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WLPVG 方法在手针刺激下分析基于脑电的功能脑网络。

WLPVG approach to the analysis of EEG-based functional brain network under manual acupuncture.

机构信息

School of Electrical Engineering and Automation, Tianjin University, Tianjin, 300072 China.

出版信息

Cogn Neurodyn. 2014 Oct;8(5):417-28. doi: 10.1007/s11571-014-9297-x. Epub 2014 Jun 3.

DOI:10.1007/s11571-014-9297-x
PMID:25206935
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4155065/
Abstract

Functional brain network, one of the main methods for brain functional studies, can provide the connectivity information among brain regions. In this research, EEG-based functional brain network is built and analyzed through a new wavelet limited penetrable visibility graph (WLPVG) approach. This approach first decompose EEG into δ, θ, α, β sub-bands, then extracting nonlinear features from single channel signal, in addition forming a functional brain network for each sub-band. Manual acupuncture (MA) as a stimulation to the human nerve system, may evoke varied modulating effects in brain activities. To investigating whether and how this happens, WLPVG approach is used to analyze the EEGs of 15 healthy subjects with MA at acupoint ST36 on the right leg. It is found that MA can influence the complexity of EEG sub-bands in different ways and lead the functional brain networks to obtain higher efficiency and stronger small-world property compared with pre-acupuncture control state.

摘要

功能脑网络是脑功能研究的主要方法之一,它可以提供脑区之间的连通信息。在这项研究中,通过一种新的基于脑电的小波有限穿透可视性图(WLPVG)方法构建和分析功能脑网络。该方法首先将脑电分解为 δ、θ、α、β子带,然后从单通道信号中提取非线性特征,为每个子带形成一个功能脑网络。手动针刺(MA)作为对人体神经系统的刺激,可能会在大脑活动中引起不同的调节作用。为了研究是否以及如何发生这种情况,我们使用 WLPVG 方法分析了 15 名健康受试者右腿 ST36 穴位进行 MA 刺激时的脑电。研究发现,MA 可以以不同的方式影响 EEG 子带的复杂性,并使功能脑网络相对于针刺前的对照状态获得更高的效率和更强的小世界特性。

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