基于脑电图的功能性脑网络:男性和女性的半球差异

IF 1.2 4区数学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Networks and Heterogeneous Media Pub Date : 2015-02-01 DOI:10.3934/NHM.2015.10.223

M. Jalili

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引用次数: 6

摘要

人脑的功能连接可以用脑电图信号表示为一个网络。脑电图时间序列的网络表示是理解脑功能潜在机制的有效工具。脑功能网络的节点是脑区域，边缘对应于脑区域之间的功能连接，用神经生物学上有意义的图论度量来表征。本研究调查了图论度量是性别依赖的程度。为此，我们记录了24名健康女性受试者和21名健康男性受试者在闭眼静息状态下的脑电图。通过关联分析提取连通性矩阵，进一步二值化得到二值泛函网络。作为图论度量，计算了提取的网络的全局和局部效率度量。我们发现，男性大脑在两个半球的各种成本值下，在所有频带上都具有显著更高的全球效率(即网络的全球通信能力)。此外，在成本值范围内，女性大脑的右半球局部效率(即局部连通性)明显高于男性大脑。

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EEG-based functional brain networks: hemispheric differences in males and females

Functional connectivity in human brain can be represented as a network using electroencephalography (EEG) signals. Network representation of EEG time series can be an efficient vehicle to understand the underlying mechanisms of brain function. Brain functional networks whose nodes are brain regions and edges correspond to functional links between them are characterized by neurobiologically meaningful graph theory metrics. This study investigates the degree to which graph theory metrics are sex dependent. To this end, EEGs from 24 healthy female subjects and 21 healthy male subjects were recorded in eyes-closed resting state conditions. The connectivity matrices were extracted using correlation analysis and were further binarized to obtain binary functional networks. Global and local efficiency measures as graph theory metrics were computed for the extracted networks. We found that male brains have significantly greater global efficiency (i.e., global communicability of the network) across all frequency bands for a wide range of cost values in both hemispheres. Furthermore, for a range of cost values, female brains showed significantly greater right-hemispheric local efficiency (i.e., local connectivity) than male brains.

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来源期刊

Networks and Heterogeneous Media 数学-数学跨学科应用

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： NHM offers a strong combination of three features: Interdisciplinary character, specific focus, and deep mathematical content. Also, the journal aims to create a link between the discrete and the continuous communities, which distinguishes it from other journals with strong PDE orientation. NHM publishes original contributions of high quality in networks, heterogeneous media and related fields. NHM is thus devoted to research work on complex media arising in mathematical, physical, engineering, socio-economical and bio-medical problems.