Saccades during visual search in macular degeneration

•Macular degeneration (MD) impacts eye movements during visual search.•Eye movements in MD preferentially go toward the region of field loss (scotoma).•Saccades toward the scotoma have smaller amplitude than those to visible regions.•Saccades often go backward to scotoma regions uncovered by the pre...

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Bibliographic Details
Published in:Vision research (Oxford) 2022-12, Vol.201, p.108113-108113, Article 108113
Main Authors: Vullings, Cécile, Lively, Zachary, Verghese, Preeti
Format: Article
Language:English
Subjects:
Backward/regressive saccade
Binocular scotoma
Eye Movements
Humans
Macular Degeneration
Retina
Saccades
Scotoma
Visual search
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Summary:•Macular degeneration (MD) impacts eye movements during visual search.•Eye movements in MD preferentially go toward the region of field loss (scotoma).•Saccades toward the scotoma have smaller amplitude than those to visible regions.•Saccades often go backward to scotoma regions uncovered by the preceding saccade. Macular degeneration (MD) compromises both high-acuity vision and eye movements when the foveal regions of both eyes are affected. Individuals with MD adapt to central field loss by adopting a preferred retinal locus (PRL) for fixation. Here, we investigate how individuals with bilateral MD use eye movements to search for targets in a visual scene under realistic binocular viewing conditions. Five individuals with binocular scotomata, 3 individuals with monocular scotomata and 6 age-matched controls participated in our study. We first extensively mapped the binocular scotoma with an eyetracker, while fixation was carefully monitored (Vullings & Verghese, 2020). Participants then completed a visual search task where 0, 1, or 2 Gaussian blobs were distributed randomly across a natural scene. Participants were given 10 s to actively search the display and report the number of blobs. An analysis of saccade characteristics showed that individuals with binocular scotomata made more saccades in the direction of their scotoma than controls for the same directions. Saccades in the direction of the scotoma were typically of small amplitude, and did not fully uncover the region previously hidden by the scotoma. Rather than make more saccades to explore this hidden region, participants frequently made saccades back toward newly uncovered regions. Backward saccades likely serve a similar purpose to regressive saccades exhibited during reading in MD, by inspecting previously covered regions near the direction of gaze. Our analysis suggests that the higher prevalence of backward saccades in individuals with binocular scotomata might be related to the PRL being adjacent to the scotoma.
ISSN:0042-6989
1878-5646
DOI:10.1016/j.visres.2022.108113