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Severely Attenuated Visual Feedback Processing in Children on the Autism Spectrum

Authors :
Emily J. Knight
Edward G. Freedman
Evan J. Myers
Alaina S. Berruti
Leona A. Oakes
Cody Zhewei Cao
Sophie Molholm
John J. Foxe
Source :
The Journal of Neuroscience. 43:2424-2438
Publication Year :
2023
Publisher :
Society for Neuroscience, 2023.

Abstract

Individuals on the autism spectrum often exhibit atypicality in their sensory perception, but the neural underpinnings of these perceptual differences remain incompletely understood. One proposed mechanism is an imbalance in higher-order feedback re-entrant inputs to early sensory cortices during sensory perception, leading to increased propensity to focus on local object features over global context. We explored this theory by measuring visual evoked potentials during contour integration as considerable work has revealed that these processes are largely driven by feedback inputs from higher-order ventral visual stream regions. We tested the hypothesis that autistic individuals would have attenuated evoked responses to illusory contours compared with neurotypical controls. Electrophysiology was acquired while 29 autistic and 31 neurotypical children (7-17 years old, inclusive of both males and females) passively viewed a random series of Kanizsa figure stimuli, each consisting of four inducers that were aligned either at random rotational angles or such that contour integration would form an illusory square. Autistic children demonstrated attenuated automatic contour integration over lateral occipital regions relative to neurotypical controls. The data are discussed in terms of the role of predictive feedback processes on perception of global stimulus features and the notion that weakened “priors” may play a role in the visual processing anomalies seen in autism.SIGNIFICANCE STATEMENTChildren on the autism spectrum differ from typically developing children in many aspects of their processing of sensory stimuli. One proposed mechanism for these differences is an imbalance in higher-order feedback to primary sensory regions, leading to an increased focus on local object features rather than global context. However, systematic investigation of these feedback mechanisms remains limited. Using EEG and a visual illusion paradigm that is highly dependent on intact feedback processing, we demonstrated significant disruptions to visual feedback processing in children with autism. This provides much needed experimental evidence that advances our understanding of the contribution of feedback processing to visual perception in autism spectrum disorder.

Subjects

Subjects :
General Neuroscience

Details

ISSN :
15292401 and 02706474
Volume :
43
Database :
OpenAIRE
Journal :
The Journal of Neuroscience
Accession number :
edsair.doi...........334780adba0afcaa568677f7369e48fe
Full Text :
https://doi.org/10.1523/jneurosci.1192-22.2023