Litcius/Paper detail

Interaction of Exercise Intensity and Simulated Burn Injury Size on Thermoregulation

Luke N. Belval, Matthew N. Cramer, Gilbert Moralez, Mu Huang, Frank A. Cimino, Joseph C. Watso, Craig G. Crandall

2020Medicine & Science in Sports & Exercise13 citationsDOIOpen Access PDF

Abstract

ABSTRACT The U.S. Department of Defense’s Medical Standards for Appointment, Enlistment, or Induction into the Military Services excludes personnel with burn injuries covering 18% or more of their body surface area (BSA). However, this requirement does not consider the metabolic heat loads associated with physical activities of different intensities that may influence a burn survivor’s ability to perform his/her duties. Purpose This study aimed to test the hypothesis that the elevation in internal body temperature during exercise in a hot environment is influenced by the combination of exercise intensity and BSA burned. Methods Ten healthy participants (8 males, 2 females; 32 ± 9 yr; 75.3 ± 11.7 kg) completed eight exercise trials on a cycle ergometer, each with different combinations of metabolic heat productions (low, 4 W·kg −1 ; moderate, 6 W·kg −1 ) and simulated BSA burn in a hot environmental chamber (39.9°C ± 0.3°C, 20.1% ± 1.5% RH). Burns were simulated by covering 0%, 20%, 40%, or 60% of participants’ BSA with a highly absorbent, vapor-impermeable material. Gastrointestinal temperature ( T GI ) was recorded, with the primary analysis being the increase in T GI after 60 min of exercise. Results We identified an interaction effect for the increase in T GI ( P < 0.01), suggesting T GI was influenced by both intensity and simulated burn BSA. Regardless of the percentage BSA burn simulated, the increase in T GI was similar across low-intensity trials (0.70°C ± 0.26°C, P > 0.11 for all). However, during moderate-intensity exercise, the increase in T GI was greater for the 60% (1.78°C ± 0.38°C, P < 0.01) and 40% BSA coverage trials (1.33°C ± 0.44°C, P = 0.04), relative to 0% (0.82°C ± 0.36°C). There were no differences in T GI responses between 0% and 20% trials. Conclusion These data suggest that exercise intensity influences the relationship between burn injury size and thermoregulatory responses in a hot environment.

Topics & Concepts

Intensity (physics)Body surface areaThermoregulationTotal body surface areaCycle ergometerBurn injuryMedicineExercise intensityAnimal sciencePhysical therapyInternal medicineSurgeryHeart rateBiologyBlood pressurePhysicsQuantum mechanicsBurn Injury Management and OutcomesThermoregulation and physiological responsesInfrared Thermography in Medicine
Interaction of Exercise Intensity and Simulated Burn Injury Size on Thermoregulation | Litcius