Sweating and core temperature in atheletes training in continous and intermittent sports in tropical climate

• Rivera Brown, Anita M. ^[1] ; Ramirez Marrero, Farah A. ^[1] ; Frontanés, Jessica ^[2] ; Rosario, Raúl A. ^[3] ; Hernández, Osvaldo J. ^[1] ; Frontera, Walter R. ^[1]
  1. [1] University of Puerto Rico
  2. [2] St. Luke's University Health Network
  3. [3] Mayo Clinic Sports Medicine

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• Localización: Archivos de medicina del deporte: revista de la Federación Española de Medicina del Deporte y de la Confederación Iberoamericana de Medicina del Deporte, ISSN 0212-8799, Vol. 36, Nº. 190 (Marzo / Abril), 2019, págs. 86-91
• Idioma: inglés
• Títulos paralelos:
  • Sudoración y temperatura interna en atletas durante entrenamiento para deportes continuos e intermitentes en clima tropical
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• Dialnet Métricas: 1 Cita
• Resumen
  • español

    Se reportan tasas de sudoración más altas durante ejercicio intermitente comparado con continuo en condiciones de calor en el laboratorio. Estudios en el campo de entrenamiento son escasos.

    Objetivo: Documentar la tasa de sudoración, rehidratación y temperatura central (Tc ) durante entrenamiento para deportes de tipo continuo (CON) e intermitente (INT), y determinar presencia de mutación genética en el gen CFTR en atletas con alta concentración de sodio ([Na+]) en sudor.

    Metodología: Se evaluó la tasa de sudoración, la [Na+] en sudor, la Tc , y el nivel de deshidratación en atletas (CON =50; INT =123) durante entrenamiento en clima tropical, y la presencia de la mutación genética ∆F508 en el gen CFTR en aquellos con alta [Na+] en sudor.

    Resultados: La tasa de sudoración fue mayor en CON (1,5 ± 0,4 L/h) comparado con INT (1,2 ± 0,5 L/h) y los atletas en CON terminaron el entrenamiento con mayor deshidratación (2,1 ± 0,8 vs 1,2 ± 0,7%) P < 0,05. La [Na+] en sudor fue más alta en INT (62,0 ± 21,1 mmol/L) comparado con CON (53,9 ± 18,1 mmol/L), P < 0,05. Un tenista con alta [Na+] era heterocigoto para la mutación ΔF508. La Tc promedio y más alta fueron similares para CON (38,4 ± 0,3 y 38,8 ± 0,4 o C) e INT (38,3 ± 0,3 y 38,7 ± 0,4 o C), P > 0,05.

    Conclusión: Durante el entrenamiento en clima tropical, la pérdida de sudor y el nivel de deshidratación son más bajos, y la ingesta de líquido es más alta en deportes intermitentes que en deportes continuos. La temperatura interna puede aumentar a nivel similar en deportes intermitentes debido a periodos repetidos de alta intensidad y/o la vestimenta usada durante el entrenamiento. Atletas saludables con alta [Na+] en sudor que son heterocigóticos para mutaciones de CFTR pueden estar en mayor riesgo de deshidratación hiponatrémica y calambres musculares.

  • English

    Higher sweat rate values have been reported during intermittent compared to continuous type exercise in hot conditions in the laboratory. Studies in the training field are scarce.

    Objective: Document sweat rate, rehydration and core temperature (Tc) during training in long duration-continuous (CON) and intermittent (INT) type sports, and determine the presence of a mutation in the CFTR gene in athletes with high sodium concentration ([Na+]) in sweat.

    Methods: Athletes (CON =50 and INT=123) were tested during training in tropical climate. Sweat rate, sweat [Na+], Tc , dehydration level, and presence of ∆ F508 gene mutation in the CFTR gene in athletes with high sweat [Na+] were evaluated.

    Results: Sweat rate was higher in CON (1.5 ± 0.4 L/h) compared to INT (1.2 ± 0.5 L/h) and CON athletes finished training with higher dehydration (2.1 ± 0.8 vs 1.2 ± 0.7%) P < 0.05. Sweat [Na+] was higher in INT (62.0 ± 21.1 mmol/L) compared to CON (53.9 ± 18.1 mmol/L), P < 0.05. A tennis player with high [Na+] was heterozygous for the ΔF508 mutation. Average and highest Tc was similar for CON (38.4 ± 0.3 and 38.8 ± 0.4 o C) and INT (38.3 ± 0.3 and 38.7 ± 0.4 o C), P > 0.05.

    Conclusion: During training in a tropical climate, sweat loss and dehydration level are lower, and fluid intake is higher in intermittent compared to continuous type sports. Core temperature may rise to a similar level in intermittent type sports due to the repeated high intensity bouts and/or the effects of clothing worn while training in hot venues. Healthy athletes with high [Na+] in sweat who are heterozygous carriers of CFTR mutations may be at increased risk for hyponatremic dehydration and whole-body muscle cramps.

