (IGR: 3-2)
6341 Early detection of moderate glaucoma: redefining clinical care in 2001
Lee PP
Archives of Ophthalmology 2001; 119: 1069-1070 (IGR: 3-2)
6346 Discriminating between normal and glaucomatous eyes using the Heldelberg Retina Tomography, GDx Nerve Fiber Analyzer, and Optical Coherence Tomograph
Zangwill LM; Bowd C; Berry CC; Williams J; Blumenthal EZ; Sanchez-Galeana CA; Vasile C; Weinreb RN
Archives of Ophthalmology 2001; 199: 985-993 (IGR: 3-2)
6347 Retinal morphology and ERG response in the DBA/1NNia mouse model of angle-closure glaucoma
Bayer AU; Neuhardt T; May AC; Martus P; Maag KP; Brodie S; Lütjen-Drecoll E; Podos SM; Mittag TW
Investigative Ophthalmology and Visual Science 2001; 42: 1258-1265 (IGR: 3-2)
6348 Detecting early glaucoma by assessment of retinal nerve fiber layer thickness and visual function
Bowd C; Zangwill LM; Berry CC; Blumenthal EZ; Vasile C; Sanchez-Galeana CA; Bosworth CF; Sample PA; Weinreb RN
Investigative Ophthalmology and Visual Science 2001; 42: 1993-2003 (IGR: 3-2)
6349 Agreement between ophthalmologists and optometrists in optic disc assessment: training implications for glaucoma co-management
Harper R; Radi N; Reeves BC; Fenerty C; Spencer AF; Batterby M
Graefe's Archive for Clinical and Experimental Ophthalmology 2001; 239: 342-350 (IGR: 3-2)
6350 Interobserver variability of optic disc variables measured by confocal scanning laser tomography
Iester M; Mikelberg FS; Courtright P; Burk ROW; Caprioli J; Jonas JB; Weinreb RN; Zangwill LM
American Journal of Ophthalmology 2001; 132: 57-62 (IGR: 3-2)
6351 Three-dimensional optic nerve head algorithm for the detection of glaucomatous damage
Iester M; Rolando M; Macri A
Graefe's Archive for Clinical and Experimental Ophthalmology 2001; 239: 469-473 (IGR: 3-2)
6352 Optic disc changes following trabeculectomy: longitudinal and localisation of change
Kotecha A; Siriwardena D; Fitzke FW; Hitchings RA; Khaw PT
British Journal of Ophthalmology 2001; 85: 956-961 (IGR: 3-2)
6353 The effects of astigmatism and working distance on optic nerve head images using a Heidelberg retina tomograph scanning laser ophthalmoscope
Sheen NJL; Aldridge C; Drasdo N; North RV; Morgan JE
American Journal of Ophthalmology 2001; 131: 716-721 (IGR: 3-2)
