人类大脑皮层感觉运动网络在声音音调反馈控制中的作用。

Human cortical sensorimotor network underlying feedback control of vocal pitch.

机构信息

Department of Neurological Surgery, University of California, San Francisco, CA 94143, USA.

出版信息

Proc Natl Acad Sci U S A. 2013 Feb 12;110(7):2653-8. doi: 10.1073/pnas.1216827110. Epub 2013 Jan 23.

DOI:10.1073/pnas.1216827110

PMID:23345447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3574939/

Abstract

The control of vocalization is critically dependent on auditory feedback. Here, we determined the human peri-Sylvian speech network that mediates feedback control of pitch using direct cortical recordings. Subjects phonated while a real-time signal processor briefly perturbed their output pitch (speak condition). Subjects later heard the same recordings of their auditory feedback (listen condition). In posterior superior temporal gyrus, a proportion of sites had suppressed responses to normal feedback, whereas other spatially independent sites had enhanced responses to altered feedback. Behaviorally, speakers compensated for perturbations by changing their pitch. Single-trial analyses revealed that compensatory vocal changes were predicted by the magnitude of both auditory and subsequent ventral premotor responses to perturbations. Furthermore, sites whose responses to perturbation were enhanced in the speaking condition exhibited stronger correlations with behavior. This sensorimotor cortical network appears to underlie auditory feedback-based control of vocal pitch in humans.

摘要

发声的控制严重依赖于听觉反馈。在这里，我们使用直接皮质记录确定了介导音高反馈控制的人类侧裂周围言语网络。在说话条件下，受试者发声，同时实时信号处理器短暂地扰动他们的输出音高。受试者随后听到他们听觉反馈的相同录音（听条件）。在后上颞叶回中，一部分部位对正常反馈的反应受到抑制，而其他空间独立的部位对改变的反馈的反应增强。行为上，说话者通过改变音高来补偿扰动。单次试验分析表明，听觉和随后腹侧运动前区对扰动的反应的大小都可以预测补偿性的声音变化。此外，在说话条件下，对扰动的反应增强的部位与行为的相关性更强。这个感觉运动皮质网络似乎是人类基于听觉反馈的音高控制的基础。

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