Time varying analysis of dynamic resting-state functional brain network to unfold memory function

Tahmineh Azizi
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Abstract

Recent advances in brain network analysis are largely based on graph theory methods to assess brain network organization, function, and malfunction. Although, functional magnetic resonance imaging (fMRI) has been frequently used to study brain activity, however, the nonlinear dynamics in resting-state (fMRI) data have not been extensively characterized. In this work, we aim to model the dynamics of resting-state (fMRI) and characterize the dynamical patterns in resting-state (fMRI) time series data in left and right hippocampus and inferior frontal gyrus. We use Sliding Window Embedding (SWE) method to reconstruct the phase space of resting-state (fMRI) data from left and right hippocampus and orbital part of inferior frontal gyrus. The complexity of resting-state MRI data is examined using fractal analysis. The main purpose of the current study is to explore the topological organization of hippocampus and frontal gyrus and consequently, memory. By constructing resting-state functional network from resting-state (fMRI) time series data, we are able to draw a big picture of how brain functions and step forward to classify brain activity between normal control people and patients with different brain disorders.

动态静息状态功能脑网络的时变分析揭示记忆功能
脑网络分析的最新进展主要基于图论方法来评估脑网络的组织、功能和故障。虽然功能磁共振成像(fMRI)已被广泛用于研究大脑活动,但静息状态下的非线性动力学(fMRI)数据尚未得到广泛的表征。在这项工作中,我们旨在建立静息状态(fMRI)的动力学模型,并表征左、右海马和额下回静息状态(fMRI)时间序列数据的动态模式。采用滑动窗口嵌入(SWE)方法重构了左右海马和额下回眶部静息态(fMRI)数据的相空间。利用分形分析对静息状态MRI数据的复杂性进行了分析。本研究的主要目的是探索海马和额回的拓扑组织,从而探索记忆。通过静息状态(fMRI)时间序列数据构建静息状态功能网络,我们能够描绘出大脑功能的全貌,并进一步对正常对照者和不同脑疾病患者的大脑活动进行分类。
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
Neuroscience informatics
Neuroscience informatics Surgery, Radiology and Imaging, Information Systems, Neurology, Artificial Intelligence, Computer Science Applications, Signal Processing, Critical Care and Intensive Care Medicine, Health Informatics, Clinical Neurology, Pathology and Medical Technology
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