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Individuals with autism spectrum disorder have altered visual encoding capacity

Jean‐Paul Noel, Ling-Qi Zhang, Alan A. Stocker, Dora E. Angelaki

2021PLoS Biology120 citationsDOIOpen Access PDF

Abstract

Perceptual anomalies in individuals with autism spectrum disorder (ASD) have been attributed to an imbalance in weighting incoming sensory evidence with prior knowledge when interpreting sensory information. Here, we show that sensory encoding and how it adapts to changing stimulus statistics during feedback also characteristically differs between neurotypical and ASD groups. In a visual orientation estimation task, we extracted the accuracy of sensory encoding from psychophysical data by using an information theoretic measure. Initially, sensory representations in both groups reflected the statistics of visual orientations in natural scenes, but encoding capacity was overall lower in the ASD group. Exposure to an artificial (i.e., uniform) distribution of visual orientations coupled with performance feedback altered the sensory representations of the neurotypical group toward the novel experimental statistics, while also increasing their total encoding capacity. In contrast, neither total encoding capacity nor its allocation significantly changed in the ASD group. Across both groups, the degree of adaptation was correlated with participants' initial encoding capacity. These findings highlight substantial deficits in sensory encoding-independent from and potentially in addition to deficits in decoding-in individuals with ASD.

Topics & Concepts

NeurotypicalSensory systemAutism spectrum disorderPerceptionEncoding (memory)Visual perceptionBiologyStimulus (psychology)WeightingCognitive psychologyAutismPsychologyNeuroscienceDevelopmental psychologyMedicineRadiologyAutism Spectrum Disorder ResearchTactile and Sensory InteractionsVisual perception and processing mechanisms
Individuals with autism spectrum disorder have altered visual encoding capacity | Litcius