Literature DB >> 25980520

A Naive Bayes machine learning approach to risk prediction using censored, time-to-event data.

Julian Wolfson1, Sunayan Bandyopadhyay2, Mohamed Elidrisi2, Gabriela Vazquez-Benitez3, David M Vock1, Donald Musgrove1, Gediminas Adomavicius4, Paul E Johnson4, Patrick J O'Connor3.   

Abstract

Predicting an individual's risk of experiencing a future clinical outcome is a statistical task with important consequences for both practicing clinicians and public health experts. Modern observational databases such as electronic health records provide an alternative to the longitudinal cohort studies traditionally used to construct risk models, bringing with them both opportunities and challenges. Large sample sizes and detailed covariate histories enable the use of sophisticated machine learning techniques to uncover complex associations and interactions, but observational databases are often 'messy', with high levels of missing data and incomplete patient follow-up. In this paper, we propose an adaptation of the well-known Naive Bayes machine learning approach to time-to-event outcomes subject to censoring. We compare the predictive performance of our method with the Cox proportional hazards model which is commonly used for risk prediction in healthcare populations, and illustrate its application to prediction of cardiovascular risk using an electronic health record dataset from a large Midwest integrated healthcare system.
Copyright © 2015 John Wiley & Sons, Ltd.

Entities:  

Keywords:  Naive Bayes; electronic health records; machine learning; risk prediction; survival analysis

Mesh:

Year:  2015        PMID: 25980520      PMCID: PMC4523419          DOI: 10.1002/sim.6526

Source DB:  PubMed          Journal:  Stat Med        ISSN: 0277-6715            Impact factor:   2.373


  22 in total

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