Toward practical screening of mortality risk: Insights from interpretable machine learning in NHANES.
Journal
International journal of cardiology. Cardiovascular risk and prevention
ISSN
2772-4875
Date Issued
2026-06
Author(s)
Abstract
Background Efficient community-based screening for individuals at high risk of mortality is a major public health challenge. While many predictors have been proposed, there is limited consensus on which factors are both robust and practical for population screening. This study applied interpretable machine learning to identify efficient predictors of all-cause and cardiovascular mortality in a nationally representative cohort. Methods We analyzed 9957 adults aged ≥40 years from NHANES 1999–2004 with linked mortality follow-up. A total of 134 demographic, lifestyle, and biomarker variables were evaluated across multiple algorithms. Model interpretability was assessed with Shapley Additive Explanations (SHAP), and the prognostic implications of leading predictors were examined with Kaplan–Meier analyses. Results Over 5 years, 1293 participants (13.0%) died. Across analytic approaches, age, troponin T (TNT), and N-terminal pro-B type natriuretic peptide (NT-proBNP) consistently emerged as the most influential predictors. Survival analyses demonstrated significantly poorer outcomes among individuals with elevated TNT and NT-proBNP. A parsimonious five-variable model (age, TNT, NT-proBNP, physical activity, gender) retained good discrimination (AUC = 0.841) and calibration. Conclusions A parsimonious set of five predictors—age, gender, physical activity, TNT, and NT-proBNP—enabled efficient mortality risk stratification in NHANES, supporting their potential role in practical community screening. © 2026 The Authors.
Subjects
Machine learning
Mortality
N-terminal pro B-Type natriuretic peptide
NHANES
Screening mortality
Troponin T
Type
journal article