• Referencias bibliográficas
  • Gonzalez-Alonso J, Crandall CG, Johnson JM. The cardiovascular challenge of exercising in the heat. J Physiol. 2008;586(1):45-53.
  • Sawka MN, Burke LM, Eichner ER, Maughan RJ, Montain SJ, Stachenfeld NS. American College of Sports Medicine position stand. Exercise and fluid...
  • Mora-Rodriguez R, Del Coso J, Estevez E. Thermoregulatory responses to constant versus variable-intensity exercise in the heat. Med Sci Sports...
  • Stofan JR, Zachwieja JJ, Horswill CA, Murray R, Anderson SA, Eichner ER. Sweat and sodium losses in NCAA football players: a precursor to...
  • Buono MJ, Ball KD, Kolkhorst FW. Sodium ion concentration vs. sweat rate relationship in humans. J Appl Physiol. 2007;103(3):990-4.
  • Kirby CR, Convertino VA. Plasma aldosterone and sweat sodium concentrations after exercise and heat acclimation. J Appl Physiol. 1986;61:967-70.
  • Brown MB, Haack KK, Pollack BP, Millard-Stafford M, McCarty NA. Low abundance of sweat duct Clchannel CFTR in both healthy and cystic fibrosis...
  • Sato K, Sato F. Na+, K+, H+, Cl-, and Ca2+ concentrations in cystic fibrosis eccrine sweat in vivo and in vitro. J Lab Clin...
  • Eichner ER. Genetic and other determinants of sweat sodium. Curr Sports Med Rep. 2008;7:S36-S40.
  • Bobadilla JL, Macek M, Jr., Fine JP, Farrell PM. Cystic fibrosis: a worldwide analysis of CFTR mutations--correlation with incidence data...
  • Riordan JR, Rommens JM, Kerem B, et al. Identification of the cystic fibrosis gene: cloning and characterization of complementary DNA. Science....
  • Sawka MN, Latzka WA, Montain SJ, et al. Physiologic tolerance to uncompensable heat: intermittent exercise, field vs laboratory. Med Sci Sports...
  • Drust B, Reilly T, Cable NT. Physiological responses to laboratory-based soccer-specific intermittent and continuous exercise. J Sports Sci....
  • Gagnon D, Kenny GP. Exercise-rest cycles do not alter local and whole body heat loss responses. Am J Physiol Regul Integr Comp Physiol. 2011;300(4):R958-68.
  • Armstrong LE, Johnson EC, Casa DJ, et al. The American football uniform: uncompensable heat stress and hyperthermic exhaustion. J Athl Train....
  • Armstrong LE, Casa DJ, Millard-Stafford M, Moran DS, Pyne SW, Roberts WO. American College of Sports Medicine position stand. Exertional heat...
  • Casa DJ, Armstrong LE, Hillman SK, et al. National Athletic Trainers’ Association position statement: Fluid replacement for athletes. J Athl...
  • Yaglou C, Minard D. Control of heat casualties at military training centers. Arch Ind Health. 1957;16:302-5.
  • Brown MB, McCarty NA, Millard-Stafford M. High-sweat Na+ in cystic fibrosis and healthy individuals does not diminish thirst during exercise...
  • Freedson PS, Melanson E, Sirard J. Calibration of the Computer Science and Applications, Inc. accelerometer. Med Sci Sports Exerc. 1998;30(5):777-81.
  • Inoue Y, Havenith G, Kenney WL, Loomis JL, Buskirk ER. Exercise-and methylcholineinduced sweating responses in older and younger men: effect...
  • Baker LB, Barnes KA, Anderson ML, Passe DH, Stofan JR. Normative data for regional sweat sodium concentration and whole-body sweating rate...
  • Ekblom B, Greenleaf CJ, Greenleaf JE, Hermansen L. Temperature regulation during continuous and intermittent exercise in man. Acta Physiol...
  • Broad EM, Burke LM, Cox GR, hecley P, Riley M. Body neight changes and voluntary fluid intakes during training and competition sessions in...
  • Montain SJ, Cheuvront SN, Sawka MN. Exercise associated hyponatraemia: quantitative analysis to understand the aetiology. Br J Sports Med....
  • Quinton PM. Cystic fibrosis: a disease in electrolyte transport. FASEB J. 1990;4(10):2709-17.
  • Kraning KK, Gonzalez RR. Physiological consequences of intermittent exercise during compensable and uncompensable heat stress. J Appl Physiol....
  • Belding HS, Hertig BA, Kraning KK. Comparison of man's responses to pulsed and unpulsed environmental heat and exercise. J Appl Physiol....
  • Lind AR. A physiological criterion for setting thermal environmental limits for everyday work. J Appl Physiol. 1963;18:51-6.
  • Rivera-Brown AM, De Felix-Davila RA. Hydration status in adolescent judo athletes before and after training in the heat. Int J Sports Physiol...