Machine learning-based nomogram: integrating MRI radiomics and clinical indicators for prognostic assessment in acute ischemic stroke

Kun Guo; Bo Zhu; Rong Li; Jing Xi; Qi Wang; KongBo Chen; Yuan Shao; Jiaqi Liu; Weili Cao; Zhiqin Liu; Zhengli Di; Naibing Gu

doi:10.3389/fneur.2024.1379031

Frontiers in Neurology (Jun 2024)

Machine learning-based nomogram: integrating MRI radiomics and clinical indicators for prognostic assessment in acute ischemic stroke

Kun Guo,
Bo Zhu,
Rong Li,
Jing Xi,
Qi Wang,
KongBo Chen,
Yuan Shao,
Jiaqi Liu,
Weili Cao,
Zhiqin Liu,
Zhengli Di,
Naibing Gu

Affiliations

Kun Guo: Xi'an Central Hospital, Xi’an, China
Bo Zhu: Xi'an Central Hospital, Xi’an, China
Rong Li: Xi'an Central Hospital, Xi’an, China
Jing Xi: Xi'an Central Hospital, Xi’an, China
Qi Wang: China-Japan Union Hospital of Jilin University, Changchun, China
KongBo Chen: Tongchuan Mining Bureau Central Hospital, Tongchuan, China
Yuan Shao: Tongchuan Mining Bureau Central Hospital, Tongchuan, China
Jiaqi Liu: Tongchuan Mining Bureau Central Hospital, Tongchuan, China
Weili Cao: Xi'an Central Hospital, Xi’an, China
Zhiqin Liu: Xi'an Central Hospital, Xi’an, China
Zhengli Di: Xi'an Central Hospital, Xi’an, China
Naibing Gu: Xi'an Central Hospital, Xi’an, China

DOI: https://doi.org/10.3389/fneur.2024.1379031
Journal volume & issue: Vol. 15

Abstract

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BackgroundAcute Ischemic Stroke (AIS) remains a leading cause of mortality and disability worldwide. Rapid and precise prognostication of AIS is crucial for optimizing treatment strategies and improving patient outcomes. This study explores the integration of machine learning-derived radiomics signatures from multi-parametric MRI with clinical factors to forecast AIS prognosis.ObjectiveTo develop and validate a nomogram that combines a multi-MRI radiomics signature with clinical factors for predicting the prognosis of AIS.MethodsThis retrospective study involved 506 AIS patients from two centers, divided into training (n = 277) and validation (n = 229) cohorts. 4,682 radiomic features were extracted from T1-weighted, T2-weighted, and diffusion-weighted imaging. Logistic regression analysis identified significant clinical risk factors, which, alongside radiomics features, were used to construct a predictive clinical-radiomics nomogram. The model’s predictive accuracy was evaluated using calibration and ROC curves, focusing on distinguishing between favorable (mRS ≤ 2) and unfavorable (mRS > 2) outcomes.ResultsKey findings highlight coronary heart disease, platelet-to-lymphocyte ratio, uric acid, glucose levels, homocysteine, and radiomics features as independent predictors of AIS outcomes. The clinical-radiomics model achieved a ROC-AUC of 0.940 (95% CI: 0.912–0.969) in the training set and 0.854 (95% CI: 0.781–0.926) in the validation set, underscoring its predictive reliability and clinical utility.ConclusionThe study underscores the efficacy of the clinical-radiomics model in forecasting AIS prognosis, showcasing the pivotal role of artificial intelligence in fostering personalized treatment plans and enhancing patient care. This innovative approach promises to revolutionize AIS management, offering a significant leap toward more individualized and effective healthcare solutions.

Published in Frontiers in Neurology

ISSN: 1664-2295 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry: Neurology. Diseases of the nervous system
Website: https://www.frontiersin.org/journals/neurology/

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