人类言语中的一种伴随放电回路。

A corollary discharge circuit in human speech.

作者信息

Khalilian-Gourtani Amirhossein, Wang Ran, Chen Xupeng, Yu Leyao, Dugan Patricia, Friedman Daniel, Doyle Werner, Devinsky Orrin, Wang Yao, Flinker Adeen

机构信息

Neurology Department, New York University, New York, NY 10016.

Electrical and Computer Engineering Department, New York University, Brooklyn, NY 11201.

出版信息

Proc Natl Acad Sci U S A. 2024 Dec 10;121(50):e2404121121. doi: 10.1073/pnas.2404121121. Epub 2024 Dec 3.

DOI:10.1073/pnas.2404121121

PMID:39625978

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11648673/

Abstract

When we vocalize, our brain distinguishes self-generated sounds from external ones. A corollary discharge signal supports this function in animals; however, in humans, its exact origin and temporal dynamics remain unknown. We report electrocorticographic recordings in neurosurgical patients and a connectivity analysis framework based on Granger causality that reveals major neural communications. We find a reproducible source for corollary discharge across multiple speech production paradigms localized to the ventral speech motor cortex before speech articulation. The uncovered discharge predicts the degree of auditory cortex suppression during speech, its well-documented consequence. These results reveal the human corollary discharge source and timing with far-reaching implication for speech motor-control as well as auditory hallucinations in human psychosis.

摘要

当我们发声时，大脑会区分自身产生的声音和外部声音。在动物中，一种伴随放电信号支持这一功能；然而，在人类中，其确切来源和时间动态仍不清楚。我们报告了对神经外科患者的皮质电图记录以及基于格兰杰因果关系的连通性分析框架，该框架揭示了主要的神经通信。我们发现，在多种言语产生范式中，伴随放电有一个可重复的来源，其位于言语发音前的腹侧言语运动皮层。所发现的放电可预测言语过程中听觉皮层受抑制的程度，这是一个有充分记录的结果。这些结果揭示了人类伴随放电的来源和时间，对言语运动控制以及人类精神病中的幻听具有深远意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/930e/11648673/ba4955e1103d/pnas.2404121121fig01.jpg

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人类言语中的一种伴随放电回路。

A corollary discharge circuit in human speech.

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