人脑中的控制相关系统。

Control-related systems in the human brain.

机构信息

Department of Neurology, Washington University School of Medicine, USA.

出版信息

Curr Opin Neurobiol. 2013 Apr;23(2):223-8. doi: 10.1016/j.conb.2012.12.009. Epub 2013 Jan 21.

DOI:10.1016/j.conb.2012.12.009

PMID:23347645

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3632325/

Abstract

A fundamental question in cognitive neuroscience is how the human brain self-organizes to perform tasks. Multiple accounts of this self-organization are currently influential and in this article we survey one of these accounts. We begin by introducing a psychological model of task control and several neuroimaging signals it predicts. We then discuss where such signals are found across tasks with emphasis on brain regions where multiple control signals are present. We then present results derived from spontaneous task-free functional connectivity between control-related regions that dovetail with distinctions made by control signals present in these regions, leading to a proposal that there are at least two task control systems in the brain. This prompts consideration of whether and how such control systems distinguish themselves from other brain regions in a whole-brain context. We present evidence from whole-brain networks that such distinctions do occur and that control systems comprise some of the basic system-level organizational elements of the human brain. We close with observations from the whole-brain networks that may suggest parsimony between multiple accounts of cognitive control.

摘要

认知神经科学中的一个基本问题是人类大脑如何自我组织以完成任务。目前有多种关于这种自我组织的解释，本文将对其中一种解释进行综述。我们首先介绍了一种任务控制的心理学模型，以及它所预测的几种神经影像学信号。然后我们讨论了这些信号在不同任务中的位置，重点关注存在多种控制信号的大脑区域。接着我们呈现了源自控制相关区域之间自发的无任务功能连接的结果，这些结果与这些区域中存在的控制信号的区别相一致，这导致了一个假设，即大脑中至少存在两个任务控制系统。这促使我们考虑这些控制系统在全脑背景下是否以及如何与其他大脑区域区分开来。我们从全脑网络中提供了证据，表明确实存在这种区分，并且控制系统构成了人类大脑基本的系统水平组织元素的一部分。最后，我们从全脑网络中观察到的结果可能表明认知控制的多种解释之间存在简约性。

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