6354 What optic disc parameters are most accurately assessed using the direct ophthalmoloscope?
Theodossiades J; Murdoch I
Eye 2001; 15: 283-287 (IGR: 3-2)
6355 Frequency doubling technology and confocal scanning ophthalmoscopic optic disc analysis in open-angle glaucoma with hemifield defects
Wu LL; Suzuki Y; Kunimatsu S; Araie M; Iwase A; Tomita G
Journal of Glaucoma 2001; 10: 256-260 (IGR: 3-2)
18963 Slope analysis of the optic disc in eyes with ocular hypertension and early normal tension glaucoma by confocal scanning laser ophthalmoscope
Dong J; Chihara E
British Journal of Ophthalmology 2001; 85: 56-62 (IGR: 3-1)
18964 Scanning laser ophthalmoscopy of the optic nerve head in exfoliation glaucoma and ocular hypertension with exfoliation syndrome
Harju M; Vesti E
British Journal of Ophthalmology 2001; 85: 297-303 (IGR: 3-1)
18965 The relationship between structural and functional alterations in glaucoma: a review
Johnson CA; Cioffi GA; Liebmann JR; Sample PA; Zangwill LM; Weinreb RN
Seminars in Ophthalmology 2000; 15: 221-233 (IGR: 3-1)
18966 The diagnostic value of optic nerve imaging in early glaucoma
Mardin CY; Jünemann AGM
Current Opinions in Ophthalmology 2001; 12: 100-104 (IGR: 3-1)
18967 How large is the optic disc? Systematic errors in fundus cameras and topographers
Meyer T; Howland HC
Ophthalmic and Physiological Optics 2001; 21: 139-150 (IGR: 3-1)
18968 Correlation between nerve damage and optic disc features in glaucoma
Nasciuti F; Sanna G; Traverso CE; Iester M; Zingirian M
Annali di Ottalmologia e Clinica Oculistica 2000; 126: 149-153 (IGR: 3-1)
18969 The influence of contour line size and location on the reproducibility of topographic measurement with the Heidelberg Retina Tomograph
Roff EJ; Hosking SL; Barnes DA
Ophthalmic and Physiological Optics 2001; 21: 173-181 (IGR: 3-1)
18970 Clinical optic disc assessment in early glaucoma
Vernon SA
CME Journal Ophthalmology 2000; 4: 70-74 (IGR: 3-1)
15735 The optic nerve head as a biomechanical structure: initial finite element modeling
Bellezza AJ; Hart RT; Burgoyne CF
Investigative Ophthalmology and Visual Science 2000; 41: 2991-3000 (IGR: 2-3)
15736 Imaging of the optic nerve head and nerve fiber layer in glaucoma
Schuman JS; Kim J
Ophthalmology Clinics of North America 2000; 13: 383-406 (IGR: 2-3)
15965 Criteria for progression of glaucoma in clinical management and in outcomestudies.
Anderson DR; Chauhan B; Johnson C; Katz J; Patella VM; Drance SM
American Journal of Ophthalmology 2000; 130: 827-829 (IGR: 2-3)
15697 Detection of changes of the optic disc in glaucomatous eyes: clinical examination and image analysis with the Topcon Imagenet system
Azuara-Blanco A; Katz LJ; Spaeth GL; Nicholl J; Lanzl IM
Acta Ophthalmologica Scandinavica 2000; 78: 647-650 (IGR: 2-3)
15709 Optic disc topography after medical treatment to reduce intraocular pressure
Bowd C; Weinreb RN; Lee B; Emdadi A; Zangwill LM
American Journal of Ophthalmology 2000; 130: 280-286 (IGR: 2-3)
16007 Influence of optic disc size on neuroretinal rim shape in healthy eyes
Budde WM; Jonas JB; Martus P; Grundler AE
Journal of Glaucoma 2000; 9: 357-62 (IGR: 2-3)
15714 Fred Hollows lecture: Digital screening for eye disease
Constable IJ; Yogesan K; Eikelboom RH; Barry CJ; Cuypers M
Clinical and Experimental Ophthalmology 2000; 28: 129-132 (IGR: 2-3)
15665 Optic nerve oxygen tension: effects of intraocular pressure and dorzolamide
