Graph Theoretical Analysis of Interictal EEG Data in Epilepsy Patients during Epileptiform Discharge and Non-discharge

IF 0.4 Q4 ENGINEERING, INDUSTRIAL

International Journal of Affective Engineering Pub Date : 2021-01-01 DOI:10.5057/IJAE.IJAE-D-20-00026

S. M. Carpels, Yusuke Yamamoto, Y. Mizuno-Matsumoto

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引用次数: 2

Abstract

: Graph theoretical analysis has recently been used to study brain function. This study aims to compare the functional brain networks derived from electroencephalography (EEG) of 10 patients suffering from epilepsy with 10 healthy subjects based on graph theory. Five epochs per healthy subject, and ten epochs (during epileptiform discharge and non-discharge) per patient were selected and analyzed using wavelet–crosscorrelation analysis. The clustering coefficient, characteristic path length, small-worldness, and nodal betweenness centrality were calculated using graph analysis. The results showed that in the patients, Wavelet-crosscorrelation Coefficients (WCC) were significantly higher, and clustering and path length were significantly lower during discharge compared with the healthy subjects, along with alterations in the hub regions. These results suggest a loss of small-world topology in the functional brain network of epilepsy patients. A loss of small-world topology was found even during non-discharge, therefore network indices might aid to distinguish epilepsy patients from healthy individuals.

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癫痫样出院与非出院时癫痫患者间期脑电图数据的图论分析

图论分析最近被用于研究脑功能。本研究旨在比较10例癫痫患者与10例健康受试者的脑电图(EEG)功能网络。每名健康受试者5个时段，每名患者10个时段(癫痫样出院和非出院)，采用小波相关分析进行分析。利用图分析计算聚类系数、特征路径长度、小世界性和节点间中心性。结果表明，患者出院时的小波互相关系数(WCC)显著高于健康者，聚类和路径长度显著低于健康者，且中枢区域发生改变。这些结果表明癫痫患者的功能性脑网络中小世界拓扑结构的缺失。即使在非出院期间也发现小世界拓扑结构的丢失，因此网络指标可能有助于区分癫痫患者和健康个体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Affective Engineering ENGINEERING, INDUSTRIAL-

自引率

33.30%

发文量