4.7 Article

Relative Performance of Machine Learning and Linear Regression in Predicting Quality of Life and Academic Performance of School Children in Norway: Data Analysis of a Quasi-Experimental Study

Journal

JOURNAL OF MEDICAL INTERNET RESEARCH
Volume 23, Issue 7, Pages -

Publisher

JMIR PUBLICATIONS, INC
DOI: 10.2196/22021

Keywords

modelling; linear regression; machine learning; artificial intelligence; quality of life; academic performance; continuous/quasi-continuous health outcomes

Funding

  1. Kristiania University College

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The study found that in health research, linear regression is more reliable in prediction than machine learning, and machine learning performance can be improved with imputation. Lifestyle variables such as physical exercise, television and computer use, and parental education are predictive of academic performance and quality of life.
Background: Machine learning techniques are increasingly being applied in health research. It is not clear how useful these approaches are for modeling continuous outcomes. Child quality of life is associated with parental socioeconomic status and physical activity and may be associated with aerobic fitness and strength. It is unclear whether diet or academic performance is associated with quality of life. Objective: The purpose of this study was to compare the predictive performance of machine learning techniques with that of linear regression in examining the extent to which continuous outcomes (physical activity, aerobic fitness, muscular strength, diet, and parental education) are predictive of academic performance and quality of life and whether academic performance and quality of life are associated. Methods: We modeled data from children attending 9 schools in a quasi-experimental study. We split data randomly into training and validation sets. Curvilinear, nonlinear, and heteroscedastic variables were simulated to examine the performance of machine learning techniques compared to that of linear models, with and without imputation. Results: We included data for 1711 children. Regression models explained 24% of academic performance variance in the real complete-case validation set, and up to 15% in quality of life. While machine learning techniques explained high proportions of variance in training sets, in validation, machine learning techniques explained approximately 0% of academic performance and 3% to 8% of quality of life. With imputation, machine learning techniques improved to 15% for academic performance. Machine learning outperformed regression for simulated nonlinear and heteroscedastic variables. The best predictors of academic performance in adjusted models were the child's mother having a master-level education (P<.001; beta=1.98, 95% CI 0.25 to 3.71), increased television and computer use (P=.03; beta=1.19, 95% CI 0.25 to 3.71), and dichotomized self-reported exercise (P=.001; beta=2.47, 95% CI 1.08 to 3.87). For quality of life, self-reported exercise (P<.001; beta=1.09, 95% CI 0.53 to 1.66) and increased television and computer use (P=.002; beta=-0.95, 95% CI -1.55 to -0.36) were the best predictors. Adjusted academic performance was associated with quality of life (P=.02; beta=0.12, 95% CI 0.02 to 0.22). Conclusions: Linear regression was less prone to overfitting and outperformed commonly used machine learning techniques. Imputation improved the performance of machine learning, but not sufficiently to outperform regression. Machine learning techniques outperformed linear regression for modeling nonlinear and heteroscedastic relationships and may be of use in such cases. Regression with splines performed almost as well in nonlinear modeling. Lifestyle variables, including physical exercise, television and computer use, and parental education are predictive of academic performance or quality of life. Academic performance is associated with quality of life after adjusting for lifestyle variables and may offer another promising intervention target to improve quality of life in children.

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