Enhanced and diminished visuo-spatial information processing in autism depends on stimulus complexity
Autor: | Laurent Mottron, Jocelyn Faubert, Patricia Jelenic, Armando Bertone |
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Rok vydání: | 2005 |
Předmět: |
Adult
Visual perception Adolescent genetic structures Stimulus (physiology) behavioral disciplines and activities Spatial memory Retina Contrast Sensitivity Flicker Fusion Discrimination Psychological Thalamus Parvocellular cell Lateral inhibition Orientation Neural Pathways Psychophysics medicine Humans Motion perception Autistic Disorder Child Information processing medicine.disease Visual Perception Autism Neurology (clinical) Nerve Net Psychology Photic Stimulation psychological phenomena and processes Cognitive psychology |
Zdroj: | Brain. 128:2430-2441 |
ISSN: | 1460-2156 0006-8950 |
DOI: | 10.1093/brain/awh561 |
Popis: | Visuo-perceptual processing in autism is characterized by intact or enhanced performance on static spatial tasks and inferior performance on dynamic tasks, suggesting a deficit of dorsal visual stream processing in autism. However, previous findings by Bertone et al. indicate that neuro-integrative mechanisms used to detect complex motion, rather than motion perception per se, may be impaired in autism. We present here the first demonstration of concurrent enhanced and decreased performance in autism on the same visuo-spatial static task, wherein the only factor dichotomizing performance was the neural complexity required to discriminate grating orientation. The ability of persons with autism was found to be superior for identifying the orientation of simple, luminance-defined (or first-order) gratings but inferior for complex, texture-defined (or second-order) gratings. Using a flicker contrast sensitivity task, we demonstrated that this finding is probably not due to abnormal information processing at a sub-cortical level (magnocellular and parvocellular functioning). Together, these findings are interpreted as a clear indication of altered low-level perceptual information processing in autism, and confirm that the deficits and assets observed in autistic visual perception are contingent on the complexity of the neural network required to process a given type of visual stimulus. We suggest that atypical neural connectivity, resulting in enhanced lateral inhibition, may account for both enhanced and decreased low-level information processing in autism. |
Databáze: | OpenAIRE |
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