Journal article
Scaling the size of perimetric stimuli reduces variability and returns constant thresholds across the visual field
P Bedggood, SM Prea, YXG Kong, AJ Vingrys
Journal of Vision | Published : 2021
DOI: 10.1167/jov.21.11.2
Abstract
The conventional stimulus for standard automated perimetry is fixed in size, giving elevated contrast thresholds and reduced test reliability in the periphery. Here, we test the hypothesis that appropriate scaling of the size of perimetric stimuli will return fixed thresholds and reduced variability across the visual field.We derived frequency-of-seeing (FOS) curves in five healthy subjects at central (3 degrees) and peripheral (27 degrees) locations with a method of constant stimuli (MOCS) using a desktop LCD display. FOS curves for a Goldmann III (GIII) stimulus were compared with those for size scaled spots. To consider clinical translation, we tested a further five healthy subjects (22–2..
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Awarded by Glaucoma Australia
Funding Acknowledgements
Supported by Australian Research Council DP180103393 (to P.B.), Ophthalmic Research Institute of Australia grant (to G.K. and A.V.), Glaucoma Australia Research Grant (to G.K. and A.V.), and Royal Victorian Eye and Ear Hospital Early Career Research Grant (to G.K.).