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Transcriptomic and neuroimaging data integration enhances machine learning classification of schizophrenia

Mengya Wang, Shu‐Wan Zhao, Di Wu, Yahong Zhang, Yan-Kun Han, Kun Zhao, Ting Qi, Yong Liu, Long‐Biao Cui, Yongbin Wei

2024Psychoradiology19 citationsDOIOpen Access PDF

Abstract

Background: Schizophrenia is a polygenic disorder associated with changes in brain structure and function. Integrating macroscale brain features with microscale genetic data may provide a more complete overview of the disease etiology and may serve as potential diagnostic markers for schizophrenia. Objective: We aim to systematically evaluate the impact of multi-scale neuroimaging and transcriptomic data fusion in schizophrenia classification models. Methods: We collected brain imaging data and blood RNA sequencing data from 43 patients with schizophrenia and 60 age- and gender-matched healthy controls, and we extracted multi-omics features of macroscale brain morphology, brain structural and functional connectivity, and gene transcription of schizophrenia risk genes. Multi-scale data fusion was performed using a machine learning integration framework, together with several conventional machine learning methods and neural networks for patient classification. Results: We found that multi-omics data fusion in conventional machine learning models achieved the highest accuracy (AUC ~0.76-0.92) in contrast to the single-modality models, with AUC improvements of 8.88 to 22.64%. Similar findings were observed for the neural network, showing an increase of 16.57% for the multimodal classification model (accuracy 71.43%) compared to the single-modal average. In addition, we identified several brain regions in the left posterior cingulate and right frontal pole that made a major contribution to disease classification. Conclusion: We provide empirical evidence for the increased accuracy achieved by imaging genetic data integration in schizophrenia classification. Multi-scale data fusion holds promise for enhancing diagnostic precision, facilitating early detection and personalizing treatment regimens in schizophrenia.

Topics & Concepts

NeuroimagingSchizophrenia (object-oriented programming)Artificial intelligenceMachine learningComputer scienceMedicineBioinformaticsBiologyPsychiatryGenetic Associations and EpidemiologySchizophrenia research and treatmentFunctional Brain Connectivity Studies
Transcriptomic and neuroimaging data integration enhances machine learning classification of schizophrenia | Litcius