Hao Sun1, Mitchell W Dul, William H Swanson. 1. Glaucoma Institute, State University of New York, State College of Optometry, New York, New York 10036, USA. hsun@sunyopt.edu
Abstract
PURPOSES: The purposes of this study are to compare macular perimetric sensitivities for conventional size III, frequency-doubling, and Gabor stimuli in terms of Weber contrast and to provide a theoretical interpretation of the results. METHODS: Twenty-two patients with glaucoma performed four perimetric tests: a conventional Swedish Interactive Threshold Algorithm (SITA) 10-2 test with Goldmann size III stimuli, two frequency-doubling tests (FDT 10-2, FDT Macula) with counterphase-modulated grating stimuli, and a laboratory-designed test with Gabor stimuli. Perimetric sensitivities were converted to the reciprocal of Weber contrast and sensitivities from different tests were compared using the Bland-Altman method. Effects of ganglion cell loss on perimetric sensitivities were then simulated with a two-stage neural model. RESULTS: The average perimetric loss was similar for all stimuli until advanced stages of ganglion cell loss, in which perimetric loss tended to be greater for size III stimuli than for frequency-doubling and Gabor stimuli. Comparison of the experimental data and model simulation suggests that, in the macula, linear relations between ganglion cell loss and perimetric sensitivity loss hold for all three stimuli. CONCLUSIONS: Linear relations between perimetric loss and ganglion cell loss for all three stimuli can account for the similarity in perimetric loss until advanced stages. The results do not support the hypothesis that redundancy for frequency-doubling stimuli is lower than redundancy for size III stimuli.
PURPOSES: The purposes of this study are to compare macular perimetric sensitivities for conventional size III, frequency-doubling, and Gabor stimuli in terms of Weber contrast and to provide a theoretical interpretation of the results. METHODS: Twenty-two patients with glaucoma performed four perimetric tests: a conventional Swedish Interactive Threshold Algorithm (SITA) 10-2 test with Goldmann size III stimuli, two frequency-doubling tests (FDT 10-2, FDT Macula) with counterphase-modulated grating stimuli, and a laboratory-designed test with Gabor stimuli. Perimetric sensitivities were converted to the reciprocal of Weber contrast and sensitivities from different tests were compared using the Bland-Altman method. Effects of ganglion cell loss on perimetric sensitivities were then simulated with a two-stage neural model. RESULTS: The average perimetric loss was similar for all stimuli until advanced stages of ganglion cell loss, in which perimetric loss tended to be greater for size III stimuli than for frequency-doubling and Gabor stimuli. Comparison of the experimental data and model simulation suggests that, in the macula, linear relations between ganglion cell loss and perimetric sensitivity loss hold for all three stimuli. CONCLUSIONS: Linear relations between perimetric loss and ganglion cell loss for all three stimuli can account for the similarity in perimetric loss until advanced stages. The results do not support the hypothesis that redundancy for frequency-doubling stimuli is lower than redundancy for size III stimuli.
Authors: Paul H Artes; Donna M Hutchison; Marcelo T Nicolela; Raymond P LeBlanc; Balwantray C Chauhan Journal: Invest Ophthalmol Vis Sci Date: 2005-07 Impact factor: 4.799
Authors: William H Swanson; Mitchell W Dul; Douglas G Horner; Tiffany Liu; Irene Tran Journal: Invest Ophthalmol Vis Sci Date: 2014-01-20 Impact factor: 4.799
Authors: Daniel Meira-Freitas; Andrew J Tatham; Renato Lisboa; Tung-Mei Kuang; Linda M Zangwill; Robert N Weinreb; Christopher A Girkin; Jeffrey M Liebmann; Felipe A Medeiros Journal: Ophthalmology Date: 2013-11-26 Impact factor: 12.079