Abstract
Recently, the dimensional approach has attracted much attention, bringing a paradigm shift to a continuum of understanding of different psychiatric disorders. In line with this new paradigm, we examined whether there was common functional connectivity related to various psychiatric disorders in an unsupervised manner without explicitly using diagnostic label information. To this end, we uniquely applied a newly developed network-based multiple clustering method to resting-state functional connectivity data, which allowed us to identify pairs of relevant brain subnetworks and subject cluster solutions accordingly. Thus, we identified four subject clusters, which were characterized as major depressive disorder (MDD), young healthy control (young HC), schizophrenia (SCZ)/bipolar disorder (BD), and autism spectrum disorder (ASD), respectively, with the relevant brain subnetwork represented by the cerebellum-thalamus-pallidum-temporal circuit. The clustering results were validated using independent datasets. This study is the first cross-disorder analysis in the framework of unsupervised learning of functional connectivity based on a data-driven brain subnetwork.
Highlights
Abnormal functional connectivity (FC) in the brain has been extensively studied for a better understanding of psychiatric disorders [1,2,3]
A meta-analysis focusing on the default mode network (DMN) [6] suggests that the DMN is a consistent biological correlate of various psychiatric disorders, including major depressive disorder (MDD), bipolar disorder (BD), and schizophrenia (SCZ)
The ROI-based multiple clustering method revealed four clusters in view 4 of the UTO data that were characterized by psychiatric disorders: cluster 1 by MDD, cluster 2 by young healthy control (HC), cluster 3 by SCZ/BD, and cluster 4 by autism spectrum disorder (ASD)
Summary
Abnormal functional connectivity (FC) in the brain has been extensively studied for a better understanding of psychiatric disorders [1,2,3]. An FC study focuses on a particular psychiatric disorder, and reports the brain regions related to abnormal FC for psychiatric disorders The results of these individual studies are not necessarily consistent, even for the same psychiatric disorder [4, 5]. A large sample study by [8] showed that shared connectomic abnormalities among MDD, BD, and SCZ are bilateral thalamus, cerebellum, frontal pole, supramarginal gyrus, postcentral gyrus, lingual gyrus, lateral occipital cortex, and parahippocampus. Another recent large sample study by [9] showed that the common abnormality
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