AI-Powered Stroke Diagnosis System: Methodological Framework and Implementation

Future Internet 2025
Marta Narigina, Agris Vindecs, Dušanka Boškovič, Jurijs Merkurjevs, Andrejs Romānovs

This study introduces an AI-based framework for stroke diagnosis that merges clinical data and curated imaging data. The system utilizes traditional machine learning and advanced deep learning techniques to tackle dataset imbalances and variability in stroke presentations. Our approach involves rigorous data preprocessing, feature engineering, and ensemble techniques to optimize the predictive performance. Comprehensive evaluations demonstrate that gradient-boosted models outperform in accuracy, while CNNs enhance stroke detection rates. Calibration and threshold optimization are utilized to align predictions with clinical requirements, ensuring diagnostic reliability. This multi-modal framework highlights the capacity of AI to accelerate stroke diagnosis and aid clinical decision making, ultimately enhancing patient outcomes in critical care.

Atslēgas vārdi
stroke diagnosis; eICU database; machine learning; deep learning; convolutional neural networks; ensemble methods; calibration; threshold optimization
DOI
10.3390/fi17050204
Hipersaite
https://www.mdpi.com/1999-5903/17/5/204

Narigina, M., Vindecs, A., Boškovič, D., Merkurjevs, J., Romānovs, A. AI-Powered Stroke Diagnosis System: Methodological Framework and Implementation. Future Internet, 2025, Vol. 17, No. 5, Article number 204. e-ISSN 1999-5903. Pieejams: doi:10.3390/fi17050204

Publikācijas valoda
English (en)