Neural and cortisol responses during play with human and computer partners in children with autism |
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Authors: | Elliot Kale Edmiston Kristen Merkle Blythe A. Corbett |
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Affiliation: | 1Vanderbilt Brain Institute,;2Vanderbilt University Institute of Imaging Science,;3Department of Psychiatry, and;4Department of Psychology, Vanderbilt University, Nashville, TN, USA |
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Abstract: | Children with autism spectrum disorder (ASD) exhibit impairment in reciprocal social interactions, including play, which can manifest as failure to show social preference or discrimination between social and nonsocial stimuli. To explore mechanisms underlying these deficits, we collected salivary cortisol from 42 children 8–12 years with ASD or typical development during a playground interaction with a confederate child. Participants underwent functional MRI during a prisoner’s dilemma game requiring cooperation or defection with a human (confederate) or computer partner. Search region of interest analyses were based on previous research (e.g. insula, amygdala, temporal parietal junction—TPJ). There were significant group differences in neural activation based on partner and response pattern. When playing with a human partner, children with ASD showed limited engagement of a social salience brain circuit during defection. Reduced insula activation during defection in the ASD children relative to TD children, regardless of partner type, was also a prominent finding. Insula and TPJ BOLD during defection was also associated with stress responsivity and behavior in the ASD group under playground conditions. Children with ASD engage social salience networks less than TD children during conditions of social salience, supporting a fundamental disturbance of social engagement. |
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Keywords: | autism, insula social exchange prisoner’ s dilemma fMRI temporal parietal junction |
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