Body Composition and Energy Expenditure in Youth With Spina Bifida: Protocol for a Multisite, Cross-Sectional Study
Michele Polfuss, Kathryn Smith, Betsy Hopson, Andrea Moosreiner, Chiang-Ching Huang, Michele N Ravelli, Dan Ding, Zijian Huang, Brandon G Rocque, Rosemary White-Traut, Alexander Van Speybroeck, Kathleen J Sawin

TL;DR
This study aims to develop tools to better assess body fat and energy needs in children with spina bifida, who are at higher risk of obesity.
Contribution
The study introduces two new algorithms for body fat modeling and energy expenditure prediction in youth with spina bifida.
Findings
Developing algorithms to model body fat and predict energy expenditure in youth with spina bifida.
Using clinical measures and accelerometers to collect data on body composition and physical activity.
Findings may improve obesity prevention and treatment for youth with mobility challenges.
Abstract
Obesity prevalence in youth with spina bifida is higher than in their typically developing peers. Obesity is associated with lifelong medical, psychological, and economic burdens. Successful prevention or treatment of obesity in individuals with spina bifida is compromised by (1) the lack of valid and reliable methods to identify body fat in a clinical setting and (2) limited data on energy expenditure that are necessary to provide daily caloric recommendations. The objectives of this study will be to develop 2 algorithms for use in youth with spina bifida in a clinical setting, one to model body fat and one to predict total daily energy expenditure. In addition, physical activity and dietary intake will be described for the sample. This multisite, prospective, national clinical study will enroll 232 youth with myelomeningocele aged 5 to 18 years (stratified by age and mobility).…
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Taxonomy
TopicsCongenital Anomalies and Fetal Surgery · Childhood Cancer Survivors' Quality of Life · Spinal Dysraphism and Malformations