Cour M; Kiilgaard JF; Eysteinsson T; Wiencke AK; Bang K; Dollerup J; Jensen PK; Stefansson E
British Journal of Ophthalmology 2000; 84: 1045-1049 (IGR: 2-3)
15724 Neuroretinal rim measurement error using PC-based stereo software
Eikelboom RH; Barry CJ; Jitskaia L; Voon ASP; Yogesan K
Clinical and Experimental Ophthalmology 2000; 28: 178-180 (IGR: 2-3)
15721 Short-wavelength automated perimetry and standard perimetry in the detection of progressive optic disc cupping
Girkin CA; Emdadi A; Sample PA; Blumenthal EZ; Lee AC; Zangwill LM; Weinreb RN
Archives of Ophthalmology 2000; 118: 1231-1236 (IGR: 2-3)
15723 The sensitivity and specificity of direct ophthalmoscopic optic disc assessment in screening for glaucoma: a multivariate analysis
Harper R; Reeves B
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 949-955 (IGR: 2-3)
15731 Ophthalmoscopic appearance of the normal optic nerve head in rhesus monkeys
Jonas JB; Hayreh SS
Investigative Ophthalmology and Visual Science 2000; 41: 2978-2983 (IGR: 2-3)
15708 Use of sequential Heidelberg retina tomograph images to identify changes at the optic disc in ocular hypertensive patients at risk of developing glaucoma
Kamal DS; Garway-Heath DF; Hitchings RA; Fitzke FW
British Journal of Ophthalmology 2000; 84: 993-998 (IGR: 2-3)
15989 A study on the correlation between the structural parameter of optic disc and visual field in primary open-angle glaucoma
Pan Y; Li M
Chinese Journal of Ophthalmology 2000; 36: 275 (IGR: 2-3)
15713 Optic nerve evaluation among optometrists
Spalding JM; Litwak AB; Shufelt CL
Optometry and Vision Science 2000; 77: 446-452 (IGR: 2-3)
15710 Ultrasonographic evaluation of optic disc swelling: comparison with CSLO in idiopathic intracranial hypertension
Tamburrelli C; Salgarello T; Caputo CG; Giudiceandrea A; Scullica L
Investigative Ophthalmology and Visual Science 2000; 41: 2960-2966 (IGR: 2-3)
15712 Identifying early glaucomatous changes: comparison between expert clinical assessment of optic disc photographs and confocal scanning ophthalmoscopy
Wollstein G; Garway-Heath DF; Fontana L; Hitchings RA
Ophthalmology 2000; 107: 2272-2277 (IGR: 2-3)
15707 Glaucomatous optic disc changes in the contralateral eye of unilateral normal pressure glaucoma patients
Wollstein G; Garway-Heath DF; Poinoosawmy DP; Hitchings RA
Ophthalmology 2000; 107: 2267-2271 (IGR: 2-3)
5958 Expression of nitric oxide synthase-2 (NOS-2) in reactive astrocytes of the human glaucomatous optic nerve head
Liu B; Neufeld AH
GLIA 2000; 30: 178-186 (IGR: 2-2)
5966 Matrix metalloproteinases and tumor necrosis factor alpha in glaucomatous optic nerve head
Yan X; Tezel G; Wax MB; Edward DP
Archives of Ophthalmology 2000; 118: 666-673 (IGR: 2-2)
6009 Relationship between structural abnormalities and short-wavelength perimetric defects in eyes at risk of glaucoma
Ugurlu S; Hoffman D; Garway-Heath DF; Caprioli J
American Journal of Ophthalmology 2000; 129: 592-598 (IGR: 2-2)
6013 Ability of a confocal scanning laser ophthalmoscope (TopSS) to detect early glaucomatous visual field defect
Ahn B-S; Kee C
British Journal of Ophthalmology 2000; 84: 852-855 (IGR: 2-2)
6014 An appraisal of the disc-macula distance to disc diameter ratio in the assessment of optic disc size
Barr DB; Weir CR; Purdie AT
Ophthalmic and Physiological Optics 1999; 19: 365-375 (IGR: 2-2)
6015 Computerized stereochronoscopy and alternation flicker to detect optic nerve head contour change
Berger JW; Patel TR; Shin DS; Piltz JR; Stone RA
