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Graph neural network and machine learning analysis of functional neuroimaging for understanding schizophrenia

Gayathri Sunil, Smruthi Gowtham, A. Chandra Bose, Samhitha Harish, Gowri Srinivasa

2024BMC Neuroscience30 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Graph representational learning can detect topological patterns by leveraging both the network structure as well as nodal features. The basis of our exploration involves the application of graph neural network architectures and machine learning to resting-state functional Magnetic Resonance Imaging (rs-fMRI) data for the purpose of detecting schizophrenia. Our study uses single-site data to avoid the shortcomings in generalizability of neuroimaging data obtained from multiple sites. RESULTS: The performance of our graph neural network models is on par with that of our machine learning models, each of which is trained using 69 graph-theoretical measures computed from functional correlations between various regions of interest (ROI) in a brain graph. Our deep graph convolutional neural network (DGCNN) demonstrates a promising average accuracy score of 0.82 and a sensitivity score of 0.84. CONCLUSIONS: This study provides insights into the role of advanced graph theoretical methods and machine learning on fMRI data to detect schizophrenia by harnessing changes in brain functional connectivity. The results of this study demonstrate the capabilities of using both traditional ML techniques as well as graph neural network-based methods to detect schizophrenia using features extracted from fMRI data. The study also proposes two methods to obtain potential biomarkers for the disease, many of which are corroborated by research in this area and can further help in the understanding of schizophrenia as a mental disorder.

Topics & Concepts

Computer scienceNeuroimagingArtificial intelligenceFunctional magnetic resonance imagingGraphGeneralizability theoryMachine learningPower graph analysisSchizophrenia (object-oriented programming)Artificial neural networkDeep learningConvolutional neural networkConnectomePattern recognition (psychology)Functional connectivityNeurosciencePsychologyTheoretical computer scienceProgramming languageDevelopmental psychologyFunctional Brain Connectivity StudiesMental Health Research TopicsAdvanced Graph Neural Networks
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