Hasegawa Chiaki, Ikeda Takashi, Yoshimura Yuko, Kumazaki Hirokazu, Saito Daisuke N, Yaoi Ken, An Kyung-Min, Takahashi Tetsuya, Hirata Masayuki, Asada Minoru, Kikuchi Mitsuru
Research Center for Child Mental Development Kanazawa University Kanazawa Japan.
Japan Society for the Promotion of Science Chiyoda-ku Tokyo Japan.
PCN Rep. 2023 Jan 26;2(1):e68. doi: 10.1002/pcn5.68. eCollection 2023 Mar.
This study aimed to investigate gamma oscillations related to face processing of children with autism spectrum disorders and typically developed children using magnetoencephalography.
We developed stimuli that included naturalistic real-time eye-gaze situations between participants and their mothers. Eighteen young children with autism spectrum disorders (62-97 months) and 24 typically developed children (61-79 months) were included. The magnetoencephalography data were analyzed in the bilateral banks of the superior temporal sulcus, fusiform gyrus, and pericalcarine cortex for frequency ranges 30-59 and 61-90 Hz. The gamma oscillation normalized values were calculated to compare the face condition (children gazing at mother's face) and control measurements (baseline) using the following formula: (face - control)/(face + control).
The results revealed significant differences in gamma oscillation normalized values in the low gamma band (30-59 Hz) in the right banks of the superior temporal sulcus, right fusiform gyrus, and right pericalcarine cortex between children with autism spectrum disorders and typically developed children. Furthermore, there were significant differences in gamma oscillation normalized values in the high gamma band (61-90 Hz) in the right banks of the superior temporal sulcus, bilateral fusiform gyrus, and bilateral pericalcarine cortex between the groups.
This report is the first magnetoencephalography study revealing atypical face processing in young children with autism spectrum disorders using relevant stimuli between participants and their mothers. Our naturalistic paradigm provides a useful assessment of social communication traits and a valuable insight into the underlying neural mechanisms in children with autism spectrum disorders.
本研究旨在使用脑磁图研究与自闭症谱系障碍儿童和发育正常儿童面部加工相关的伽马振荡。
我们开发了包含参与者与其母亲之间自然主义实时目光接触情境的刺激。纳入了18名自闭症谱系障碍幼儿(62 - 97个月)和24名发育正常儿童(61 - 79个月)。对颞上沟、梭状回和距状裂周围皮质的双侧脑区在30 - 59赫兹和61 - 90赫兹频率范围内的脑磁图数据进行分析。使用以下公式计算伽马振荡归一化值,以比较面部条件(儿童注视母亲面部)和对照测量值(基线):(面部 - 对照)/(面部 + 对照)。
结果显示,自闭症谱系障碍儿童和发育正常儿童之间,在颞上沟右侧脑区、右侧梭状回和右侧距状裂周围皮质的低伽马波段(30 - 59赫兹),伽马振荡归一化值存在显著差异。此外,两组之间在颞上沟右侧脑区、双侧梭状回和双侧距状裂周围皮质的高伽马波段(61 - 90赫兹),伽马振荡归一化值也存在显著差异。
本报告是第一项使用参与者与其母亲之间的相关刺激,通过脑磁图研究揭示自闭症谱系障碍幼儿面部加工异常的研究。我们的自然主义范式为自闭症谱系障碍儿童的社会沟通特征提供了有用的评估,并为其潜在神经机制提供了有价值的见解。
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