Literature DB >> 29426065

A review of machine learning in obesity.

K W DeGregory1, P Kuiper1, T DeSilvio2, J D Pleuss1, R Miller1, J W Roginski1, C B Fisher1, D Harness1, S Viswanath2, S B Heymsfield3, I Dungan1, D M Thomas1.   

Abstract

Rich sources of obesity-related data arising from sensors, smartphone apps, electronic medical health records and insurance data can bring new insights for understanding, preventing and treating obesity. For such large datasets, machine learning provides sophisticated and elegant tools to describe, classify and predict obesity-related risks and outcomes. Here, we review machine learning methods that predict and/or classify such as linear and logistic regression, artificial neural networks, deep learning and decision tree analysis. We also review methods that describe and characterize data such as cluster analysis, principal component analysis, network science and topological data analysis. We introduce each method with a high-level overview followed by examples of successful applications. The algorithms were then applied to National Health and Nutrition Examination Survey to demonstrate methodology, utility and outcomes. The strengths and limitations of each method were also evaluated. This summary of machine learning algorithms provides a unique overview of the state of data analysis applied specifically to obesity.
© 2018 World Obesity Federation.

Entities:  

Keywords:  Deep learning; National Health and Nutrition Examination Survey; machine learning; topological data analysis

Mesh:

Year:  2018        PMID: 29426065      PMCID: PMC8176949          DOI: 10.1111/obr.12667

Source DB:  PubMed          Journal:  Obes Rev        ISSN: 1467-7881            Impact factor:   9.213


  54 in total

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  41 in total

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Review 5.  Prediction Models for Osteoporotic Fractures Risk: A Systematic Review and Critical Appraisal.

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6.  Nonlinear Machine Learning in Warfarin Dose Prediction: Insights from Contemporary Modelling Studies.

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7.  Identification of Critical Biomarkers and Immune Infiltration in Rheumatoid Arthritis Based on WGCNA and LASSO Algorithm.

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8.  Use of Machine Learning to Determine the Information Value of a BMI Screening Program.

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9.  Adult energy requirements predicted from doubly labeled water.

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