脑功能网络中的图论方法。脑电图研究可能的影响。

Fabrizio De Vico Fallani, Luciano da Fontoura Costa, Francisco Aparecido Rodriguez, Laura Astolfi, Giovanni Vecchiato, Jlenia Toppi, Gianluca Borghini, Febo Cincotti, Donatella Mattia, Serenella Salinari, Roberto Isabella, Fabio Babiloni
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引用次数: 49

摘要

背景:最近,人们意识到通过实际脑成像技术(MEG, fMRI和EEG)估计的功能连接网络可以通过图论来分析,图论是网络的数学表示,本质上是将其简化为节点和节点之间的连接。方法:利用高分辨率脑电技术对头皮脑电活动的空间信息进行增强,并对皮层表面的脑电活动进行测量。之后,我们使用了定向传递函数(DTF),这是一种多变量频谱测量,用于估计多变量数据集中任何给定通道对之间的方向影响。最后,利用图论方法将脑网络建模为图。采用这些方法分析了脊髓损伤组(N=5)和健康组(N=5)在尝试移动瘫痪肢体时的皮质连通性结构。结果:对正常组和脊髓损伤组的皮质网络进行分析发现,两组均存在少量高输出度值的节点(即输出链路)。这一特性在所研究的所有频带估计的网络中都是有效的。特别是,扣带运动区(CMAs)的roi在两组(脊髓损伤组和健康组)中都充当信息流出的“枢纽”。结果还表明,脊髓损伤对运动行为控制的皮层网络的影响主要表现在局部特征上。特别是,SCI患者在theta (3-6 Hz)、alpha (7-12 Hz)和beta (13-29 Hz)三个频段的局部效率El更高。通过考虑不同ROI对之间的所有可能路径,我们能够清楚地将SCI组的网络属性与CTRL组区分开来。特别地,我们报告了SCI患者对Theta (3-6 Hz)频段的一种代偿机制,表明在运动任务期间,皮质网络中更高水平的Omega“激活”。激活指数与扩散直接相关,扩散是一种动态,是几种生物系统的基础,包括神经元激活在几个皮质区域的可能扩散。结论:本研究旨在展示图论方法在脑电信号脑功能连通性分析中的可能应用。特别是,本文强调了i)头皮脑电图信号的皮层活动,ii)功能连接估计,iii)图理论指标的方法学方面,以显示它们在实际应用中的影响。
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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A graph-theoretical approach in brain functional networks. Possible implications in EEG studies.

Background: Recently, it was realized that the functional connectivity networks estimated from actual brain-imaging technologies (MEG, fMRI and EEG) can be analyzed by means of the graph theory, that is a mathematical representation of a network, which is essentially reduced to nodes and connections between them.

Methods: We used high-resolution EEG technology to enhance the poor spatial information of the EEG activity on the scalp and it gives a measure of the electrical activity on the cortical surface. Afterwards, we used the Directed Transfer Function (DTF) that is a multivariate spectral measure for the estimation of the directional influences between any given pair of channels in a multivariate dataset. Finally, a graph theoretical approach was used to model the brain networks as graphs. These methods were used to analyze the structure of cortical connectivity during the attempt to move a paralyzed limb in a group (N=5) of spinal cord injured patients and during the movement execution in a group (N=5) of healthy subjects.

Results: Analysis performed on the cortical networks estimated from the group of normal and SCI patients revealed that both groups present few nodes with a high out-degree value (i.e. outgoing links). This property is valid in the networks estimated for all the frequency bands investigated. In particular, cingulate motor areas (CMAs) ROIs act as ''hubs'' for the out fl ow of information in both groups, SCI and healthy. Results also suggest that spinal cord injuries affect the functional architecture of the cortical network sub-serving the volition of motor acts mainly in its local feature property.In particular, a higher local efficiency El can be observed in the SCI patients for three frequency bands, theta (3-6 Hz), alpha (7-12 Hz) and beta (13-29 Hz).By taking into account all the possible pathways between different ROI couples, we were able to separate clearly the network properties of the SCI group from the CTRL group. In particular, we report a sort of compensatory mechanism in the SCI patients for the Theta (3-6 Hz) frequency band, indicating a higher level of "activation" Omega within the cortical network during the motor task. The activation index is directly related to diffusion, a type of dynamics that underlies several biological systems including possible spreading of neuronal activation across several cortical regions.

Conclusions: The present study aims at demonstrating the possible applications of graph theoretical approaches in the analyses of brain functional connectivity from EEG signals. In particular, the methodological aspects of the i) cortical activity from scalp EEG signals, ii) functional connectivity estimations iii) graph theoretical indexes are emphasized in the present paper to show their impact in a real application.

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