A common feature of autism spectrum disorder, ASD, is reduced eye contact with others in natural conditions. Although eye contact is a critically important part of everyday interactions, scientists have been limited in studying the neurological basis of live social interaction with eye contact in ASD because of the inability to image the brains of two people simultaneously.
However, using an innovative technology that enables imaging of two individuals during live and natural conditions, the researchers have identified specific brain areas in the dorsal parietal region of the brain associated with the social symptomatology of autism.
The study in the journal PLOS ONE finds that these neural responses to live face and eye contact may provide a biological index relevant to clinical classification and assessment of autism.
“Our brains are hungry for information about other people, and we need to understand how these social mechanisms operate in the context of a real and interactive world in both typically developed individuals as well as individuals with ASD,” says co-corresponding author Joy Hirsch, professor of psychiatry, comparative medicine, and of neuroscience at Yale University.
The researchers, led by Hirsch and James McPartland, a professor at the Yale Child Study Center, analyzed brain activity during brief social interactions between pairs of adults—each including a typical participant and one with ASD—using functional near-infrared spectroscopy, a non-invasive optical neuroimaging method.
Both participants were fitted with caps with many sensors that emitted light into the brain and also recorded changes in light signals with information about brain activity during face gaze and eye-to-eye contact.
The investigators found that during eye contact, participants with ASD had significantly reduced activity in the dorsal parietal cortex compared to those without ASD.
Further, social features of ASD, as measured by ADOS (Autism Diagnostic Observation Schedule, 2nd Edition) scores, were associated with activity in this brain region. Neural activity in these regions was synchronous between typical participants during real eye-to-eye contact but not during gaze at a video face. This expected increase in neural coupling was not observed in ASD, and is consistent with the differences in social interactions.
“We now not only have a better understanding of the neurobiology of autism and social differences, but also of the underlying neural mechanisms that drive typical social connections,” Hirsch says.
Source: Yale University
Original Study DOI: 10.1371/journal.pone.0265798
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