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Sports Medicine

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01.04.2004 | Leading Article

Recommendations for Treatment of Hyponatraemia at Endurance Events

verfasst von: Dr Margaret Hsieh

Erschienen in: Sports Medicine | Ausgabe 4/2004

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Abstract

This review focuses on possible pathophysiology of exercise-associated hyponatraemia and its implication on evaluation and treatment of collapsed athletes during endurance events. Rehydration guidelines and field care have traditionally been based on the belief that endurance events create a state of significant fluid deficit in athletes, which must be corrected by liberal hydration. Beliefs in the necessity of liberal hydration may have contributed to cases of hyponatraemia. Assumptions that fluid loss accounts for the entire weight loss during exercise and that fluid ingestion is the only source of water gain during exercise may lead to an overestimation of the degree of volume depletion and the amount of fluid needed for replacement.

Increasing evidence suggests that hyponatraemic athletes are fluid overloaded; ingestion of large amount of hypotonic fluid in combination with inappropriate or inadequate physiological responses leads to excessive retention of free fluid. Risk factors include hot weather, female sex, slower finishing time, and possibly the use of nonsteroidal anti-inflammatory medications. Symptoms of hyponatraemia can be subtle and can mimic those of other exercise-related illnesses, thereby complicating its diagnosis and leading to possible inappropriate treatment. Most athletes who collapse at the finish line experience exercise-associated collapse, a benign and transient form of postural hypotension that can be treated simply by continued ambulation after finishing or elevation of legs while in a supine position for those who cannot walk.

Care providers should consider the use of intravenous hydration with normal saline carefully since it is not needed by most collapsed athletes and may worsen the condition of patients with unsuspected hyponatraemia. Historic information and clinical signs of volume depletion should be elicited prior to its use. Most hyponatraemic athletes will recover uneventfully with careful observation while awaiting spontaneous diuresis. Use of hypertonic saline should be reserved for patients with severe symptoms. Moderate consumption of carbohydrate-electrolyte solution during exercise may allow the maintenance of adequate hydration and the prevention of hyponatraemia.

Casa DJ, Armstrong LE, Hillman SK, et al. National Athletic Trainers’ Association position statement: fluid replacement for athletes. J Athletic Training 2000; 35(2): 212–24

Convertino VA, Armstrong LE, Coyle EF, et al. ACSM position stand: exercise and fluid replacement. Med Sci Sports Exerc 1996 Oct; 28(10): i–ixPubMedCrossRef

Armstrong LE, Epstein Y, Greenleaf JE, et al. American College of Sports Medicine position stand: heat and cold illnesses during distance running. Med Sci Sports Exerc 1996 Dec; 28(12): i–x

American College of Sports Medicine, American Dietetic Association, Dietitians of Canada. Nutrition and athletic performance. Med Sci Sports Exerc 2000; 32(12): 2130–45CrossRef

Maughan RJ, Leiper JB, Shirreffs SM. Factors influencing the restoration of fluid and electrolyte balance after exercise in the heat. Br J Sports Med 1997; 31: 175–82PubMedCrossRef

Gisolfi CV, Duchman SM. Guidelines for optimal replacement beverages for different athletic events. Med Sci Sports Exerc 1992; 24(6): 679–87PubMed

Millard-Stafford M. Fluid replacement during exercise in the heat: review and recommendations. Sports Med 1992; 13(4): 223–33PubMedCrossRef

The American Dietetic Association. Nutrition and physical fitness. J Am Diet Assoc 1980; 76: 437–43

Clark JM, Gennari FJ. Encephalopathy due to severe hyponatremia in an ultramarathon runner. West J Med 1993; 159(2): 188–9PubMed

10.

Fallon KE, Sivyer G, Sivyer K, et al. The biochemistry of runners in a 1600km ultramarathon. Br J Sports Med 1999; 33(4): 264–9PubMedCrossRef

11.

