对生物运动的神经磁皮层反应中的性别差异。

Sex Differences in the Neuromagnetic Cortical Response to Biological Motion.

作者信息

Pavlova Marina A, Sokolov Alexander N, Bidet-Ildei Christel

机构信息

Department of Biomedical Magnetic Resonance, Medical School, Eberhard Karls University of Tübingen, Tübingen, Germany.

Center for Pediatric Clinical Studies (CPCS), Children's Hospital, Medical School, Eberhard Karls University of Tübingen, Tübingen, Germany Centre for Women's Health, Medical School, Eberhard Karls University of Tübingen, Tübingen, Germany.

出版信息

Cereb Cortex. 2015 Oct;25(10):3468-74. doi: 10.1093/cercor/bhu175. Epub 2014 Aug 6.

DOI:10.1093/cercor/bhu175

PMID:25100856

Abstract

Body motion is a rich source of information for social interaction, and visual biological motion processing may be considered as a hallmark of social cognition. It is unclear, however, whether the social brain is sex specific. Here we assess sex impact on the magnetoencephalographic (MEG) cortical response to point-light human locomotion. Sex differences in the cortical MEG response to biological motion occur mostly over the right brain hemisphere. At early latencies, females exhibit a greater activation than males over the right parietal, left temporal, and right temporal cortex, a core of the social brain. At later latencies, the boosts of activation are greater in males over the right frontal and occipital cortices. The findings deliver the first evidence for gender-dependent modes in the time course and topography of the neural circuitry underpinning visual processing of biological motion. The outcome represents a framework for studying sex differences in the social brain in psychiatric and neurodevelopmental disorders.

摘要

身体运动是社交互动中丰富的信息来源，视觉生物运动处理可被视为社会认知的一个标志。然而，尚不清楚社会大脑是否具有性别特异性。在此，我们评估性别对脑磁图（MEG）皮质对光点人体运动反应的影响。皮质MEG对生物运动反应的性别差异主要出现在右脑半球。在早期潜伏期，女性在右顶叶、左颞叶和右颞叶皮质（社会大脑的一个核心区域）的激活程度高于男性。在后期潜伏期，男性在右额叶和枕叶皮质的激活增强更为明显。这些发现首次证明了在支持生物运动视觉处理的神经回路的时间进程和拓扑结构中存在性别依赖模式。这一结果为研究精神疾病和神经发育障碍中社会大脑的性别差异提供了一个框架。

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对生物运动的神经磁皮层反应中的性别差异。

Sex Differences in the Neuromagnetic Cortical Response to Biological Motion.

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