Ophthalmology 2000; 107: 1316-1320 (IGR: 2-2)
6016 Rom-1 is required for rod photoreceptor viability and the regulation of disk morphogenesis
Clarke G; Goldberg AF; Vidgen D; Collins L; Ploder L; Schwarz L; Molday LL; Rossant J; Szel A; Molday RS
Nature Genetics 2000; 25: 67-73 (IGR: 2-2)
6017 Determinants of optic disc characteristics (letter)
Garway-Heath DF
Ophthalmology 2000; 107: 1217-1219 (IGR: 2-2)
6018 Observer variability in optic disc assessment: implications for glaucoma shared care
Harper R; Reeves B; Smith G
Ophthalmic and Physiological Optics 2000; 20: 265-273 (IGR: 2-2)
6019 Discriminant analysis models for early detection of glaucomatous optic disc changes
Iester M; Jonas JB; Mardin CY; Budde WM
British Journal of Ophthalmology 2000; 84: 464-468 (IGR: 2-2)
6020 Clinical quality assessment using computer monitor photoimages of optic nerve head cupping
Jamara RJ; Denial A; Valentini D; Thorn F
Optometry and Vision Science 2000; 77: 433-436 (IGR: 2-2)
6021 Ranking of optic disc variables for detection of glaucomatous optic nerve damage
Jonas JB; Bergua A; Schmitz-Valckenberg P; Papastathopoulos KI; Budde WM
Investigative Ophthalmology and Visual Science 2000; 41: 1764-1773 (IGR: 2-2)
6022 Methods in optic nerve disk digital planimetry
Kubena T; Cernosek P; Mayer J
?eska a Slovenska Oftalmologie 2000; 56: 170-175 (IGR: 2-2)
6023 Morphometric changes in optic discs with morphological progression of the glaucomatous optic atrophy measured with laser scanning tomography
Mardin CY; Horn F; Budde WM; Jonas JB
Klinische Monatsblätter für Augenheilkunde 2000; 217: 82-87 (IGR: 2-2)
6024 Measurement of a novel optic disc topographic parameter, 'spikiness', in glaucoma
Morgan-Davies J; King AJ; Aspinall P; O'brien CJ
Graefe's Archive for Clinical and Experimental Ophthalmology 2000; 238: 669-676 (IGR: 2-2)
6025 Effect of aging on optic nerve appearance: a longitudinal study
Moya FJ; Brigatti L; Caprioli J
British Journal of Ophthalmology 1999; 83: 567-572 (IGR: 2-2)
6026 Synthesis of elastic microfibrillar components fibrillin-1 and fibrillin-2 by human optic nerve head astrocytes in situ and in vitro
Pena JD; Mello PA; Hernandez MR
Experimental Eye Research 2000; 70: 589-601 (IGR: 2-2)
6027 Optic disc size in ocular hypertension
Sekhar GC; Nagarajan R; Naduvilath TJ; Dandona L; Rao KM; Rao VD
Indian Journal of Ophthalmology 1999; 47: 229-231 (IGR: 2-2)
6028 Automated analysis of normal and glaucomatous optic nerve head topography images
Swindale NV; Stjepanovic G; Chin A; Mikelberg FS
Investigative Ophthalmology and Visual Science 2000; 41: 1730-1742 (IGR: 2-2)
6029 Evaluation of optic disc changes in severe myopia
Wang TH; Lin SY; Shih YF; Huang JK; Lin LL; Hung PT
Journal of the Formosan Medical Association 2000; 99: 559-563 (IGR: 2-2)
5548 Correlation between neuroretinal rim and optic disc areas in normal melanoderm and glaucoma patients
Balo KP; Mihluedo H; Djagnikpo PA; Akpandja MS; Béchetoille A
Journal Français d'Ophtalmologie 2000; 23:37-41 (IGR: 2-1)
5570 Differential expression of neural cell adhesion molecule isoforms in normal and glaucomatous human optic nerve heads
Ricard CS; Pena JD; Hernandez MR
Molecular Brain Research 1999; 74:69-82 (IGR: 2-1)
5585 The similarity of protein expression in trabecular meshwork and lamina cribrosa: implications for glaucoma
Steeley HT Jr; English-Wright SL; Clark AF
Experimental Eye Research 2000; 70:17-30 (IGR: 2-1)
