Machine learning to predict stroke risk from routine hospital data: A systematic review

Authors

William Heseltine-Carp, University of Plymouth
Megan Courtman, University of Plymouth
Daniel Browning, University of Plymouth
Aishwarya Kasabe, University of Plymouth
Michael Allen, University of Exeter
Adam Streeter, Peninsula Medical School
Emmanuel Ifeachor, University of Plymouth
Martin James, University of Exeter
Stephen Mullin, Peninsula Medical School

ORCID

• Emmanuel Ifeachor: 0000-0001-8362-6292
• Stephen Mullin: 0000-0002-1936-394X

Abstract

Purpose: Stroke remains a leading cause of morbidity and mortality. Despite this, current risk stratification tools such as CHA₂DS₂-VASc and QRISK3 are of limited accuracy, particularly in those without a diagnosis of atrial-fibrillation. Hence, there is a need for more accurate stroke risk prediction models. Machine-learning (ML) may provide a solution to this by leveraging existing routine hospital databases to build accurate stroke risk prediction models and identify novel risk factors for stroke. Aims: In this systematic review we appraise current research using ML to predict stroke risk from routine hospital data. Based on these findings we then highlight common methodological limitations and recommendations for future research. Methods: In this review we identify 49 original research (38 in the general population and 11 in AF specific populations) articles from the PUBMED database from January-2013 to December-2024 using ML and routine hospital data to predict the risk of stroke. Results: ML models were able to accurately predict stroke risk in both AF specific and general populations, with AUCs ranging from 0.64 to 0.99. Where tested, ML also consistently outperformed traditional risk stratification tool, such as CHA₂DS₂-VASc. ML also appeared useful in identifying several novel risk factors from electrocardiogram, laboratory test and echocardiography data. However, the quality of datasets were often limited, there was a high suspicion of overfitting and models often lacked calibration, external validation and explainability analysis. Conclusion: Whilst ML has shown great potential in stroke prediction and identifying novel risk factors for stroke, improvements in study methodology is required prior to integration of ML into routine healthcare. Future research should adhere to the EQUATOR guidance on prediction models and encourage interdisciplinary collaboration between computer scientists and clinicians. Further prospective RCTs are also required to validate models in the clinical setting and the identify barriers of integrating ML into routine healthcare.

DOI

10.1016/j.ijmedinf.2025.105811

Publication Date

2025-04-01

Publication Title

International Journal of Medical Informatics

Volume

196

ISSN

1386-5056

Keywords

Artificial intelligence, Ischaemic stroke, Machine learning, Risk evaluation, Routine hospital data, Stroke

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

Heseltine-Carp, W., Courtman, M., Browning, D., Kasabe, A., Allen, M., Streeter, A., Ifeachor, E., James, M., & Mullin, S. (2025) 'Machine learning to predict stroke risk from routine hospital data: A systematic review', International Journal of Medical Informatics, 196. Available at: 10.1016/j.ijmedinf.2025.105811