Author(s)

Chengcheng Wang¹, Haimei Wang¹, Yifan Qiao², Yining Zhang^1*

¹School of Mathematics Science, Liaocheng University, Liaocheng, China.
²International Center, Jinan Foreign Language School, Jinan, China.

Purpose: Brain functional networks (BFNs) has become important approach for diagnosis of some neurological or psychological disorders. Before estimating BFN, obtaining blood oxygen level dependent (BOLD) representative signals from brain regions of interest (ROIs) is important. In the past decades, the common method is generally to take a ROI as a node, averaging all the voxel time series inside it to extract a representative signal. However, one node does not represent the entire information of this ROI, and averaging method often leads to signal cancellation and information loss. Inspired by this, we propose a novel model extraction method based on an assumption that a ROI can be represented by multiple nodes. Methods: In this paper, we first extract multiple nodes (the number is user-defined) from the ROI based on two traditional methods, including principal component analysis (PCA), and K-means (Clustering according to the spatial position of voxels). Then, canonical correlation analysis (CCA) was issued to construct BFNs by maximizing the correlation between the representative signals corresponding to the nodes in any two ROIs. Finally, to further verify the effectiveness of the proposed method, the estimated BFNs are applied to identify subjects with autism spectrum disorder (ASD) and mild cognitive impairment (MCI) from health controls (HCs). Results: Experimental results on two benchmark databases demonstrate that the proposed method outperforms the baseline method in the sense of classification performance. Conclusions: We propose a novel method for obtaining nodes of ROId based on the hypothesis that a ROI can be represented by multiple nodes, that is, to extract the node signals of ROIs with K-means or PCA. Then, CCA is used to construct BFNs.

Brain Functional Network, Node Selection, Pearson’s Correlation, Canonical Correlation Analysis, Brain Disorder Classification

Wang, C. , Wang, H. , Qiao, Y. and Zhang, Y. (2022) Extracting Multiple Nodes in a Brain Region of Interest for Brain Functional Network Estimation and Classification. Journal of Applied Mathematics and Physics, 10, 3408-3423. doi: 10.4236/jamp.2022.1011226.