2026-07-13 スタンフォード大学
<関連情報>
- https://news.stanford.edu/stories/2026/07/autistic-teens-brain-response-unfamiliar-voices
- https://www.pnas.org/doi/10.1073/pnas.2601227123
音声報酬回路の発達上の違いが、自閉症児と定型発達児・青年を区別する要因となっている Developmental divergence in voice–reward circuitry differentiates autistic from typically developing children and adolescents
Daniel A. Abrams, Simon Leipold, Paola Odriozola, +3 , and Vinod Menon
Proceedings of the National Academy of Sciences Published:July 13, 2026
DOI:https://doi.org/10.1073/pnas.2601227123
Abstract
Adolescence is a period of profound social change marked by a developmental shift in attention and motivation from parents toward nonfamilial peers. Autism is a neurodevelopmental condition characterized by lifelong challenges in social communication. However, the neurobiological signatures of adolescent social reorientation in autism are poorly understood. Human voice processing is a primary driver of social learning and communication, but it remains understudied in the autism literature, particularly as it relates to neurodevelopmental change. Here we used functional brain imaging of voice processing in children and adolescents with autism and matched controls (ages 7 to 17) to examine neural responses to mother’s voice and nonfamilial voices. We identified divergent age-related patterns in autism across reward, salience, social evaluative, and frontoparietal processing regions consistent with models of an extended voice processing network. Results showed that while typically developing participants exhibited age-related increases in neural activity and connectivity within regions of the voice processing network, individuals with autism showed no age-related increases, and often decreases, in these regions. Adolescents with autism further revealed a reversal of the characteristic developmental pattern: with increasing age, they exhibited decreasing neural engagement with nonfamilial voices and increasing engagement with mother’s voice, a pattern that was most pronounced in individuals with more severe social communication challenges. Findings suggest that disrupted organization of the extended voice processing network, including reward, salience, social evaluative, and frontoparietal circuitry, may underlie atypical social neurodevelopment in autism. More broadly, results suggest that individual differences in social communication shape age-related neural patterns supporting social reorientation.

