Are obese children truly unfit? Minimizing the confounding effect of body size on the exercise response

Chaim Springer,Jeff Poage,Dan M Cooper,Thomas J Barstow

doi:10.1016/s0022-3476(05)82878-1

Chaim Springer, Jeff Poage + Show 2 more

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https://doi.org/10.1016/s0022-3476(05)82878-1

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Abstract

To test the hypothesis that obese children are unfit (i.e., have abnormal responses to exercise testing consistent with reduced levels of habitual physical activity), we used new analytic strategies in studies of 18 obese children performing cycle ergometry. The subject's weight (mean +/- SD) was 168 +/- 24% that predicted by height, and the age range was 9 to 17 years. Size-independent measures of exercise (e.g., the ratio of oxygen uptake (VO2) to work rate during progressive exercise and the temporal response of VO2, carbon dioxide output (VCO2), and minute ventilation (VE) at the onset of exercise) were used. The ability to perform external mechanical work was corrected for VO2 at unloaded pedaling (change in maximum oxygen uptake (delta VO2max) and in anaerobic threshold (delta AT). On average, obese children's responses were in the normal range: delta VO2max, 104 +/- 41% (+/- SD) predicted (by age); delta AT, 85 +/- 51%; ratio of change in VE to change in VCO2, 111 +/- 21% and ratio of change in VO2 to change in work rate, 100 +/- 24%, but six of the obese children had values of delta VO2max or delta AT that were more than 2 SD below normal. In addition, obese children did not have increased delta VO2max or delta AT with age as observed in nonobese children. Although the response time of VO2 was normal (99 +/- 32% of predicted), those for both VCO2 and VE were prolonged. We conclude that the finding of obesity in a child is not a reliable indicator of poor fitness but that testing cardiorespiratory responses to exercise can be used to identify subjects with serious impairment and to individualize therapy.

Highlights

Title Are obese children truly unfit? Minimizing the confounding effect of body size on the exercise response
Obese children's responses were in the normal range: AVo2max, 104 _+ 41% (_+SD) predicted; AAT, 85 _+ 51%, ratio of change in VEto change in Vco2, 111 _+ 21% and ratio of change in Vo2 to change in work rate, 100 +_ 24%, but six of the obese children had values of ~Vo2max or AAT that were more than 2 SD below normal
Understanding the relationship between body mass and metabolic function during physical activity is fundamental for the management of childhood obesity, but an ideal way to account for the metabolic effect of increased adipose tissue when gauging cardiorespiratory responses has not been

Summary

Introduction

Title Are obese children truly unfit? Minimizing the confounding effect of body size on the exercise response. To test the hypothesis that obese children are unfit (i.e., have abnormal responses to exercise testing consistent with reduced levels of habitual physical activity), we used new analytic strategies in studies of 18 obese children performing cycle ergometry. Obese children's responses were in the normal range: AVo2max, 104 _+ 41% (_+SD) predicted (by age); AAT, 85 _+ 51%, ratio of change in VEto change in Vco2, 111 _+ 21% and ratio of change in Vo2 to change in work rate, 100 +_ 24%, but six of the obese children had values of ~Vo2max or AAT that were more than 2 SD below normal. Understanding the relationship between body mass and metabolic function during physical activity is fundamental for the management of childhood obesity, but an ideal way to account for the metabolic effect of increased adipose tissue when gauging cardiorespiratory responses has not been

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