An Interpretable Machine Learning Model for Meningioma Grade Prediction

Ali Golbaf; Damjan Veljanoski; Prutha Chawda; Swen Gaudl; C. Hanemann; Emmanuel Ifeachor

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Paper

An Interpretable Machine Learning Model for Meningioma Grade Prediction

Topics: Decision Support Systems; Design and Development of Methodologies for Healthcare IT; Medical Artificial Intelligence; Pattern Recognition and Machine Learning

In Proceedings of the 18th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 2: , 65-74, 2025 , Porto, Portugal

Authors: Ali Golbaf ¹ ; Damjan Veljanoski ² ; Prutha Chawda ² ; Swen Gaudl ¹ ; C. Oliver Hanemann ² and Emmanuel Ifeachor ¹

Affiliations: ¹ School of Engineering, Computing and Mathematics, University of Plymouth, Plymouth, U.K. ; ² Peninsula Schools of Medicine, University of Plymouth University, Plymouth, U.K.

Keyword(s): Meningiomas, Grading, Radiomics, MRI, Interpretable Techniques.

Abstract: Accurate preoperative prediction of meningioma grade is crucial for enhancing the clinical management of these tumours. In this study, we developed a non-invasive machine learning (ML) model to predict meningioma grade using clinical features and radiomics features from preoperative MRI scans, focusing on interpretability to improve clinical adoption of such models. A dataset of 94 patients from The Cancer Imaging Archive (TCIA) was analysed. Clinical features and radiomics features from T1-weighted contrast-enhanced (T1C) and T2-weighted Fluid Attenuated Inversion Recovery (T2 FLAIR) scans were utilised. Two feature subsets were constructed: one using radiomics features alone and the other combining clinical and radiomics features. Feature selection was performed using a modified Least Absolute Shrinkage and Selection Operator (LASSO) technique. Four ML models: Logistic Regression (LR), Support Vector Machine (SVM), Random Forest (RF), and Gradient Boosting (GB), were developed. SHa pley Additive exPlanations (SHAP) was employed to address the blackbox nature of ML models by providing radiomics overall feature importance scores and model interpretation. Results using the clinical-radiomics subset showed that the SVM outperformed others (test AUC: 0.83), indicating its reliability for predicting meningioma grade. SHAP highlights discriminative radiomics features and their interaction with clinical features, thereby enhancing the clinical adoption of such models. (More)

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Paper citation in several formats:

Golbaf, A., Veljanoski, D., Chawda, P., Gaudl, S., Hanemann, C. O. and Ifeachor, E. (2025). An Interpretable Machine Learning Model for Meningioma Grade Prediction. In Proceedings of the 18th International Joint Conference on Biomedical Engineering Systems and Technologies - HEALTHINF; ISBN 978-989-758-731-3; ISSN 2184-4305, SciTePress, pages 65-74. DOI: 10.5220/0013114000003911

@conference{healthinf25,
author={Ali Golbaf and Damjan Veljanoski and Prutha Chawda and Swen Gaudl and C. Oliver Hanemann and Emmanuel Ifeachor},
title={An Interpretable Machine Learning Model for Meningioma Grade Prediction},
booktitle={Proceedings of the 18th International Joint Conference on Biomedical Engineering Systems and Technologies - HEALTHINF},
year={2025},
pages={65-74},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0013114000003911},
isbn={978-989-758-731-3},
issn={2184-4305},
}

TY - CONF

JO - Proceedings of the 18th International Joint Conference on Biomedical Engineering Systems and Technologies - HEALTHINF
TI - An Interpretable Machine Learning Model for Meningioma Grade Prediction
SN - 978-989-758-731-3
IS - 2184-4305
AU - Golbaf, A.
AU - Veljanoski, D.
AU - Chawda, P.
AU - Gaudl, S.
AU - Hanemann, C.
AU - Ifeachor, E.
PY - 2025
SP - 65
EP - 74
DO - 10.5220/0013114000003911
PB - SciTePress