Testing a proposed mathematical model of weight loss in women enrolled on a commercial weight-loss programme: the LighterLife study.

Autor: Egan AM; Faculty of Health & Medical Sciences, University of Surrey, Guildford, United Kingdom of Great Britain and Northern Ireland., Rayman JF; Department of Mathematics, University of Surrey, Guildford, United Kingdom of Great Britain and Northern Ireland., Collins AL; Faculty of Health & Medical Sciences, University of Surrey, Guildford, United Kingdom of Great Britain and Northern Ireland.
Jazyk: angličtina
Zdroj: Journal of nutritional science [J Nutr Sci] 2024 Dec 12; Vol. 13, pp. e92. Date of Electronic Publication: 2024 Dec 12 (Print Publication: 2024).
DOI: 10.1017/jns.2024.85
Abstrakt: Weight loss results in obligatory reductions in energy expenditure (EE) due to loss of metabolically active fat-free mass (FFM). This is accompanied by adaptive reductions (i.e. adaptive thermogenesis) designed to restore energy balance while in an energy crisis. While the '3500-kcal rule' is used to advise weight loss in clinical practice, the assumption that EE remains constant during energy restriction results in a large overestimation of weight loss. Thus, this work proposes a novel method of weight-loss prediction to more accurately account for the dynamic trajectory of EE. A mathematical model of weight loss was developed using ordinary differential equations relying on simple self-reported inputs of weight and energy intake to predict weight loss over a specified time. The model subdivides total daily EE into resting EE, physical activity EE, and diet-induced thermogenesis, modelling obligatory and adaptive changes in each compartment independently. The proposed model was tested and refined using commercial weight-loss data from participants enrolled on a very low-energy total-diet replacement programme (LighterLife UK, Essex). Mathematical modelling predicted post-intervention weight loss within 0.75% (1.07 kg) of that observed in females with overweight or obesity. Short-term weight loss was consistently underestimated, likely due to considerable FFM reductions reported on the onset of weight loss. The best model agreement was observed from 6 to 9 weeks where the predicted end-weight was within 0.35 kg of that observed. The proposed mathematical model simulated rapid weight loss with reasonable accuracy. Incorporated terms for energy partitioning and adaptive thermogenesis allow us to easily account for dynamic changes in EE, supporting the potential use of such a model in clinical practice.
Competing Interests: None.
(© The Author(s) 2024.)
Databáze: MEDLINE