Increased weight-load improves body composition by reducing fat mass and waist circumference, and by increasing lean mass in participants with obesity: a single-centre randomised controlled trial

Increased weight-load improves body composition by reducing fat mass and waist circumference, and by increasing lean mass in participants with obesity: a single-centre randomised controlled trial

Abstract Background To investigate the effects of increased weight-loading on body weight, body composition, fat mass distribution, physical activity and energy balance in individuals with obesity. Methods This single-centre non-blinded randomised controlled trial was conducted from August 1, 2021,...

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Main Authors: Jakob Bellman, Klaas Westerterp, Loek Wouters, Marit Johannesson, Niklas Lundqvist, Joel Kullberg, Christel Larsson, Mikael Gustafsson, Stefan Pettersson, Jonatan Fridolfsson, Daniel Arvidsson, Mats Börjesson, Dan Curiac, John-Olov Jansson, Per-Anders Jansson, Claes Ohlsson
Format: Article
Language:English
Published: BMC 2025-05-01
Series:BMC Medicine
Subjects:
Obesity
Weight-bearing
Weight-loading
Standing position
Body composition
Fat mass distribution
Online Access:https://doi.org/10.1186/s12916-025-04143-6
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Summary:Abstract Background To investigate the effects of increased weight-loading on body weight, body composition, fat mass distribution, physical activity and energy balance in individuals with obesity. Methods This single-centre non-blinded randomised controlled trial was conducted from August 1, 2021, through February 28, 2022. Adults with obesity class 1 (body mass index, BMI 30–35 kg/m2) were assigned to wear either a heavy (high load; 11% of body weight, n = 28) or light (low load; 1% of body weight, n = 30) weight vest for 8 h per day over 5 weeks. Results High-load treatment reduced fat mass (mean difference − 2.60%; 95% CI − 3.79, − 1.41) and increased lean mass (mean difference 1.40%; 95% CI 0.37, 2.42), with no significant effect on body weight. Fat mass reductions were primarily observed in weight-loaded regions but not in the non-weight-bearing regions such as the arms. Waist circumference decreased (mean difference − 2.26%; 95% CI − 3.81, − 0.71) in the high-load group compared to the low-load group. Despite these beneficial changes, sedentary time was higher in the high-load group (mean difference 4.69%; 95% CI 0.98, 8.39) compared to the low-load group, while energy expenditure and energy intake remained unchanged. Conclusions Increased weight-loading reduced fat mass and increased lean mass, resulting in a healthier body composition. These effects were achieved despite no increase in physical activity. The fat mass-reducing effect was primarily seen in weight-loaded regions, implying local adaptation to the increased loading. Trial registration Registered at ClinicalTrials.gov (NCT04697238) in 2021.
ISSN:1741-7015

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