Frizzell RT, Lang GH, Lowance DC, et al. Hyponatremia and ultramarathon running. JAMA 1986; 255(6): 772–4PubMedCrossRef

12.

Surgenor S, Uphold RE. Acute hyponatremia in ultra-endurance athletes. Am J Emerg Med 1994; 12(4): 441–4PubMedCrossRef

13.

Speedy DB, Rogers IR, Safih S, et al. Hyponatremia and seizures in an ultradistance triathlete. J Emerg Med 2000; 18(1): 41–4PubMedCrossRef

14.

Speedy DB, Noakes TD, Kimber NE, et al. Fluid balance during and after an Ironman Triathlon. Clin J Sport Med 2001; 11: 44–50PubMedCrossRef

15.

Noakes TD, Goodwin N, Rayner BL, et al. Water intoxication: a possible complication during endurance exercise. Med Sci Sports Exerc 1985; 17(3): 370–5PubMed

16.

Hiller WDB, O’Toole ML, Massimino F, et al. Plasma electrolyte and glucose changes during the Hawaiian Ironman Triathlon [abstract]. Med Sci Sports Exerc 1985; 17: 219

17.

Hiller WDB, O’Toole JL, Fortess EE, et al. Medical and physiological considerations in triathlons. Am J Sports Med 1987; 15(2): 164–7PubMedCrossRef

18.

Speedy DB, Noakes TD, Rogers IR, et al. Hyponatremia in ultradistance triathletes. Med Sci Sports Exerc 1999; 31(6): 809–15PubMedCrossRef

19.

Speedy DB, Rogers IR, Noakes TD, et al. Diagnosis and prevention of hyponatremia at an ultradistance triathlon. Clin J Sport Med 2000; 10: 52–8PubMedCrossRef

20.

Holtzhausen LM, Noakes TD, Kroning B, et al. Clinical and biochemical characteristics of collapsed ultramarathon runners. Med Sci Sports Exerc 1994; 26(9): 1095–101PubMed

21.

Godlonton JD. Comrades Marathon: setting the facts straight [letter]. S Afr Med J 1985; 68: 291

22.

Norman RJ, Godlonton J, Buck RH, et al. Why marathon runners collapse [letter]. S Afr Med J 1988; 74(5): 246

23.

Noakes TD, Norman RJ, Buck RH, et al. The incidence of hyponatremia during prolonged ultraendurance exercise. Med Sci Sports Exerc 1990; 22(2): 165–70PubMed

24.

Norman RJ, Coutts PB, Godlonton J. Organisation of a field laboratory at an ultramarathon. Clin Chem 1988; 34: 643–4PubMed

25.

Hiller WDB. Dehydration and hyponatremia during triathlons. Med Sci Sports Exerc 1989; 21 (5 Suppl.): S219–21PubMed

26.

Armstrong LE, Curtis WC, Hubbard RW, et al. Symptomatic hyponatremia during prolonged exercise in heat. Med Sci Sports Exerc 1993; 25(5): 543–9PubMed

27.

Ayus JC, Varon J, Arieff AI. Hyponatremia, cerebral edema, and noncardiogenic pulmonary edema in marathon runners. Ann Intern Med 2000; 132(9): 711–4PubMed

28.

Hsieh M, Roth R, Davis DL, et al. Hyponatremia in runners requiring on-site medical treatment at a single marathon. Med Sci Sports Exerc 2002; 34(2): 185–9PubMedCrossRef

29.

Young M, Sciurba F, Rinaldo J. Delirium and pulmonary edema after completing a marathon. Am Rev Respir Dis 1987; 136(3): 737–9PubMedCrossRef

30.

Schmidt W, Rojas J, Boning D, et al. Plasma-electrolytes in natives to hypoxia after marathon races at different altitudes. Med Sci Sports Exerc 1999; 31(10): 1406–13PubMedCrossRef

31.

