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Brain Topography
Published in: Brain Topography 2/2009

01-09-2009 | Original Paper

Detecting Functional Connectivity in fMRI Using PCA and Regression Analysis

Authors: Yuan Zhong, Huinan Wang, Guangming Lu, Zhiqiang Zhang, Qing Jiao, Yijun Liu

Published in: Brain Topography | Issue 2/2009

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Abstract

A fMRI connectivity analysis approach combining principal component analysis (PCA) and regression analysis is proposed to detect functional connectivity between the brain regions. By first using PCA to identify clusters within the vectors of fMRI time series, more energy and information features in the signal can be maintained than using averaged values from brain regions of interest. Then, regression analysis can be applied to the extracted principal components in order to further investigate functional connectivity. Finally, t-test is applied and the patterns with t-values lager than a threshold are considered as functional connectivity mappings. The validity and reliability of the presented method were demonstrated with both simulated data and human fMRI data obtained during behavioral task and resting state. Compared to the conventional functional connectivity methods such as average signal based correlation analysis, independent component analysis (ICA) and PCA, the proposed method achieves competitive performance with greater accuracy and true positive rate (TPR). Furthermore, the ‘default mode’ and motor network results of resting-state fMRI data indicate that using PCA may improve upon application of existing regression analysis methods in study of human brain functional connectivity.
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Metadata
Title
Detecting Functional Connectivity in fMRI Using PCA and Regression Analysis
Authors
Yuan Zhong
Huinan Wang
Guangming Lu
Zhiqiang Zhang
Qing Jiao
Yijun Liu
Publication date
01-09-2009
Publisher
Springer US
Published in
Brain Topography / Issue 2/2009
Print ISSN: 0896-0267
Electronic ISSN: 1573-6792
DOI
https://doi.org/10.1007/s10548-009-0095-4

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