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Published in:

01-07-2005 | Review Article

Asthma, Airway Inflammation and Treatment in Elite Athletes

Authors: Dr Ilkka Helenius, Aki Lumme, Tari Haahtela

Published in: Sports Medicine | Issue 7/2005

Abstract

Highly trained athletes are repeatedly and strongly exposed to cold air during winter training and to many inhalant irritants and allergens all year round. Asthma occurs most commonly in athletes engaging in endurance events such as cross-country skiing, swimming, or long-distance running. As well as the type of training, a major risk factor is atopic disposition. A mixed type of eosinophilic and neutrophilic airway inflammation has been shown to affect elite swimmers, icehockey players, and cross-country skiers. The inflammation may represent a form of repeated thermal, mechanical, or osmotic airway trauma resulting in a healing or remodelling process. Elite athletes commonly use antiasthma drugs to treat exercise-induced bronchial symptoms. Only a few controlled studies have been conducted on the effects of antiasthma drugs on asthma symptoms, bronchial hyperresponsiveness and airway inflammation in elite athletes. Inhaled β2-adrenoceptor agonists are effective against exercise-induced bronchospasm. In contrast, airway inflammation, bronchial hyperresponsiveness and symptoms have responded poorly to inhaled corticosteroids and leukotriene antagonists. As discontinuing high-level exercise has proved effective in reducing eosinophilic airway inflammation, exercise or training should be restricted in athletes having troublesome symptoms and sputum eosinophilia. Switching training to less irritating environments should be considered whenever possible. It appears to be difficult to change the ‘natural course’ of asthma in athletes by anti-inflammatory treatment.

Helenius I, Haahtela T. Allergy and asthma in elite summer sports athletes. J Allergy Clin Immunol 2000; 106: 444–52PubMedCrossRef

Anderson SD, Holzer K. Exercise-induced asthma: is it the right diagnosis in elite athletes? J Allergy Clin Immunol 2000; 106: 419–28PubMedCrossRef

Bonini S, Brusasco V, Carlsen K-H, et al. Diagnosis of asthma and permitted use of inhaled β₂-agonists in athletes. Allergy 2004; 59: 33–6PubMedCrossRef

Rundell KW, Wilber RL, Szmedra DM, et al. Exercise-induced asthma screening of elite athletes: field versus laboratory exercise challenge. Med Sci Sports Exerc 2000; 32: 309–16PubMedCrossRef

Rundell KW, Im J, Mayers LB, et al. Self-reported symptoms and exercise-induced asthma in elite athletes. Med Sci Sports Exerc 2001; 33: 208–13PubMed

Rundell KW, Jenkinson DM. Exercise-induced bronchospasm in the elite athlete. Sports Med 2002; 32: 583–600PubMedCrossRef

Rundell KW, Spiering BA, Judelson DA, et al. Bronchoconstriction during cross-country skiing: is there really a refractory period. Med Sci Sports Exerc 2003; 35: 18–26PubMedCrossRef

Rundell KW, Spiering BA, Evans TM, et al. Baseline lung function, exercise-induced bronchoconstriction, and asthma-like symptoms in elite women ice hockey players. Med Sci Sports Exerc 2004; 36: 405–10PubMedCrossRef

Tikkanen HO, Helenius I. Asthma in runners. BMJ 1994; 309: 1087PubMedCrossRef

10.

Dosman JA, Hodgson WC, Cockcroft DW. Effect of cold air on the bronchial response to inhaled histamine in patients with asthma. Am Rev Respir Dis 1991; 144: 45–50PubMedCrossRef

11.

Larsson K, Tornling G, Gavhed D, et al. Inhalation of cold air increases the number of inflammatory cells in the lungs in healthy subjects. Eur Resp J 1998; 12: 825–30CrossRef

12.

Suzuki S, Chonan T, Sasaki H, et al. Bronchial hyperresponsiveness to methacholine after exercise in asthmatics. Ann Allergy 1985; 54: 136–41PubMed

13.