Hew TD, Chorley JN, Cianca JC, et al. The incidence, risk factors, and clinical manifestations of hyponatremia in marathon runners. Clin J Sport Med 2003; 13: 41–7PubMedCrossRef

32.

Davis DP, Videen JS, Marino A, et al. Exercise-associated hyponatremia in marathon runners: a two-year experience. J Emerg Med 2001; 21(1): 47–57PubMedCrossRef

33.

Smith S. Marathon runner’s death linked to excessive fluid intake. New York Times 2002 Aug 13

34.

Backer HD, Shopes EM, Collins SL, et al. Exertional heat illness and hyponatremia in hikers. Am J Emerg Med 1999; 17(6): 532–9PubMedCrossRef

35.

Shopes EM. Drowning in the desert: exercise-induced hyponatremia at the Grand Canyon. J Emerg Nurs 1997; 23(6): 586–90PubMedCrossRef

36.

Zelingher J, Putterman C, Ilan Y, et al. Case series: hyponatremia associated with moderate exercise. Am J Med Sci 1996; 311(2): 86–91PubMedCrossRef

37.

Flinn SD, Sherer RJ. Seizure after exercise in the heat. Phys Sportsmed 2000; 28(9): 61–7PubMedCrossRef

38.

Garigan TP, Ristedt DE. Death from hyponatremia as a result of acute water intoxication in an army basic trainee. Mil Med 1999; 164(3): 234–8PubMed

39.

Reynolds NC, Shumakere HD, Feighery S. Complications of fluid overload in heat casualty prevention during field training. Mil Med 1998; 163(11): 789–91PubMed

40.

Haralambie G, Senser L, Sierra-Chavez R. Physiological and metabolic effects of a 25km race in female athletes. Eur J Appl Physiol 1981; 47(2): 123–31CrossRef

41.

Maughan RJ, Whiting PH, Davidson RJL. Estimation of plasma volume changes during marathon running. Br J Sports Med 1985; 19(3): 138–41PubMedCrossRef

42.

Rogers G, Goodman C, Clifford R. Water budget during ultra-endurance exercise. Med Sci Sports Exerc 1997; 29(11): 1477–81PubMedCrossRef

43.

Noakes TD, Adams BA, Myburgh K, et al. The danger of an inadequate water intake during prolonged exercise: a novel concept revisited. Eur J Appl Physiol 1988; 57: 210–20CrossRef

44.

Coombs JS, Hamilton KL. The effectiveness of commercially available sports drinks. Sports Med 2000; 29(3): 181–209CrossRef

45.

Barr SI, Costill DL, Fink WJ. Fluid replacement during prolonged exercise: effects of water, saline, or no fluid. Med Sci Sports Exerc 1991; 23(7): 811–7PubMed

46.

Rocker L, Kirsch KA, Heyduck B, et al. Influence of prolonged physical exercise on plasma volume, plasma proteins, electrolytes, and fluid-regulating hormones. Int J Sports Med 1989; 10(4): 270–4PubMedCrossRef

47.

Mudambo KSMT, Coutie W, Rennie MJ. Plasma arginine vasopressin, atrial natriuretic peptide and brain natriuretic peptide responses in long-term field training in the heat: effects of fluid ingestion and acclimatization. Eur J Appl Physiol 1997; 75: 219–25CrossRef

48.

Cohen I, Zimmerman AL. Changes in serum electrolyte levels during marathon running. S Afr Med J 1978; 53(12): 449–53PubMed

49.

Long D, Blake M, McNaughton L, et al. Hematological and biochemical changes during a short triathlon competition in novice triathletes. Eur J Appl Physiol 1990; 61(1–2): 93–9CrossRef

50.

Nelson PB, Ellis D, Fu F, et al. Fluid and electrolyte balance during a cool weather marathon. Am J Sports Med 1989; 17(6): 770–2PubMedCrossRef

51.

Nicholas CW, Williams C, Lakomy HK, et al. Influence of ingesting a carbohydrate-electrolyte solution on endurance capacity during intermittent, high-intensity shuttle running. J Sports Sci 1995; 13(4): 283–90PubMedCrossRef

52.

