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Miscellaneous: Assessing 3 years of a virtual glaucoma clinic (24-1/2, April 2024) on:
109983 Three-year Outcomes of an Expanded Asynchronous Virtual Glaucoma Clinic in Singapore
Lee YF; Chay J; Husain R et al.
Asia-Pacific journal of ophthalmology (Philadelphia, Pa.) 2023; 12: 364-369
Comment (17-4, September 2016) on:
67306 Structural and Functional Progression in the Early Manifest Glaucoma Trial
Öhnell H; Heijl A; Brenner L et al.
Ophthalmology 2016; 123: 1173-1180
Anatomical Structures: Deep ONH structures in NTG (17-4, September 2016) on:
67189 Comparison of the Deep Optic Nerve Head Structure between Normal-Tension Glaucoma and Nonarteritic Anterior Ischemic Optic Neuropathy
Lee EJ; Choi YJ; Kim TW et al.
PLoS ONE 2016; 11: e0150242
Anatomical Structures: RNFL in Parkinson's Disease (17-1, January 2016) on:
61397 Scanning laser polarimetry and spectral domain optical coherence tomography for the detection of retinal changes in Parkinson's disease
Stemplewitz B; Keserü M; Bittersohl D et al.
Acta Ophthalmologica 2015; 93: e672-e677
Basic Science: Scleral properties (16-3, June 2015) on:
59507 Age- and Race-Related Differences in Human Scleral Material Properties
Grytz R; Fazio MA; Libertiaux V et al.
Investigative Ophthalmology and Visual Science 2014; 55: 8163-8172
Experimental Glaucoma: Where's the primary site of nerve fiber damage? (15-4, September 2014) on:
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 et al.
PLoS ONE 2013; 8: e77831
Basic Science: Animal models II (15-3, May 2014) on:
54637 Retinal ganglion cell dendritic atrophy in DBA/2J glaucoma
Williams PA; Howell GR; Barbay JM et al.
PLoS ONE 2013; 8: e72282
Clinical Examination Methods: Early diagnosis by OCT (15-2, December 2013) on:
53479 Comparison of different spectral domain OCT scanning protocols for diagnosing preperimetric glaucoma
Lisboa R; Paranhos A; Weinreb RN et al.
Investigative Ophthalmology and Visual Science 2013; 54: 3417-3425
Experimental Glaucoma: Optic nerve head astrocytes (15-1, September 2013) on:
53194 Morphology of astrocytes in a glaucomatous optic nerve
Lye-Barthel M; Sun D; Jakobs TC
Investigative Ophthalmology and Visual Science 2013; 54: 909-917
Clinical Examination Methods: Peripapillary atrophy (14-4, July 2013) on:
51740 Parapapillary atrophy: histological gamma zone and delta zone
Jonas JB; Jonas SB; Jonas RA et al.
PLoS ONE 2012; 7: e47237
Anatomical Structures: Optic disc morphology and location of scotoma (14-3, April 2013) on:
50899 Characteristics of optic disc morphology in glaucoma patients with parafoveal scotoma compared to peripheral scotoma
Jung KI; Park HY; Park CK
Investigative Ophthalmology and Visual Science 2012; 53: 4813-4820
Progression: Structure-function relationship (14-3, April 2013) on:
51118 The structure and function relationship in glaucoma: implications for detection of progression and measurement of rates of change
Medeiros FA; Zangwill LM; Bowd C et al.
Investigative Ophthalmology and Visual Science 2012; 53: 6939-6946
Diagnostic Methods: OCT: Screening with time- and spectral-domain OCT (14-2, February 2013) on:
49920 Performance of time-domain and spectral-domain Optical Coherence Tomography for glaucoma screening
Bengtsson B; Andersson S; Heijl A
Acta Ophthalmologica 2012; 90: 310-315
Experimental Glaucoma: RGC dendritic shrinkage after optic nerve crush (14-2, February 2013) on:
50386 Retinal ganglion cell morphology after optic nerve crush and experimental glaucoma
Kalesnykas G; Oglesby EN; Zack DJ et al.
