Your search keyword '"Narges Razavian"' showing total 4 results

1. Correction: Predicting childhood obesity using electronic health records and publicly available data.

Author

Robert Hammond, Rodoniki Athanasiadou, Silvia Curado, Yindalon Aphinyanaphongs, Courtney Abrams, Mary Jo Messito, Rachel Gross, Michelle Katzow, Melanie Jay, Narges Razavian, and Brian Elbel

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0215571.].

Published

2019

2. Predicting childhood obesity using electronic health records and publicly available data.

Author

Robert Hammond, Rodoniki Athanasiadou, Silvia Curado, Yindalon Aphinyanaphongs, Courtney Abrams, Mary Jo Messito, Rachel Gross, Michelle Katzow, Melanie Jay, Narges Razavian, and Brian Elbel

Subjects

Medicine, Science

Abstract

BackgroundBecause of the strong link between childhood obesity and adulthood obesity comorbidities, and the difficulty in decreasing body mass index (BMI) later in life, effective strategies are needed to address this condition in early childhood. The ability to predict obesity before age five could be a useful tool, allowing prevention strategies to focus on high risk children. The few existing prediction models for obesity in childhood have primarily employed data from longitudinal cohort studies, relying on difficult to collect data that are not readily available to all practitioners. Instead, we utilized real-world unaugmented electronic health record (EHR) data from the first two years of life to predict obesity status at age five, an approach not yet taken in pediatric obesity research.Methods and findingsWe trained a variety of machine learning algorithms to perform both binary classification and regression. Following previous studies demonstrating different obesity determinants for boys and girls, we similarly developed separate models for both groups. In each of the separate models for boys and girls we found that weight for length z-score, BMI between 19 and 24 months, and the last BMI measure recorded before age two were the most important features for prediction. The best performing models were able to predict obesity with an Area Under the Receiver Operator Characteristic Curve (AUC) of 81.7% for girls and 76.1% for boys.ConclusionsWe were able to predict obesity at age five using EHR data with an AUC comparable to cohort-based studies, reducing the need for investment in additional data collection. Our results suggest that machine learning approaches for predicting future childhood obesity using EHR data could improve the ability of clinicians and researchers to drive future policy, intervention design, and the decision-making process in a clinical setting.

Published

2019

3. Correction: Predicting childhood obesity using electronic health records and publicly available data

Author

Mary Jo Messito, Courtney Abrams, Silvia Curado, Yindalon Aphinyanaphongs, Melanie Jay, Rodoniki Athanasiadou, Narges Razavian, Rachel S. Gross, Michelle Katzow, Brian Elbel, and Robert Hammond

Subjects

Open data, Multidisciplinary, business.industry, Environmental health, Science, medicine, Medicine, Health records, medicine.disease, business, Childhood obesity

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0215571.].

Published

2019

4. Predicting childhood obesity using electronic health records and publicly available data

Author

Silvia Curado, Yindalon Aphinyanaphongs, Rachel S. Gross, Rodoniki Athanasiadou, Brian Elbel, Robert Hammond, Mary Jo Messito, Melanie Jay, Narges Razavian, Michelle Katzow, and Courtney Abrams

Subjects

Adult, Male, Gerontology, Pediatric Obesity, Adolescent, Science, Childhood obesity, Body Mass Index, Machine Learning, 03 medical and health sciences, 0302 clinical medicine, Risk Factors, 030225 pediatrics, medicine, Electronic Health Records, Humans, Longitudinal Studies, 030212 general & internal medicine, Early childhood, Child, Retrospective Studies, Multidisciplinary, Data collection, business.industry, Correction, Retrospective cohort study, Prognosis, medicine.disease, Obesity, Logistic Models, ROC Curve, Child, Preschool, Cohort, Medicine, Female, business, Body mass index, Predictive modelling, Research Article

Abstract

BackgroundBecause of the strong link between childhood obesity and adulthood obesity comorbidities, and the difficulty in decreasing body mass index (BMI) later in life, effective strategies are needed to address this condition in early childhood. The ability to predict obesity before age five could be a useful tool, allowing prevention strategies to focus on high risk children. The few existing prediction models for obesity in childhood have primarily employed data from longitudinal cohort studies, relying on difficult to collect data that are not readily available to all practitioners. Instead, we utilized real-world unaugmented electronic health record (EHR) data from the first two years of life to predict obesity status at age five, an approach not yet taken in pediatric obesity research.Methods and findingsWe trained a variety of machine learning algorithms to perform both binary classification and regression. Following previous studies demonstrating different obesity determinants for boys and girls, we similarly developed separate models for both groups. In each of the separate models for boys and girls we found that weight for length z-score, BMI between 19 and 24 months, and the last BMI measure recorded before age two were the most important features for prediction. The best performing models were able to predict obesity with an Area Under the Receiver Operator Characteristic Curve (AUC) of 81.7% for girls and 76.1% for boys.ConclusionsWe were able to predict obesity at age five using EHR data with an AUC comparable to cohort-based studies, reducing the need for investment in additional data collection. Our results suggest that machine learning approaches for predicting future childhood obesity using EHR data could improve the ability of clinicians and researchers to drive future policy, intervention design, and the decision-making process in a clinical setting.

Published

2019