DOI: 10.1093/europace/euag105.1056 ISSN: 1099-5129

Machine learning-based prediction of drug-induced QTc changes in a large Finnish biobank cohort

V L J Langen, A Winsten, K Teppo, T Pohjonen, J Laukkanen, A Mannermaa, T Niiranen, J Palmu

Abstract

Background

Prolongation of the QT interval is a known precursor to serious arrhythmias and sudden cardiac death, often triggered by medication use. Currently available medication risk evaluation platforms rely on literature-based synthesis and may lag behind real-world developments.

Purpose

To evaluate whether machine learning (ML) model trained on real-world genomic and medication data can identify associations between drug use and QTc duration, potentially enabling automated risk detection in clinical workflows.

Methods

We included 10,208 individuals from the FinnGen biobank Expansion Area 3 substudy, integrating prescription records, clinical variables, and genetic information. We applied a nested-cross-validation approach to develop a ML framework to predict QTc duration using clinical characteristics, recent medication purchases, and polygenetic score for QTc duration. We performed conventional linear regression analyses to estimate the robustness of the findings.

Results

Only a minority of ML-detected drug–QTc associations aligned with known effects listed in the expert-curated reference. Several apparent false positives were observed, and effect sizes for true positives, such as amiodarone, were clinically negligible (+1 ms in ML vs. +49 ms in linear regression). These findings highlight challenges in using ML to detect meaningful drug effects on ECG traits.

Conclusions

ML models did not reliably identify medications associated with QT-interval prolongation. While promising for predicting harder endpoints like arrhythmias, ML appears limited in risk quantification when applied to the QT interval as an intermediate marker. While new approaches continue to develop in medication safety assessment, the systematic evidence review conducted by clinical pharmacology experts is unlikely to be supplanted in the foreseeable future.Fig.QTc model comparison

More from our Archive