5596 Interocular differences in optic disc topographic parameters in normal subjects
Gherghel D; Orgül S; Prünte C; Gugleta K; Lübeck P; Gekkieva M; Flammer J
Current Eye Research 2000; 20: 276-282 (IGR: 2-1)
5606 Age related changes in the non-collagenous components of the extracellular matrix of the human lamina cribrosa
Albon J; Karwatowski WS; Easty DL; Sims TJ; Duance VC
British Journal of Ophthalmology 2000; 84: 311-317 (IGR: 2-1)
5607 Age related compliance of the lamina cribrosa in human eyes
Albon J; Purslow PP; Karwatowski WS; Easty DL
British Journal of Ophthalmology 2000; 84: 318-323 (IGR: 2-1)
5608 Comparison of optic disc image assessment methods when examining serial photographs for glaucomatous progression
Barry CJ; Eikelboom R; Kanagasingam Y; Jitskaia L; Morgan W; House P; Cuypers M
British Journal of Ophthalmology 2000; 84:28-30 (IGR: 2-1)
5609 The retinal nerve fiber layer thickness in ocular hypertensive, normal, and glaucomatous eyes with optical coherence tomography
Bowd C; Weinreb RN; Williams JM; Zangwill LM
Archives of Ophthalmology 2000; 118:22-26 (IGR: 2-1)
5610 Technique for detecting serial topographic changes in the optic disc and peripapillary retina using scanning laser tomography
Chauhan BC; Blanchard JW; Hamilton DC; Leblanc RP
Investigative Ophthalmology and Visual Science 2000; 41:775-782 (IGR: 2-1)
5611 Structural-functional relationships of the optic nerve in glaucoma (editorial)
Cioffi GA; Liebmann JM; Johnson CA; Weinreb RN
Journal of Glaucoma 2000; 9: 3-4 (IGR: 2-1)
5612 Comparison of ranked segment analysis (RSA) and cup to disc ratio in computer-assisted optic disc evaluation
Gundersen KG; Åsman P
Acta Ophthalmologica Scandinavica 2000; 78: 137-141 (IGR: 2-1)
5613 Comparability of three-dimensional optic disc imaging with different techniques: a study with confocal scanning laser tomography and raster tomography
Gundersen KG; Heijl A; Bengtsson B
Acta Ophthalmologica Scandinavica 2000; 78: 9-13 (IGR: 2-1)
5614 Scanning laser polarimetry measurements after laser-assisted in situ keratomileusis
Gürses-Özden R; Pons ME; Barbiere C; Ishikawa H; Buxton DF; Liebmann JM; Ritch R
American Journal of Ophthalmology 2000; 129; 461-464 (IGR: 2-1)
5615 Optic nerve head appearance in juvenile-onset chronic high-pressure glaucoma and normal-pressure glaucoma
Jonas JB; Budde WM
Ophthalmology 2000; 107: 704-711 (IGR: 2-1)
5616 The influence of age, gender, refractive error, and optic disc size on the optic disc configuration in Japanese normal eyes
Kashiwagi K; Tamura M; Abe K; Kogure S; Tsukahara S
Acta Ophthalmologica Scandinavica 2000; 78: 200-203 (IGR: 2-1)
5617 The optic nerve disc in myopic children with elevated intraocular pressure
Kubena T; Kubena K
?eska a Slovenska Oftalmologie 1999; 55: 312-315 (IGR: 2-1)
5618 Concordance between results of optic disc tomography and high-pass resolution perimetry in glaucoma
Martin LM; Lindblom B; Gedda UK
Journal of Glaucoma 2000; 9:28-33 (IGR: 2-1)
5619 Interobserver differences in assessing glaucomatous optic disc using a Heidelberg Retina Tomograph
Okada M; Tsukamoto H; Okada K; Nii H; Takamatsu M; Mishima HK
Japanese Journal of Clinical Ophthalmology 2000; 54: 313-316 (IGR: 2-1)
5620 Confocal laser scanning ophthalmoscope and spherical harmonics used as a possible aid to detect glaucoma
Rawlinson AA; Cucevic V; Nugent KA; Brooks AM; Klein AG
Journal of the Optical Society of America. A, Optics, Image Science, and Vision 2000; 17:477-483 (IGR: 2-1)
