Development of a Machine Learning-Based Predictive Model and Clinically-Oriented Web Application for 30-Day Mortality Following Cardiac Surgery

Abstract

<title>Abstract</title> Aims To develop and validate a machine learning-based model for predicting 30-day mortality in cardiac surgery patients and to implement a functional, clinician-oriented web application that enables the real-time use of the model. Methods and Results A retrospective cohort of 325 cardiac surgery patients was analyzed using supervised machine learning. After pre-processing and clinical feature selection, several models were trained and evaluated through cross-validation. XGBoost achieved the best results, with an AUC-ROC of 0.964, recall of 0.900, and Brier score of 0.082. To facilitate clinical usability, a web-based application was developed using StreamLit, enabling clinicians to input patient data and predict mortality in real time. The application includes SHAP-based explainability for each prediction, thereby ensuring model transparency. Preliminary feedback from clinicians indicated that the tool was intuitive and informative and showed potential for preoperative risk assessment. Conclusion The integration of a robust ML (Machine Learning) model with a functional clinical application offers a practical tool for supporting decision-making in cardiac surgery. This combined approach enhances both accuracy and accessibility, which are key to real-world impacts. Future work will involve multicenter validation and user-centered refinement.

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