Rama R, Ibanez J, Riera M, et al. Hematological, electrolyte, and biochemical alterations after a 100km run. Can J Appl Physiol 1994; 19(4): 411–20PubMedCrossRef

53.

Rose LI, Carroll DR, Lowe SL, et al. Serum electrolyte changes after marathon running. J Appl Physiol 1970; 29(4): 449–51PubMed

54.

Wells CL, Schrader TA, Stern JR, et al. Physiological responses to a 20-mile run under three fluid replacement treatments. Med Sci Sports Exerc 1985; 17(3): 364–9PubMed

55.

Whiting PH, Maughan RJ, Miller JDB. Dehydration and serum biochemical changes in marathon runners. Eur J Appl Physiol 1984; 52(2): 183–7CrossRef

56.

Schrier RW, Hano J, Keller HI, et al. Renal, metabolic, and circulatory responses to heat and exercise: studies in military recruits during summer training, with implications for acute renal failure. Ann Intern Med 1970; 73: 213–23PubMed

57.

Pivarnik JM, Montain SJ, Graves JE, et al. Alterations in plasma volume, electrolytes and protein during incremental exercise at different pedal speeds. Eur J Appl Physiol 1988; 57: 103–9CrossRef

58.

Verde T, Shephard RJ, Corey P, et al. Sweat composition in exercise and in heat. J Appl Physiol 1982; 53(6): 1540–5PubMed

59.

Costill DL. Sweating: its composition and effects on body fluids. Ann N Y Acad Sci 1977; 301: 160–74PubMedCrossRef

60.

Balakian G. What are the ‘ades’ all about? Med Times 1971 Sep; 99(9): 202–18PubMed

61.

Fukumoto T, Tanaka T, Fujioka H, et al. Differences in composition of sweat induced by thermal exposure and by running exercise. Clin Cardiol 1988; 11: 707–9PubMedCrossRef

62.

Tanaka H, Osaka Y, Chikamori K, et al. Dependence on exercise intensity of changes in electrolyte secretion from the skin sampled by a simple method. Eur J Appl Physiol 1990; 60: 407–11CrossRef

63.

Speedy DB, Rogers IR, Noakes TD, et al. Exercise-induced hyponatremia in ultradistance triathletes is caused by inappropriate fluid retention. Clin J Sport Med 2000; 10: 272–8PubMedCrossRef

64.

Speedy DB, Noakes TD, Rogers IR, et al. A prospective study of exercise-associated hyponatremia in two ultradistance triathletes. Clin J Sport Med 2000; 10: 136–41PubMedCrossRef

65.

Putterman C, Levy L, Rubinger D. Transient exercise-induced water intoxication and rhabdomyolysis. Am J Kidney Dis 1993; 21(2): 206–9PubMed

66.

Irving RA, Noakes TD, Buck R, et al. Evaluation of renal function and fluid hemostasis during recovery from exercise-induced hyponatremia. J Appl Physiol 1991; 70(1): 342–8PubMed

67.

Mudambo KSMT, Leese GP, Rennie MJ. Dehydration in soldiers during walking/running exercise in the heat and the effects of fluid ingestion during and after exercise. Eur J Appl Physiol 1997; 76(6): 517–24CrossRef

68.

Vrijens DMJ, Rehrer NJ. Sodium-free fluid ingestion decreases plasma sodium during exercise in the heat. J Appl Physiol 1999; 70(2): 154–60

69.

Galun E, Tur-Kaspa I, Assia E, et al. Hyponatremia induced by exercise: a 24-hour endurance march study. Miner Electrolyte Metab 1991; 17: 315–20PubMed

70.

Peters HPF, Akkermans LMA, Bol E, et al. Gastrointestinal symptoms during exercise: the effect of fluid supplementation. Sports Med 1995; 20(2): 65–76PubMedCrossRef

71.