Investigative Ophthalmology and Visual Science 2012; 53: 3847-3857
Refractive Errors: RNFL thickness in myopia (13-4, April 2012) on:
47801 Characteristics of peripapillary retinal nerve fiber layer thickness in eyes with myopic optic disc tilt and rotation
Hwang YH; Yoo C; Kim YY
Journal of Glaucoma 2011;
Basic Research: Time-lapse imaging of axonal transport (13-2, October 2011) on:
45465 Dynamic imaging of axonal transport in living retinal ganglion cells in vitro
Takihara Y; Inatani M; Hayashi H et al.
Investigative Ophthalmology and Visual Science 2011; 52: 3039-3045
Comments (12-4, March 2011) on:
46501 Treating patients presenting with advanced glaucoma - Should we reconsider current practice?
King AJ; Stead RE; Rotchford AP
British Journal of Ophthalmology 2011; 95: 1185-1192
Structural Examination Methods: Disagreement among three progression measurements (12-4, March 2011) on:
27198 Determinants of agreement between the confocal scanning laser tomograph and standardized assessment of glaucomatous progression
Vizzeri G; Bowd C; Weinreb RN et al.
Ophthalmology 2010; 117: 1953-1959
Structure: Influence of signal strength on Stratus OCT (12-3, December 2010) on:
26388 Influence of OCT signal strength on macular, optic nerve head, and retinal nerve fiber layer parameters
Samarawickrama C; Pai A; Huynh SC et al.
Investigative Ophthalmology and Visual Science 2010; 51: 4471-4475
Basic Research: In-vivo imaging retinal ganglion cells (12-2, September 2010) on:
26166 In vivo imaging of retinal ganglion cell axons within the nerve fiber layer
Kanamori A; Catrinescu MM; Traistaru M et al.
Investigative Ophthalmology and Visual Science 2010; 51: 2011-2018
Basic Research: In-vivo measurement of RGC degeneration (11-4, March 2010) on:
24608 A Thy1-CFP DBA/2J mouse line with cyan fluorescent protein expression in retinal ganglion cells
Raymond ID; Pool AL; Vila A et al.
Visual Neuroscience 2009; 1-13
Basic Research: In-vivo fluorescence microscopy (11-4, March 2010) on:
24694 Rapid and Noninvasive Imaging of Retinal Ganglion Cells in Live Mouse Models of Glaucoma
Tosi J; Wang N-K; Zhao J et al.
Molecular Imaging and Biology 2009; 1-8
Visual Function and Structure: Determining progression with GDX-VCC (11-2, September 2009) on:
23954 Detection of progressive retinal nerve fiber layer loss in glaucoma using scanning laser polarimetry with variable corneal compensation
Medeiros FA; Alencar LM; Zangwill LM et al.
Investigative Ophthalmology and Visual Science 2009; 50: 1675-1681
OCT: Signal-to-noise ratio (11-1, June 2009) on:
23393 Signal strength is an important determinant of accuracy of nerve fiber layer thickness measurement by optical coherence tomography
Wu Z; Huang J; Dustin L et al.
Journal of Glaucoma 2009; 18: 213-216
Comments (10-4, March 2009) on:
22358 Disc hemorrhages and treatment in the early manifest glaucoma trial
Bengtsson B; Leske MC; Yang Z et al.
Ophthalmology 2008; 115: 2044-2048
Basic Research: Molecular markers for RGCs (10-4, March 2009) on:
22071 γ-Synuclein as a marker of retinal ganglion cells
Surgucheva I; Weisman AD; Goldberg JL et al.
Molecular Vision 2008; 14: 1540-1548
Basic research: In-vivo RGC imaging (10-1, July 2008) on:
20380 In vivo imaging of the fine structure of rhodamine-labeled macaque retinal ganglion cells
Gray DC; Wolfe R; Gee BP et al.
Investigative Ophthalmology and Visual Science 2008; 49: 467-473
Comments (9-3, December 2007) on:
19654 Targeting amyloid-β in glaucoma treatment
Guo L; Salt TE; Luong V et al.
Proceedings of the National Academy of Sciences of the United States of America 2007; 104: 13444-13449
Computerized image analysis: ASOCT (9-1, June 2007) on:
16930 Detection of primary angle closure using anterior segment optical coherence tomography in Asian eyes
Nolan WP; See JL; Chew PT et al.
Ophthalmology 2007; 114: 33-39