CONTEXT: Uncertainty exists regarding the effect of sustained sweating on sweat mineral-element composition. PURPOSE: To determine the effect of multiple hours of exercise-heat stress on sweat mineral concentrations. METHODS: Seven heat-acclimated subjects (6 males, 1 female) completed 5 x 60 min of treadmill exercise (1.56 m/s, 2% grade) with 20 min rest between exercise periods in 2 weather conditions (27 degrees C, 40% relative humidity, 1 m/s and 35 degrees C, 30%, 1 m/s). Sweat was collected from a sweat-collection pouch attached to the upper back during exercise bouts 1, 3, and 5. Mineral elements were determined by using inductively coupled plasma-emission spectrography. RESULTS: At 27 degrees C, sweat sodium (863 [563] microg/mL; mean [SD]), potassium (222 [48] microg/mL), calcium (16 [7]) microg/mL), magnesium (1265 [566] ng/mL), and copper (80 [56] ng/mL) remained similar to baseline over 7 h of exercise-heat stress, whereas sweat zinc declined 42-45% after the initial hour of exercise-heat stress (Ex1 = 655 [362], Ex3 = 382 [168], Ex5 = 355 [288] microg/mL, P < 0.05). Similar outcomes were observed for sweat zinc at 35 degrees C when sweat rates were higher. Sweat rate had no effect on sweat trace-element composition. CONCLUSIONS: Sweat sodium, potassium, and calcium losses during multiple hours of sustained sweating can be predicted from initial sweat composition. Estimates of sweat zinc losses, however, will be overestimated if sweat zinc conservation is not accounted for in sweat zinc-loss estimates.
CONTEXT: Uncertainty exists regarding the effect of sustained sweating on sweat mineral-element composition. PURPOSE: To determine the effect of multiple hours of exercise-heat stress on sweat mineral concentrations. METHODS: Seven heat-acclimated subjects (6 males, 1 female) completed 5 x 60 min of treadmill exercise (1.56 m/s, 2% grade) with 20 min rest between exercise periods in 2 weather conditions (27 degrees C, 40% relative humidity, 1 m/s and 35 degrees C, 30%, 1 m/s). Sweat was collected from a sweat-collection pouch attached to the upper back during exercise bouts 1, 3, and 5. Mineral elements were determined by using inductively coupled plasma-emission spectrography. RESULTS: At 27 degrees C, sweat sodium (863 [563] microg/mL; mean [SD]), potassium (222 [48] microg/mL), calcium (16 [7]) microg/mL), magnesium (1265 [566] ng/mL), and copper (80 [56] ng/mL) remained similar to baseline over 7 h of exercise-heat stress, whereas sweat zinc declined 42-45% after the initial hour of exercise-heat stress (Ex1 = 655 [362], Ex3 = 382 [168], Ex5 = 355 [288] microg/mL, P < 0.05). Similar outcomes were observed for sweat zinc at 35 degrees C when sweat rates were higher. Sweat rate had no effect on sweat trace-element composition. CONCLUSIONS: Sweat sodium, potassium, and calcium losses during multiple hours of sustained sweating can be predicted from initial sweat composition. Estimates of sweat zinc losses, however, will be overestimated if sweat zinc conservation is not accounted for in sweat zinc-loss estimates.
Authors: Mary Beth Brown; Karla K V Haack; Brian P Pollack; Mindy Millard-Stafford; Nael A McCarty Journal: Am J Physiol Regul Integr Comp Physiol Date: 2011-01-12 Impact factor: 3.619
Authors: Tamara Hew-Butler; Jed Hummel; Brian C Rider; Joseph G Verbalis Journal: Am J Physiol Regul Integr Comp Physiol Date: 2014-06-18 Impact factor: 3.619
Authors: Laura J Lutz; J Philip Karl; Jennifer C Rood; Sonya J Cable; Kelly W Williams; Andrew J Young; James P McClung Journal: J Int Soc Sports Nutr Date: 2012-08-06 Impact factor: 5.150