Leiper JB, Prentice AS, Wrightson C, et al. Gastric emptying of a carbohydrate-electrolyte drink during a soccer match. Med Sci Sports Exerc 2001; 33(11): 1932–8PubMedCrossRef

72.

Murray R. The effects of consuming carbohydrate-electrolyte beverages on gastric emptying and fluid absorption during and following exercise. Sports Med 1987; 4: 322–51PubMedCrossRef

73.

Castenfors J. Renal function during exercise. Acta Physiol Scand 1967; 70Suppl. 293: 1–44

74.

Freund BJ, Shizuru EM, Hashiro GM, et al. Hormonal, electrolyte, and renal responses to exercise are intensity dependent. J Appl Physiol 1991; 70(2): 900–6PubMed

75.

Pastene J, Germain M, Allevard AM, et al. Water balance during and after marathon running. Eur J Appl Physiol 1996; 73(1–2): 49–55CrossRef

76.

Schmidt W, Bub A, Meyer M, et al. Is urodilation the missing link in exercise-dependent renal sodium retention? J Appl Physiol 1998; 84(1): 123–8PubMed

77.

Stokke O. Clinical chemical changes in physical activity. Scand J Soc Med Suppl 1982; 29: 93–101PubMed

78.

Noakes TD. The hyponatremia of exercise. Int J Sport Nutr 1992; 2(3): 205–28PubMed

79.

Anderson JV, Blood SR, Somers VK, et al. Hyponatremia and ultramarathon runners. JAMA 1986; 256(2): 213–4CrossRef

80.

Poortmans JR. Exercise and renal function. Sports Med 1984; 1: 125–53PubMedCrossRef

81.

Bailey RR, Dann E, Gillies AHB, et al. What the urine contains following athletic competition. N Z Med J 1976; 83: 309–13PubMed

82.

McKenna MJ. The roles of ionic processes in muscular fatigue during intense exercise. Sports Med 1992; 13(2): 134–45PubMedCrossRef

83.

Speedy DB, Noakes TD, Boswell T, et al. Response to a fluid load in athletes with a history of exercise induced hyponatremia. Med Sci Sports Exerc 2001; 33(9): 1434–42PubMedCrossRef

84.

Roberts WO. A 12yr profile of medical injury and illness for the Twin Cities Marathon. Med Sci Sports Exerc 2000; 32(9): 1549–55PubMed

85.

Occhi G, Gemma S, Buselli P, et al. Effects of repeated endurance exercise on some metabolic parameters in crosscountry skiers. J Sports Med Phys Fitness 1987; 27: 184–90PubMed

86.

Refsum HE, Tveit B, Meen HD, et al. Serum electrolyte, fluid and acid-base balance after prolonged heavy exercise at low environmental temperature. Scand J Clin Lab Invest 1973; 32: 117–22PubMedCrossRef

87.

Muller J. Why marathon runners collapse [letter]. S Afr Med J 1988; 74(5): 247

88.

Speedy DB, Noakes TD, Schneider G. Exercise-associated hyponatremia: a review. Emerg Med 2001; 13: 17–27CrossRef

89.

Noakes TD. Hyponatremia in distance athletes. Phys Sportsmed 2000; 28(9): 71–6PubMedCrossRef

90.

Holtzhausen LM, Noakes TD. The prevalence and significance of post-exercise (postural) hypotension in ultramarathon runners. Med Sci Sports Exerc 1995; 27(12): 1595–601PubMed

91.

Noakes TD. IMMDA advisory statement on guidelines for fluid replacement during marathon running. International Marathon Medical Directors Association. Nov 2 [online]. Available from URL: http://www.aims-association.org/guidelines_for_fluid_replacement.htm. [Accessed 2003 Mar 18]

92.

Holtzhausen LM, Noakes TD. Collapsed ultraendurance athlete: proposed mechanisms and an approach to management. Clin J Sport Med 1997 Oct; 7(4): 292–301PubMedCrossRef

93.