Strauss RH, McFadden Jr ER, Ingram Jr RH, et al. Enhancement of exercise-induced asthma by cold air. N Engl J Med 1977; 297: 743–7PubMedCrossRef

14.

Helenius IJ. Allergy and asthma in elite athletes [dissertation]. Helsinki: Yliopistopaino, 1998

15.

Helenius I, Rytilä P, Sarna S, et al. Effect of continuing or finishing high-level sports on airway inflammation, bronchial hyperresponsiveness, and asthma: a prospective follow-up study of 42 elite swimmers. J Allergy Clin Immunol 2002; 109: 962–8PubMed

16.

Potts J. Factors associated with respiratory problems in swimmers. Sports Med 1996; 21: 256–61PubMedCrossRef

17.

Drobnik F, Freixa A, Casan P, et al. Assessment of chlorine exposure in swimmers during training. Med Sci Sports Exerc 1996; 28: 271–4CrossRef

18.

Helenius IJ, Tikkanen HO, Sarna S, et al. Asthma and increased bronchial responsiveness in elite athletes: atopy and sport event as risk factors. J Allergy Clin Immunol 1998; 101: 646–52PubMedCrossRef

19.

Chan-Yeung M, Lam S, Kennedy SM, et al. Persistent asthma after repeated exposure to high concentrations of gases in pulpmills. Am J Respir Crit Care Med 1994; 149: 1676–80

20.

Kosunen TU, Höök-Nikanne J, Salomaa A, et al. Increase of allergen-specific immunoglobulin E antibodies from 1973 to 1994 in a Finnish population and a possible relationship to Helicobacter pylori infections. Clin Exp Allergy 2002; 32: 373–8PubMedCrossRef

21.

Krause T, Koch A, Friborg J, et al. Frequency of atopy in the Arctic in 1987 and 1998. Lancet 2002; 360: 691–2PubMedCrossRef

22.

Lumme A, Haahtela T, Öunap J, et al. Airway inflammation, bronchial hyperresponsiveness, and asthma in elite ice hockey players. Eur Resp J 2003; 22: 113–7CrossRef

23.

Mussalo-Rauhamaa H, Reijula K, Malmberg M, et al. Dog allergen in indoor air and dust during dog shows. Allergy 2001; 56: 878–82PubMed

24.

Platts-Mills TA, Ward Jr GW, Sporik R, et al. Epidemiology of the relationship between exposure to indoor allergens and asthma. Int Arch Allergy Appl Immunol 1991; 94: 339–45PubMedCrossRef

25.

Helenius IJ, Tikkanen HO, Haahtela T. Association between type of training and risk of asthma in elite athletes. Thorax 1997; 52: 157–60PubMedCrossRef

26.

Larsson K, Ohlsen P, Larsson L, et al. High prevalence of asthma in cross-country skiers. BMJ 1993; 307: 1326–9PubMedCrossRef

27.

Sue-Chu M, Larsson L, Bjermer L. Prevalence of asthma in young cross-country skiers in central Scandinavia: differences between Norway and Sweden. Resp Med 1996; 90: 99–105CrossRef

28.

Langdeau JB, Turcotte H, Bowie DM, et al. Airway hyperresponsiveness in elite athletes. Am J Respir Crit Care Med 2000; 161: 1479–84PubMed

29.

Helenius IJ, Rytilä P, Metso T, et al. Respiratory symptoms, bronchial responsiveness and cellular characteristics of induced sputum in elite swimmers. Allergy 1998; 53: 346–52PubMedCrossRef

30.

Leuppi JD, Kuhn M, Comminot C, et al. High prevalence of bronchial hyperresponsivness and asthma in ice hockey players. Eur Resp J 1998; 12: 13–6CrossRef

31.

Wilber RL, Rundell KW, Szmedra L, et al. Incidence of exercise-induced bronchospasm in Olympic Winter sport athletes. Med Sci Sports Exerc 2000; 32: 732–7PubMedCrossRef

32.

