Random survival forest for predicting the combined effects of multiple physiological risk factors on all-cause mortality

Understanding the combined effects of risk factors on all-cause mortality is crucial for implementing effective risk stratification and designing targeted interventions, but such combined effects are understudied. We aim to use survival-tree based machine learning models as more flexible nonparametr...

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Published in:Scientific reports 2024-07, Vol.14 (1), p.15566-10, Article 15566
Main Authors: Zhao, Bu, Nguyen, Vy Kim, Xu, Ming, Colacino, Justin A., Jolliet, Olivier
Format: Article
Language:English
Subjects:
692/308
692/308/174
692/499
692/53
692/53/2421
692/53/2422
Adult
Aged
All-cause mortality
Biomarkers - blood
Blood Glucose - analysis
Blood Glucose - metabolism
Blood levels
Cause of Death
Cotinine
Cotinine - blood
Female
Glomerular Filtration Rate
Health risks
Humanities and Social Sciences
Humans
Leukocyte Count
Leukocytes
Machine Learning
Male
Middle Aged
Mortality
Mortality risk
multidisciplinary
Nutrition Surveys
Physiological factors
Physiology
Precision medicine
Random survival forests
Risk Assessment - methods
Risk Factors
Risk visualization
Science
Science (multidisciplinary)
Survival tree
Tobacco smoking
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Nguyen, Vy Kim
Xu, Ming
Colacino, Justin A.
Jolliet, Olivier
description Understanding the combined effects of risk factors on all-cause mortality is crucial for implementing effective risk stratification and designing targeted interventions, but such combined effects are understudied. We aim to use survival-tree based machine learning models as more flexible nonparametric techniques to examine the combined effects of multiple physiological risk factors on mortality. More specifically, we (1) study the combined effects between multiple physiological factors and all-cause mortality, (2) identify the five most influential factors and visualize their combined influence on all-cause mortality, and (3) compare the mortality cut-offs with the current clinical thresholds. Data from the 1999–2014 NHANES Survey were linked to National Death Index data with follow-up through 2015 for 17,790 adults. We observed that the five most influential factors affecting mortality are the tobacco smoking biomarker cotinine, glomerular filtration rate (GFR), plasma glucose, sex, and white blood cell count. Specifically, high mortality risk is associated with being male, active smoking, low GFR, elevated plasma glucose levels, and high white blood cell count. The identified mortality-based cutoffs for these factors are mostly consistent with relevant studies and current clinical thresholds. This approach enabled us to identify important cutoffs and provide enhanced risk prediction as an important basis to inform clinical practice and develop new strategies for precision medicine.
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subjects 692/308
692/308/174
692/499
692/53
692/53/2421
692/53/2422
Adult
Aged
All-cause mortality
Biomarkers - blood
Blood Glucose - analysis
Blood Glucose - metabolism
Blood levels
Cause of Death
Cotinine
Cotinine - blood
Female
Glomerular Filtration Rate
Health risks
Humanities and Social Sciences
Humans
Leukocyte Count
Leukocytes
Machine Learning
Male
Middle Aged
Mortality
Mortality risk
multidisciplinary
Nutrition Surveys
Physiological factors
Physiology
Precision medicine
Random survival forests
Risk Assessment - methods
Risk Factors
Risk visualization
Science
Science (multidisciplinary)
Survival tree
Tobacco smoking
title Random survival forest for predicting the combined effects of multiple physiological risk factors on all-cause mortality
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