advertisement
Editors Selection IGR 10-1
List of Editor's Selection comments by
Brad Fortune
Discoveries in Sight, Devers Eye Institute, Legacy Health System, Portland, OR, USA
Clinical Examination Methods: Analysing the Texture of Individual Nerve Fiber Bundles (22-4, July 2022) on:
98460 Diagnostic assessment of glaucoma and non-glaucomatous optic neuropathies via optical texture analysis of the retinal nerve fibre layer
Leung CKS; Lam AKN; Weinreb RN et al.
Nature biomedical engineering 2022; 6: 593-604
Clinical Examination Methods: Morphological changes and Visual Field Progression (18-4, December 2017) on:
72739 Impact of Rates of Change of Lamina Cribrosa and Optic Nerve Head Surface Depths on Visual Field Progression in Glaucoma
Wu Z; Lin C; Crowther M et al.
Investigative Ophthalmology and Visual Science 2017; 58: 1825-1833
Clinical Examination Methods: How High-Definition can you go? (18-3, July 2017) on:
71225 Imaging individual neurons in the retinal ganglion cell layer of the living eye
Rossi EA; Granger CE; Sharma R et al.
Proceedings of the National Academy of Sciences of the United States of America 2017; 114: 586-591
Basic Science: Neuroprotection 2 (17-4, September 2016) on:
67276 Axonal transport along retinal ganglion cells is grossly intact during reduced function post-injury
Fahy ET; Chrysostomou V; Abbott CJ et al.
Experimental Eye Research 2016; 146: 289-292
Clinical Examination Methods: Electroretinography (15-1, September 2013) on:
52562 Photopic negative response versus pattern electroretinogram in early glaucoma
Preiser D; Lagrèze WA; Bach M et al.
Investigative Ophthalmology and Visual Science 2013; 54: 1182-1191
Experimental Glaucoma: RNFL reflectance in glaucomatous rats (14-3, April 2013) on:
51030 Wavelength-dependent change of retinal nerve fiber layer reflectance in glaucomatous retinas
Huang XR; Zhou Y; Knighton RW et al.
Investigative Ophthalmology and Visual Science 2012; 53: 5869-5876
Basic Research: Are reflectance and thickness RNFL related? (13-4, April 2012) on:
47979 Reflectance decreases before thickness changes in the retinal nerve fiber layer in glaucomatous retinas
Huang XR; Zhou Y; Kong W et al.
Investigative ophthalmology & visual science 2011; 52: 6737-6742
Perimetry: High-resolution multifocal pupillographic perimetry (13-1, June 2011) on:
27738 High-Resolution Multifocal Pupillographic Objective Perimetry in Glaucoma
Carle CF; James AC; Kolic M et al.
Investigative Ophthalmology and Visual Science 2011; 52: 604-610
Intraocular Pressure: Effect IOP on cytoskeletal protein F-actin (11-2, September 2009) on:
23913 Altered F-actin distribution in retinal nerve fiber layer of a rat model of glaucoma
Huang XR; Knighton RW
Experimental Eye Research 2009; 88: 1107-1114
IOP, VF, Imaging and Electrophysiology: Novel VEP technique for diagnosis (10-4, March 2009) on:
22307 Novel electrophysiological instrument for rapid and objective assessment of magnocellular deficits associated with glaucoma
Zemon V; Tsai JC; Forbes M et al.
Documenta Ophthalmologica 2008; 117: 233-243
Structure and function measurements: mfVEP versus HRT II (10-1, July 2008) on:
20812 Topographic comparison of the visual function on multifocal visual evoked potentials with optic nerve structure on heidelberg retinal tomography
Punjabi OS; Stamper RL; Bostrom AG et al.
Ophthalmology 2008; 115: 440-446
Examination methods: PERG and OCT (8-3, December 2006) on:
14037 The relationship between retinal ganglion cell function and retinal nerve fiber thickness in early glaucoma
Ventura LM; Sorokac N; Santos Rde L et al.
Investigative Ophthalmology and Visual Science 2006; 47: 3904-3911
Examination methods: Parapapillary autofluorescence (8-2, September 2006) on:
13826 Comparison of objective diagnostic tests in glaucoma: Heidelberg retinal tomography and multifocal visual evoked potentials
Balachandran C; Graham SL; Klistorner A et al.
Journal of Glaucoma 2006; 15: 110-116