Artificial intelligence methodologies, including machine learning and deep learning applied to neuroimaging data, demonstrate high potential for the early and accurate prediction of schizophrenia.
Systematic Review
Do artificial intelligence methodologies using medical imaging data improve the prediction and biomarker identification of schizophrenia?
AI methodologies, including machine learning and deep learning applied to medical imaging, show potential for early and accurate prediction of schizophrenia.
Background Schizophrenia (SZ) is a debilitating mental illness that adversely affects social and family interactions, ranking as a leading contributor to global disability. Existing diagnostic approaches, including MRI, PET, and EEG, underscore the necessity for effective predictive strategies to enhance management and reduce costs. Objective This review evaluates the application of artificial intelligence (AI) methodologies—specifically Machine Learning (ML) and Deep Learning (DL) in predicting SZ using medical imaging data, while addressing existing challenges and identifying key biomarkers to improve diagnostic accuracy. Methods A systematic literature review was performed using the databases IEEE, PubMed, ScienceDirect, MDPI, Google Scholar, and Springer from inception until March 31, 2026. The initial search generated 820 records, and after a thorough screening process, 185 studies relevant to disease diagnosis, model selection across various neuroimaging modalities, including biomarker identification, were identified. The review protocol has been registered with PROSPORO registration: CRD420251131635. The studies were selected based on different medical imaging data related to SZ. Results This review presents a thorough examination of advancements in SZ detection via AI methodologies. It highlights not only providing existing predictive techniques, identifies research gaps, biomarkers identification and assessment, and underscores the potential of AI-based ML and DL methods to facilitate early and accurate diagnosis of SZ. Five unimodal and various combinations of multimodal data were examined, along with the AI models’ performance metrics from multiple studies. Conclusions The review provides a comprehensive assessment of AI algorithms relevant to both unimodal and multimodal data, biomarkers of neuroimaging modalities with ROIs, challenges, and limitations of ML and DL models, and future directions of prediction for clinical diagnosis, thereby supporting timely interventions for individuals affected by SZ. Systematic review registration https://www.crd.york.ac.uk/PROSPERO/view , identifier CRD420251131635.
Palpandi et al. (Tue,) conducted a systematic review in Schizophrenia. Artificial intelligence (Machine Learning and Deep Learning) was evaluated on Prediction and diagnosis accuracy of schizophrenia. Artificial intelligence methodologies, including machine learning and deep learning applied to neuroimaging data, demonstrate high potential for the early and accurate prediction of schizophrenia.