Karjalainen EM, Laitinen A, Sue-Chu M, et al. Evidence of airway inflammation and remodeling in ski athletes with and without bronchial hyperresponsiveness to methacholine. Am J Respir Crit Care Med 2000; 161: 2086–91PubMed

33.

Sue-Chu M, Larsson L, Moen T, et al. Bronchoscopy and bronchoalveolar lavage fluid findings in cross-country skiers with and without ski asthma. Eur Resp J 1999; 13: 626–32CrossRef

34.

Sue-Chu M, Karjalanen EM, Altraja A, et al. Lymphoid aggregates in endobronchial biopsies from young elite cross-country skiers. Am J Respir Crit Care Med 1998; 158: 597–601PubMed

35.

Rytilä P, Metso T, Heikkinen K, et al. Airway inflammation in patients with symptoms suggesting asthma but with normal lung function. Eur Resp J 2000; 19: 824–30CrossRef

36.

Bonsignore MR, Morici G, Vignola AM, et al. Increased airway inflammatory cells in endurance athletes: what do they mean? Clin Exp Allergy 2003; 33: 14–21PubMedCrossRef

37.

Wetter TJ, Xiang Z, Sonetti DA, et al. Role of lung inflammatory mediators as a cause of exercise-induced arterial hypoxemia in young athletes. J Appl Physiol 2002; 93: 116–26PubMed

38.

Sue-Chu M, Karjalainen EM, Laitinen A, et al. Placebo-controlled study of inhaled budesonide on indices of airway inflammation in bronchoalveolar lavage fluid and bronchial biopsies in cross-country skiers. Respiration 2000; 67: 417–25PubMedCrossRef

39.

Helenius I, Lumme A, Öunap J, et al. No effect of montelukast on asthma-like symptoms in elite ice hockey players. Allergy 2004; 59: 39–44PubMedCrossRef

40.

McKenzie DC, McLuckie SL, Stirling DR. The protective effects of continuous and interval exercise in athletes with exercise-induced asthma. Med Sci Sports Exerc 1994; 26: 951–6PubMed

41.

Carlsen KH. Exercise-induced asthma in children and adolescents and the relationship to sports. Pediatr Allergy Immunol 1998; 9: 173–80PubMedCrossRef

42.

Koskela H, Tukiainen H, Kononoff A, et al. Effect of whole-body exposure to cold and wind on lung function in asthmatic patients. Chest 1994; 105: 1728–31PubMedCrossRef

43.

Heir T, Aanestad G, Carlsen KH, et al. Respiratory tract infection and bronchial responsiveness in elite athletes and sedentary control subjects. Scand J Med Sci Sports 1995; 5: 94–9PubMedCrossRef

44.

Alaranta A A, Alaranta H, Palmu P, et al. Asthma medication in Finnish olympic athletes: no signs of inhaled β₂-agonist overuse. Med Sci Sports Exerc 2004; 36: 919–24PubMedCrossRef

45.

Weiler JM. Why must Olympic athletes prove that they have asthma to be permitted to take inhaled β₂-agonists? J Allergy Clin Immunol 2003; 111: 36–7PubMedCrossRef

46.

Anderson SD, Fitch K, Perry CP, et al. Responses to bronchial challenge submitted for approval to use inhaled β₂-agonists before an event at the 2002 Winter Olympics. J Allergy Clin Immunol 2003; 111: 45–50PubMedCrossRef

47.

Ferrari M, Balestreri F, Baratieri S, et al. Evidence of the rapid protective effect of formoterol dry-powder inhalation against exercise-induced bronchospasm in athletes with asthma. Respiration 2000; 67: 5103–513CrossRef

48.

Mickleborough TD, Murray RL, Ionescu AA, et al. Fish oil supplementation reduces severity of exercise-induced bronchoconstriction in elite athletes. Am J Respir Crit Care Med 2003; 168: 1181–9PubMedCrossRef

49.

