Fixation-related saccadic inhibition in free viewing in response to stimulus saliency

Fixation-related saccadic inhibition in free viewing in response to stimulus saliency

Microsaccades that occur during fixation were studied extensively in response to transient stimuli, showing a typical inhibition (Oculomotor Inhibition, OMI), and a later release with a latency that depends on stimulus saliency, attention, and expectations. Here, we investigated the hypothesis that...

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Bibliographic Details
Published in:Scientific reports Vol. 12; no. 1; p. 6619
Main Authors: Kadosh, Oren, Bonneh, Yoram S.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 22-04-2022
Nature Publishing Group
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Subjects:
631/378/2613
631/378/2617/1795
Attention - physiology
Data analysis
Experiments
Eye movements
Fixation, Ocular
Frequency dependence
Humanities and Social Sciences
Humans
Hypotheses
Inhibition, Psychological
Latency
Males
multidisciplinary
Photic Stimulation
Saccades
Saccadic eye movements
Science
Science (multidisciplinary)
Velocity
Vision, Ocular
Visual Perception - physiology
Visual stimuli
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Summary:Microsaccades that occur during fixation were studied extensively in response to transient stimuli, showing a typical inhibition (Oculomotor Inhibition, OMI), and a later release with a latency that depends on stimulus saliency, attention, and expectations. Here, we investigated the hypothesis that in free viewing every saccade provides a new transient stimulation that should result in a stimulus-dependent OMI like a flashed presentation during fixation. Participants (N = 16) freely inspected static displays of randomly oriented Gabor texture images, with varied contrast and spatial frequency (SF) for periods of 10 s each. Eye tracking recordings were divided into epochs triggered by saccade landing (> 1 dva), and microsaccade latency relative to fixation onset was computed (msRT). We found that the msRT in free viewing was shorter for more salient stimuli (higher contrast or lower SF), as previously found for flashed stimuli. It increased with saccade size and decreased across successive saccades, but only for higher contrast, suggesting contrast-dependent repetition enhancement in free viewing. Our results indicate that visual stimulus-dependent inhibition of microsaccades also applies to free viewing. These findings are in agreement with the similarity found between event-related and fixation-related potentials and open the way for studies combining both approaches to study natural vision.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-022-10605-1