Classification of major depression disorder via using minimum spanning tree of individual high-order morphological brain network

Major depressive disorder (MDD) is an overbroad and heterogeneous diagnosis with no reliable or quantifiable markers. We aim to combine machine-learning techniques with the individual minimum spanning tree of the morphological brain network (MST-MBN) to determine whether the network properties can p...

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Bibliographic Details
Published in:Journal of affective disorders 2023-02, Vol.323, p.10-20
Main Authors: Li, Yuna, Chu, Tongpeng, Liu, Yaou, Zhang, Haicheng, Dong, Fanghui, Gai, Qun, Shi, Yinghong, Ma, Heng, Zhao, Feng, Che, Kaili, Mao, Ning, Xie, Haizhu
Format: Article
Language:English
Subjects:
Brain - diagnostic imaging
Brain Mapping - methods
Classification
Depression
Depressive Disorder, Major - diagnostic imaging
High-order
Humans
Magnetic Resonance Imaging - methods
Major depressive disorder
Minimum spanning tree
Morphological brain network
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Summary:Major depressive disorder (MDD) is an overbroad and heterogeneous diagnosis with no reliable or quantifiable markers. We aim to combine machine-learning techniques with the individual minimum spanning tree of the morphological brain network (MST-MBN) to determine whether the network properties can provide neuroimaging biomarkers to identify patients with MDD. Eight morphometric features of each region of interest (ROI) were extracted from 3D T1 structural images of 106 patients with MDD and 97 healthy controls. Six feature distances of the eight morphometric features were calculated to generate a feature distance matrix, which was defined as low-order MBN. Further linear correlations of feature distances between ROIs were calculated on the basis of low-order MBN to generate individual high-order MBN. The Kruskal's algorithm was used to generate the MST to obtain the core framework of individual low-order and high-order MBN. The regional and global properties of the individual MSTs were defined as the feature. The support vector machine and back-propagation neural network was used to diagnose MDD and assess its severity, respectively. The low-order and high-order MST-MBN constructed by cityblock distance had the excellent classification performance. The high-order MST-MBN significantly improved almost 20 % diagnostic accuracy compared with the low-order MST-MBN, and had a maximum R2 value of 0.939 between the predictive and true Hamilton Depression Scale score. The different group-level connectivity strength mainly involves the central executive network and default mode network (no statistical significance after FDR correction). We proposed an innovative individual high-order MST-MBN to capture the cortical high-order morphological correlation and make an excellent performance for individualized diagnosis and assessment of MDD. •We construct the individual low-order and high-order morphological brain network (MBN) of MDD patients.•The minimum spanning tree method is used to describe the frame of the low-order and high-order MBNs.•The topological organization is different between low-order and high-order MBNs.•High-order MBN contains richer information than low-order MBN that can be used to diagnose and access MDD.
ISSN:0165-0327
1573-2517
DOI:10.1016/j.jad.2022.11.029