Abstract
Seven active male subjects cycled for 60 min at 29.5 (0.8)% peak work rate on three separate occasions in a hot environmental condition [36.0 (0.1)°C, 60 (1)% relative humidity] in order to determine the reproducibility of a closed-pouch sweat collection technique for sweat composition at the scapula, forearm and thigh. To confirm that sweat composition was not influenced by between-trial variations in sudomotor drive, local sweat rate, whole-body sweat rate, heart rate (HR), rectal temperature (T re) and mean skin temperature (T sk) responses were also measured, consequently reproducibility was also established for these variables. Sweat composition did not differ among trials, with the mean coefficients of variation (CVs) for sweat [Na+], [K+] and pH being 10.4 (7.4)%, 8.1 (6.5)% and 1.3 (1.1)%, respectively. Local sweat rates did not differ among the three trials (P>0.05) although whole-body sweat rate was reduced in the third trial (P<0.05). The mean CVs were 11.0 (7.8)% and 4.7 (1.6)% for local and whole-body sweat rates, respectively. Between-trial differences were not evident for T re, T sk or HR with mean CVs of 0.3 (0.2)%, 0.7 (0.6)% and 3.9 (1.7)%, respectively, although HR tended to be greater in the first trial (P=0.08). It is proposed that moderate variations in sweat composition were influenced by variations in the local sweat rate, which were induced by application of the pouch.
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References
Allan JR, Wilson CG (1971) Influence of acclimatization on sweat sodium concentration. J Appl Physiol 30:708–712
Armstrong LE, Costill DL, Fink WJ, Bassett D, Hargreaves M, Nishibata I, King DS (1985) Effects of dietary sodium on body and muscle potassium content during heat acclimation. Eur J Appl Physiol 54:391–397
Barnett A, Maughan RJ (1993) Response of unacclimatized males to repeated weekly bouts of exercise in the heat. Br J Sports Med 27:39–44
Boisvert P, Candas V (1994) Validity of the Wescor’s sweat conductivity analyzer for the assessment of sweat electrolyte concentrations. Eur J Appl Physiol 69:176–178
Brisson GR, Boisvert P, Peronnet F, Perrault H, Boisvert D, Lafond JS (1991) A simple and disposable sweat collector. Eur J Appl Physiol 63:269–272
ISO International Organisation for Standardization (1992) Evaluation of thermal strain by physiological measurements. Geneva, Switzerland
Patterson MJ, Galloway SDR, Nimmo MA (2000) Variations in regional sweat composition in normal human males. Exp Physiol 85:869–875
Shibasaki M, Kondo N, Crandall CG (2001) Evidence for metaboreceptor stimulation of sweating in normothermic and heat-stressed humans. J Physiol (Lond) 534:605–611
Shirreffs SM, Maughan RJ (1997) Whole body sweat collection in humans: an improved method with preliminary data on electrolyte content. J Appl Physiol 82:336–341
Wilmore JH, Stanforth PR, Turley KR, Gagnon J, Daw EW, Leon AS, Rao DC, Skinner JS, Bouchard C (1998) Reproducibility of cardiovascular, respiratory, and metabolic responses to submaximal exercise: The HERITAGE Family Study. Med Sci Sports 30:259–265
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Hayden, G., Milne, H.C., Patterson, M.J. et al. The reproducibility of closed-pouch sweat collection and thermoregulatory responses to exercise–heat stress. Eur J Appl Physiol 91, 748–751 (2004). https://doi.org/10.1007/s00421-004-1057-x
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DOI: https://doi.org/10.1007/s00421-004-1057-x