Tytuł
AI-Enabled Early Detection of Chemo-Induced Cardiotoxicity Patterns Using ECG Time Series Data A Simulated Oncology Framework
Autorzy
[ 1 ] Wydział Prawa i Administracji, Akademia Sztuki Wojennej | [ P ] pracownik
Dyscyplina naukowa (Ustawa 2.0)
Rok publikacji
2025
Opublikowano w
AMERICAN JOURNAL OF CLINICAL ONCOLOGY-CANCER CLINICAL TRIALS
Typ artykułu
artykuł naukowy
Język publikacji
angielski
Słowa kluczowe
PL
Streszczenie
EN Objectives: Chemotherapy-induced cardiotoxicity is still a major clinical problem, usually appearing subclinically before structural or symptomatic cardiac dysfunction appears. Standard surveillance methods use imaging and biomarkers, which are time-intensive and money-intensive and can only identify damage at more advanced levels. Electrocardiography (ECG) provides a low-cost, non-invasive method that can detect early electrophysiological changes but is not fully utilized in cardio-oncology. The present work was designed to build an explainable machine learning model for predicting chemo-like cardiotoxicity patterns at an early stage from single-lead ECG signals. Methods: A public ECG data set (n=4997 segments) underwent preprocessing and was converted to 18 temporal, morphologic, and spectral features. Two ensemble learning algorithms—Random Forest and XGBoost—were trained and validated with stratified splits. Model performance was assessed with ROC–AUC, PR–AUC, and F1-score with 1000 bootstrap resampling. Feature interpretability was evaluated through permutation importance and SHAP analysis. Results: Both models scored near-perfect classification (ROC–AUC and PR–AUC>0.99, F1-score ≈ 0.986). Spectral entropy, band3 (high-energy frequency), QT surrogate, and peak count were the top features ranking alongside early cardiotoxicity indicators like repolarization instability and autonomic imbalance. Conclusions: The feature-driven, interpretable ML architecture suggested here shows that single-lead ECG has the potential to be an affordable and clinically relevant tool for the early detection of chemotherapy-induced cardiotoxicity. The method provides a feasible route toward implementation in precision cardio-oncology, particularly in resource-poor or ambulatory environments.
Data udostępnienia online
26.12.2025
Strony (od-do)
1 - 7
Uwagi
Bibliografia, netografia na stronach 6-7.
Typ licencji
inne
Tryb otwartego dostępu
otwarte czasopismo
Wersja tekstu w otwartym dostępie
ostateczna wersja opublikowana
Data udostępnienia
31.12.2025
Czas udostępnienia publikacji w sposób otwarty
w momencie opublikowania
Punktacja Ministerstwa / czasopismo
100
Ten serwis działa dzięki oprogramowaniu SINUS
opracowanemu przez Poznańskie Centrum Superkomputerowo-Sieciowe
Zaloguj się, aby dodać do SIN: