Influence of Excess Adiposity on Exercise Fitness and Performance in Overweight Children and Adolescents

Abstract

Objective. Relatively little is known about how excess body mass affects adolescents9 capacity to perform sustained exercise. We hypothesized that most of the difficulty that severely overweight adolescents have with sustained exercise occurs because the metabolic costs of moving excess mass result in use of a high proportion of their total oxygen reserve. Methods. We compared results from a maximal cycle ergometry fitness test in 129 severely overweight adolescents who had BMIs of 41.5 ± 9.7 kg/m² and ages of 14.5 ± 1.8 years (range: 12.1–17.8 years) and 34 nonoverweight adolescents who had BMIs of 20.1 ± 2.9 kg/m² and ages of 14.5 ± 1.5 years (range: 12.0–18.1 years). Oxygen uptake (V̇o₂) was compared at 3 times: during a 4-minute period of unloaded cycling (ULV̇o₂), at the lactate threshold estimated by gas exchange (LTV̇o₂), and at maximal exertion (V̇o₂ max). Heart rate was obtained at rest and at V̇o₂ max. Participants also completed a 12-minute walk/run performance test to obtain distance traveled (D12) and heart rate. Results. Absolute LTV̇o₂ and V̇o₂ max and LTV̇o₂ as a percentage of V̇o₂ max were not different in overweight and nonoverweight adolescents during the cycle test. However, absolute ULV̇o₂ was significantly greater in overweight adolescents: ULV̇o₂ accounted for 35 ± 8% of V̇o₂ max (and 63 ± 15% of LTV̇o₂) in overweight adolescents but only 20 ± 5% of V̇o₂ max (and 39 ± 12% of LTV̇o₂) in nonoverweight adolescents. Resting heart rate before initiating the cycle test was significantly greater in overweight than nonoverweight adolescents (94 ± 14 vs 82 ± 15 beats per minute). However, maximal heart rate during the cycle test was significantly lower in overweight adolescents (186 ± 13 vs 196 ± 11 beats per minute). During the walk/run test, mean D12 was significantly shorter for overweight than for nonoverweight adolescents (1983 ± 323 vs 1159 ± 194 m). D12 was negatively related to BMI SDS (r = −0.81) and to ULV̇o₂ (r = −0.98). Discussion. Overweight and nonoverweight adolescents had similar absolute V̇o₂ at the lactate threshold and at maximal exertion, suggesting that overweight adolescents are more limited by the increased cardiorespiratory effort required to move their larger body mass through space than by cardiorespiratory deconditioning. The higher percentage of oxygen consumed during submaximal exercise indicates that overweight adolescents are burdened by the metabolic cost of their excess mass. Their greater oxygen demand during an unloaded task predicted poorer performance during sustained exercise. Exercise prescriptions for overweight adolescents should account for the limited exercise tolerance imposed by excess body mass, focusing on activities that keep demands below lactate threshold so that exercise can be sustained.