Bjermer L, Bisgaard H, Bousquet J, et al. Montelukast and fluticasone compared with salmeterol and fluticasone in protecting against asthma exacerbation in adults: one year, double-blind, randomised, comparative trial. BMJ 2003; 327: 891–6PubMedCrossRef

50.

Leff JA, Busse WW, Pearlman D, et al. Montelukast, a leukotriene antagonist, for the treatment of mild asthma and exercise-induced bronchoconstriction. N Engl J Med 1998; 339: 147–52PubMedCrossRef

51.

Pizzichini E, Leff JA, Reiss TF, et al. Montelukast reduces airway eosinophilic inflammation in asthma: a randomized, controlled trial. Eur Resp J 1999; 14: 12–8CrossRef

52.

McKenzie DC, Stewart IB. Asthma medications as ergogenic aids. In: Rundell KW, Lemanske RF, editors. Exercise-induced asthma: pathophysiology and treatment. Champaign (IL): Human Kinetics, 2002: 237–50

53.

Helenius I, Tikkanen HO, Helenius M, et al. Exercise-induced changes in pulmonary function of healthy elite long-distance runners in cold air and pollen season exercise challenge tests. Int J Sports Med 2002; 23: 252–61PubMedCrossRef

54.

Mickleborough TD, Gotshall RW. Dietary components with demonstrated effectiveness in decreasing the severity of exercise-induced asthma. Sports Med 2003; 33: 671–81PubMedCrossRef

55.

Sadeh J, Israel E. Airway narrowing in athletes:a different kettle of fish. Am J Resp Crit Care Med 2003; 168: 1146–7PubMedCrossRef

56.

Arm JP, Horton CE, Mencia-Huerta JM, et al. Effect of dietary supplementation with fish oil lipids on mild asthma. Thorax 1988; 43: 84–92PubMedCrossRef

57.

Katelaris CH, Carrozzi FM, Burke TV, et al. A springtime Olympics demands special consideration for allergic athletes. J Allergy Clin Immunol 2000; 106: 260–6PubMedCrossRef

58.

Bousquet J, van Cauwenberge P, Bachert C, et al. Requirements for medications commonly used in the treatment of allergic rhinitis. European Academy of Allergy and Clinical Immunology (EAACI), Allergic Rhinitis and its Impact on Asthma (ARIA). Allergy 2003; 58: 192–7PubMedCrossRef

59.

Katelaris CH, Carrozzi FM, Burke TV. Allergic rhinoconjunctivitis in elite athletes: optimal management for quality of life and performance. Sports Med 2003; 33: 401–6PubMedCrossRef

60.

Walker SM, Pajno GB, Lima MT, et al. Grass pollen immunotherapy for seasonal rhinitis and asthma: a randomized clinical trial. J Allergy Clin Immunol 2001; 107: 87–93PubMedCrossRef

61.

Griffin JW, Hunter G, Ferguso-Sillers MJ. Physiologic effects of external nasal dilator. Laryngoscope 1997; 107: 1235–8PubMedCrossRef

62.

McFadden Jr ER, Zawadski DK. Vocal cord dysfunction masquerading as exercise-induced asthma. a physiologic cause for ‘choking’ during athletic activities. Am J Respir Crit Care Med 1996; 153: 942–7PubMed

63.

Rundell KW, Spiering BA. Inspiratory stridor in elite athletes. Chest 2003; 123: 468–74PubMedCrossRef

Title: Asthma, Airway Inflammation and Treatment in Elite Athletes
Authors: Dr Ilkka Helenius
Aki Lumme
Tari Haahtela
Publication date: 01-07-2005
Publisher: Springer International Publishing
Published in: Sports Medicine / Issue 7/2005
Print ISSN: 0112-1642
Electronic ISSN: 1179-2035
DOI: https://doi.org/10.2165/00007256-200535070-00002

ACC 2024 Congress

Springer Medicine

Asthma, Airway Inflammation and Treatment in Elite Athletes

Abstract

ACC 2024 Congress

Springer Medicine

Abstract

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