5621 A new digital optic disc stereo camera: intraobserver and interobserver repeatability of optic disc measurements
Shuttleworth GN; Khong CH; Diamond JP
British Journal of Ophthalmology 2000; 84: 403-407 (IGR: 2-1)
5622 Optical coherence tomography and localized defects of the retinal nerve fiber layer
Teesalu P; Tuulonen A; Airaksinen PJ
Acta Ophthalmologica Scandinavica 2000; 78: 49-52 (IGR: 2-1)
5623 The optic nerve head in normal-tension glaucoma
Tomita G
Current Opinions in Ophthalmology 2000; 11: 116-120 (IGR: 2-1)
15316 Optic disk size in open-angle glaucoma: the Blue Mountains Eye Study
Healy PR; Mitchell P
American Journal of Ophthalmology 1999; 128: 515-517 (IGR: 1-3)
15363 Heidelberg retina tomography and optical coherence tomography in normal, ocular-hypertensive, and glaucomatous eyes
Mistlberger A; Liebmann JM; Greenfield DS; Pons ME; Hoh ST; Ishikawa H; Ritch R
Ophthalmology 1999; 106: 2027-2032 (IGR: 1-3)
15367 Morphology of the optic disc in glaucoma. I. Primary open-angle glaucomas
Budde WM; Jonas JB
Klinische Monatsblätter für Augenheilkunde 1999; 215: 211-220 (IGR: 1-3)
15368 Morphology of the optic disc in glaucoma. II. Secondary chronic open-angle glaucomas
Budde WM; Jonas JB
Klinische Monatsblätter für Augenheilkunde 1999; 215: 221-227 (IGR: 1-3)
15369 Advances in optic nerve head analysis in glaucoma
Fechtner RD; Lama PJ
Seminars in Ophthalmology 1999; 14: 180-188 (IGR: 1-3)
15370 Optic disc size, an important consideration in the glaucoma evaluation
Hancox MD
Clinical Eye and Vision Care 1999; 11: 59-62 (IGR: 1-3)
15371 Diagnosis and pathogenesis of glaucomatous optic neuropathy: morphological aspects
Jonas JB; Budde WM
Progress in Retinal and Eye Research 2000; 19: 1-40 (IGR: 1-3)
15372 Morphometric features of laminar pores in lamina cribrosa observed by scanning laser ophthalmoscopy
Maeda H; Nakamura M; Yamamoto M
Japanese Journal of Ophthalmology 1999; 43: 415-421 (IGR: 1-3)
15373 Scanning laser tomography to evaluate optic discs of normal eyes
Nakamura H; Maeda T; Suzuki Y; Inoue Y
Japanese Journal of Ophthalmology 1999; 43: 410-414 (IGR: 1-3)
15374 The relationship between optic disc area and open-angle glaucoma: the Baltimore eye survey
Quigley HA; Varma R; Tielsch JM; Katz J; Sommer A; Gilbert DL
Journal of Glaucoma 1999; 8: 347-352 (IGR: 1-3)
15375 Effects of elevated intraocular pressure on haemoglobin oxygenation in the rabbit optic nerve head: a microendoscopical study
Selbach MJ; Wonka F; Höper J; Funk RHW
Experimental Eye Research 1999; 69: 301-309 (IGR: 1-3)
15376 Influence of myopic disc shape on the diagnostic precision of the Heidelberg Retina Tomograph
Yamazaki Y; Yoshikawa K; Kunimatsu S; Koseki N; Suzuki Y; Matsumoto S; Araie M
Japanese Journal of Ophthalmology 1999; 43: 392-397 (IGR: 1-3)
15377 Evaluation of a portable fundus camera for use in the teleophthalmologic diagnosis of glaucoma
Yogesan K; Constable IJ; Barry CJ; Eikelboom RH; Morgan W; Tay-Kearney ML; Jitskaia L
Journal of Glaucoma 1999; 8: 297-301 (IGR: 1-3)
15378 Optic disc topographic measurements after pupil dilation
Zangwill LM; Berry CC; Weinreb RN
Ophthalmology 1999; 106: 1751-1755 (IGR: 1-3)
15405 Spatial relationship of motion automated perimetry and optic disc topography in patients with glaucomatous optic neuropathy
Bosworth CF; Sample PA; Williams JM; Zangwill LM; Lee B; Weinreb RN
Journal of Glaucoma 1999; 8: 281-289 (IGR: 1-3)
