Litcius/Paper detail

Unraveling schizophrenia replicable functional connectivity disruption patterns across sites

Xiaotong Du, Xiaotong Wei, Hao Ding, Ying Yu, Yingying Xie, Yi Ji, Yu Zhang, Chao Chai, Meng Liang, Jie Li, Chuanjun Zhuo, Chunshui Yu, Wen Qin

2022Human Brain Mapping18 citationsDOIOpen Access PDF

Abstract

Functional connectivity (FC) disruption is a remarkable characteristic of schizophrenia. However, heterogeneous patterns reported across sites severely hindered its clinical generalization. Based on qualified nodal-based FC of 340 schizophrenia patients (SZ) and 348 normal controls (NC) acquired from seven different scanners, this study compared four commonly used site-effect correction methods in removing the site-related heterogeneities, and then tried to cluster the abnormal FCs into several replicable and independent disrupted subnets across sites, related them to clinical symptoms, and evaluated their potentials in schizophrenia classification. Among the four site-related heterogeneity correction methods, ComBat harmonization (F1 score: 0.806 ± 0.145) achieved the overall best balance between sensitivity and false discovery rate in unraveling the aberrant FCs of schizophrenia in the local and public data sets. Hierarchical clustering analysis identified three replicable FC disruption subnets across the local and public data sets: hypo-connectivity within sensory areas (Net1), hypo-connectivity within thalamus, striatum, and ventral attention network (Net2), and hyper-connectivity between thalamus and sensory processing system (Net3). Notably, the derived composite FC within Net1 was negatively correlated with hostility and disorientation in the public validation set (p < .05). Finally, the three subnet-specific composite FCs (Best area under the receiver operating characteristic curve [AUC] = 0.728) can robustly and meaningfully discriminate the SZ from NC with comparable performance with the full identified FCs features (best AUC = 0.765) in the out-of-sample public data set (Z = -1.583, p = .114). In conclusion, ComBat harmonization was most robust in detecting aberrant connectivity for schizophrenia. Besides, the three subnet-specific composite FC measures might be replicable neuroimaging markers for schizophrenia.

Topics & Concepts

NeuroscienceSubnetSchizophrenia (object-oriented programming)Receiver operating characteristicThalamusSet (abstract data type)Pattern recognition (psychology)PsychologyArtificial intelligenceComputer scienceMachine learningPsychiatryProgramming languageComputer networkFunctional Brain Connectivity StudiesMental Health Research TopicsAdvanced Neuroimaging Techniques and Applications
Unraveling schizophrenia replicable functional connectivity disruption patterns across sites | Litcius