脑电图（EEG）和脑磁图（MEG）：与神经科学的相关性。

EEG and MEG: relevance to neuroscience.

机构信息

Center of Neuroscience, Swammerdam Institute for Life Sciences, Science Park 904, Kamer C3.274, 1098XH Amsterdam, the Netherlands; Instituto Superior Técnico, University of Lisbon, 1049-001 Lisbon, Portugal.

出版信息

Neuron. 2013 Dec 4;80(5):1112-28. doi: 10.1016/j.neuron.2013.10.017.

DOI:10.1016/j.neuron.2013.10.017

PMID:24314724

Abstract

To understand dynamic cognitive processes, the high time resolution of EEG/MEG is invaluable. EEG/MEG signals can play an important role in providing measures of functional and effective connectivity in the brain. After a brief description of the foundations and basic methodological aspects of EEG/MEG signals, the relevance of the signals to obtain novel insights into the neuronal mechanisms underlying cognitive processes is surveyed, with emphasis on neuronal oscillations (ultra-slow, theta, alpha, beta, gamma, and HFOs) and combinations of oscillations. Three main functional roles of brain oscillations are put in evidence: (1) coding specific information, (2) setting and modulating brain attentional states, and (3) assuring the communication between neuronal populations such that specific dynamic workspaces may be created. The latter form the material core of cognitive functions.

摘要

要理解动态认知过程，EEG/MEG 的高时间分辨率是非常宝贵的。EEG/MEG 信号在提供大脑功能和有效连接的测量方面可以发挥重要作用。在简要描述 EEG/MEG 信号的基础和基本方法学方面之后，调查了信号对于获得对认知过程背后的神经元机制的新见解的相关性，重点是神经元振荡（超慢、θ、α、β、γ 和 HFOs）和振荡的组合。突出了脑振荡的三个主要功能作用：（1）编码特定信息，（2）设置和调节大脑注意状态，（3）确保神经元群体之间的通信，从而可以创建特定的动态工作空间。后者构成了认知功能的物质核心。

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脑电图（EEG）和脑磁图（MEG）：与神经科学的相关性。

EEG and MEG: relevance to neuroscience.

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