5200 Microglia in the optic nerve head and the region of parapapillary chorioretinal atrophy in glaucoma
Neufeld AH
Archives of Ophthalmology 1999; 117: 1050-1056 (IGR: 1-2)
5201 Determinants of optic disc characteristics in a general population: The Rotterdam Study
Ramrattan RS; Wolfs RC; Jonas JB; Hofman A; De Jong PT
Ophthalmology 1999; 106: 1588-1596 (IGR: 1-2)
5212 Optic disc topographic changes post-trabeculectomy visualized by anaglyphs
Barry CJ; Kanagasingam Y; Morgan W
Australian and New Zealand Journal of Ophthalmology 1999; 27: 79-83 (IGR: 1-2)
5213 Optic disk appearances in primary open-angle glaucoma
Broadway DC; Nicolela MT; Drance SM
Survey of Ophthalmology 1999; 43 (S1): S223-S243 (IGR: 1-2)
5214 A biomathematical model for pressure-dependent lamina cribrosa behavior
Dongqi H; Zeqin R
Journal of Biomechanics 1999; 32: 579-584 (IGR: 1-2)
5215 STIR sequences in magnetic resonance imaging for confirmation of optic nerve atrophy
Fischel JD; Garrett J; Bell J
Annals of Ophthalmology - Glaucoma 1999; 31: 153-155 (IGR: 1-2)
5216 (Changes in transforming growth factor-beta and platelet-derived growth factor in the optic nerve head in monkey experimental glaucoma)
Fukuchi T; Ueda J; Hanyu T; Abe H; Sawaguchi S
Nippon Ganka Gakkai Zasshi 1999; 103: 93-200 (IGR: 1-2)
5217 Diagnostic value of magnetic resonance imaging and planimetric measurement of optic disc size in confirming optic nerve hypoplasia.
Hellstroem A; Wiklund LM; Svensson E
Journal of AAPOS 1999; 3: 104-108 (IGR: 1-2)
5218 Optic cup deepening spatially correlated with optic nerve damage in focal normal-pressure glaucoma
Jonas JB; Budde WM
Journal of Glaucoma 1999; 8: 227-231 (IGR: 1-2)
5219 Optic disk morphology in experimental central retinal artery occlusion in rhesus monkeys.
Jonas JB; Hayreh SS
American Journal of Ophthalmology 1999; 127: 523-530 (IGR: 1-2)
5220 Change in optic disc topography associated with diurnal variation in intraocular pressure
Lee BL; Zangwill L; Weinreb RN
Journal of Glaucoma 1999; 8: 221-223 (IGR: 1-2)
5221 Reversal of optic disc cupping after glaucoma surgery analyzed with a scanning laser tomograph.
Lesk MR; Spaeth GL; Azuara-Blanco A; Araujo SV; Katz LJ; Terebuh AK; Wilson RP; Moster MR; Schmidt CM
Ophthalmology 1999; 106: 1013-1018 (IGR: 1-2)
5222 Microvasculature of the rat optic nerve head.
Morrison JC; Johnson EC; Cepurna WO; Funk RH
Investigative Ophthalmology and Visual Science 1999; 40: 1702-1709 (IGR: 1-2)
5224 Optic disc surface smoothness and visual field indices.
Rolando M; Macri A; Iester M
Graefe's Archive for Clinical and Experimental Ophthalmology 1999; 237: 372-376 (IGR: 1-2)
5225 Longitudinal changes in optic disc topography of adult patients after trabeculectomy.
Topouzis F; Peng F; Kotas-Neumann R; Garcia R; Sanguinet J; Yu F; Coleman AL
Ophthalmology 1999; 106: 1147-1151 (IGR: 1-2)
5226 Cup-to-disc ratio: ophthalmoscopy versus automated measurement in a general population: The Rotterdam Study
Wolfs RC; Ramrattan RS; Hofman A; De Jong PT
Ophthalmology 1999; 106: 1597-1601 (IGR: 1-2)
5227 (Influence of myopic disc shape in a classification program of the Heidelberg retina tomograph)
Yamazaki Y; Yoshikawa K; Kunimatsu S; Koseki N; Suzuki Y; Matsumoto S; Araie M
Nippon Ganka Gakkai Zasshi 1999; 103: 392-398 (IGR: 1-2)
5228 Changes in optic disc parameters after intraocular pressure reduction in adult glaucoma patients
Yoshikawa K; Inoue Y
Japanese Journal of Ophthalmology 1999; 43: 225-231 (IGR: 1-2)
