期刊
MEDICINE AND SCIENCE IN SPORTS AND EXERCISE
卷 52, 期 3, 页码 705-711出版社
LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1249/MSS.0000000000002160
关键词
BODY SURFACE AREA; EFFECTIVE SURFACE AREA; HEAT PRODUCTION; WORK INTENSITY; BURN SURVIVOR
资金
- Department of Defense [W81XWH-15-1-0647]
- National Institutes of Health [R01GM068865]
- Natural Sciences and Engineering Research Council of Canada Postdoctoral Fellowship
Although the severity of a burn injury is often associated with the percentage of total body surface area burned (%TBSA), the thermoregulatory consequences of a given %TBSA injury do not account for the interactive effects of body morphology and metabolic heat production (H-prod). Purpose Using a simulated burn injury model to mimic the detrimental effect of a 40% TBSA injury on whole-body evaporative heat dissipation, core temperature response to exercise in physiologically uncompensable conditions between morphologically disparate groups were examined at (i) an absolute H-prod (W), and (ii) a mass-specific H-prod (W center dot kg(-1)). Methods Healthy, young, nonburned individuals of small (SM, n = 11) or large (LG, n = 11) body size cycled for 60 min at 500 W or 5.3 W center dot kg(-1) of H-prod in 39 degrees C and 20% relative humidity conditions. A 40% burn injury was simulated by affixing a highly absorbent, vapor-impermeable material across the torso (20% TBSA), arms (10% TBSA), and legs (10% TBSA) to impede evaporative heat loss in those regions. Results Although the elevation in core temperature was greater in SM compared with LG at an H-prod of 500 W (SM, 1.69 degrees C +/- 0.26 degrees C; LG, 1.05 degrees C +/- 0.26 degrees C; P < 0.01), elevations in core temperature were not different at an H-prod of 5.3 W center dot kg(-1) between groups (SM, 0.99 degrees C +/- 0.32 degrees C; LG, 1.05 degrees C +/- 0.26 degrees C; P = 0.66). Conclusions These data suggest that among individuals with a 40% TBSA burn injury, a smaller body size leads to exacerbated elevations in core temperature during physical activities eliciting the same absolute H-prod (non-weight-bearing tasks) but not activities eliciting the same mass-specific H-prod (weight-bearing tasks).
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