Speedy DB, Noakes TD, Holtzhausen LM. Exercise-associated collapse [online]. Available from URL: http://www.physsportsmed.com/issues/2003/0303/speedy.htm [Accessed 2004 Feb 26]

94.

Cade R, Packer D, Zauner C, et al. Marathon running: physiological and chemical changes accompanying late-race functional deterioration. Eur J Appl Physiol 1992; 65(6): 485–91CrossRef

95.

Cade R, Spooner G, Schlein E, et al. Effect of fluid, electrolyte, and glucose replacement during exercise on performance, body temperature, rate of sweat loss, and compositional changes of extracellular fluid. J Sports Med Phys Fitness 1972; 12(3): 150–6PubMed

96.

Welsh RS, Davis JM, Burke JR, et al. Carbohydrates and physical/mental performance during intermittent exercise to fatigue. Med Sci Sports Exerc 2002; 34(4): 723–31PubMedCrossRef

97.

Nose H, Mack GW, Shi X, et al. Role of osmolality and plasma volume during rehydration in humans. J Appl Physiol 1988; 65(1): 325–31PubMed

98.

Gisolfi CV, Spranger KJ, Summers RW, et al. Effects of cycle exercise on intestinal absorption in humans. J Appl Physiol 1991; 71(6): 2518–27PubMed

99.

Bar-Or O, Wilk B. Water and electrolyte replenishment in the exercising child. Int J Sport Nutr 1996; 6: 93–9PubMed

100.

Wilmore JH, Morton AR, Gilbey HJ, et al. Role of taste preference on fluid intake during and after 90 min of running at 60% of V̇O_2max in the heat. Med Sci Sports Exerc 1998; 30(4): 587–95PubMedCrossRef

101.

Fallowfield JL, Williams C, Singh R. The influence of ingesting a carbohydrate-electrolyte beverage during 4 hours of recovery on subsequent endurance capacity. Int J Sports Nutr 1993; 5(4): 285–99

102.

Shirreffs SM, Taylor AJ, Leiper JB, et al. Post-exercise rehydration in man: effects of volume consumed and drink sodium content. Med Sci Sports Exerc 1996; 28(10): 1260–71PubMedCrossRef

103.

Sanders B, Noakes TD, Dennis SC. Sodium replacement and fluid shifts during prolonged exercise in humans. Eur J Appl Physiol 2001; 84: 419–25PubMedCrossRef

104.

Nielsen B, Sjogaard G, Ugelvig J, et al. Fluid balance in exercise dehydration and rehydration with different glucose-electrolyte drinks. Eur J Appl Physiol 1986; 55: 318–25CrossRef

105.

Gisolfi CV, Lambert GP, Summers RW. Intestinal fluid absorption during exercise: role of sport drink osmolality and [Na+]. Med Sci Sports Exerc 2001; 33(6): 907–15PubMedCrossRef

106.

Avery ME, Snyder JD. Oral therapy for acute diarrhoea: the underused simple solution. N Engl J Med 1990; 323: 891–4PubMedCrossRef

107.

Speedy DB, Thompson JMD, Rodgers I, et al. Oral salt supplementation during ultradistance exercise. Clin J Sport Med 2002; 12: 279–84PubMedCrossRef

108.

Sanders B, Noakes TD, Dennis SC. Water and eletrolyte shifts with partial fluid replacement during exercise. Eur J Appl Physiol Occup Physiol 1999; 80(4): 318–23PubMedCrossRef

Titel: Recommendations for Treatment of Hyponatraemia at Endurance Events
verfasst von: Dr Margaret Hsieh
Publikationsdatum: 01.04.2004
Verlag: Springer International Publishing
Erschienen in: Sports Medicine / Ausgabe 4/2004
Print ISSN: 0112-1642
Elektronische ISSN: 1179-2035
DOI: https://doi.org/10.2165/00007256-200434040-00003

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