SWIMMING AND ASTHMA - BENEFITS AND DELETERIOUS EFFECTS

被引：52

作者：

BAROR, O

INBAR, O

机构：

[1] Children’S Exercise and Nutrition Centre, Chedoke Hospital Division, Mcmaster University, Hamilton, Ontario, L8N 3Z5, Evel 4, Sanatorium Road

[2] Department of Research, Wingate Institute

来源：

SPORTS MEDICINE | 1992年 / 14卷 / 06期

关键词：

D O I：

10.2165/00007256-199214060-00006

中图分类号：

G8 [体育];

学科分类号：

04 ; 0403 ;

摘要：

Swimming is a common pastime activity and competitive sport for patients with asthma. One reason for such popularity may be the low asthmogenicity of swimming compared with land-based activities. Review of available evidence suggests that swimming induces less severe bronchoconstriction than other sports. The mechanisms for this protective effect of swimming are not clear, but there is some experimental evidence intimating that it results in part from the high humidity of inspired air at water level, which reduces respiratory heat loss (and possibly osmolarity of airways mucus). Beneficial roles of horizontal posture and of water immersion have been tested but not confirmed. Swimming poses two potentially deleterious effects to the patient with asthma. One is the exaggerated parasympathetic tone due to the 'diving reflex', that has been shown to trigger bronchoconstriction. The other is airway irritation because of chlorine and its derivatives. Swimming as a training modality has definite benefits for the patient with asthma. These include an increase in aerobic fitness and a decrease in asthma morbidity. There is no conclusive evidence, however, that swim training causes a decrease in the severity or frequency of exercise-induced bronchoconstriction.

引用

页码：397 / 405

页数：9

共 44 条

[1]

Anderson S.D., Physiological aspects of exercise-induced broncho-constriction, Ph.D Thesis, (1972)

[2]

Anderson S.D., Schoeffel R.E., Follet R., Perry C.P., Daviskas E., Et al., Sensitivity to heat and water loss at rest and during exercise in asthmatic patients, European Journal of Respiratory Disease, 63, pp. 459-471, (1982)

[3]

Bar-Or O., Paediatric sports medicine for the practitioner, (1983)

[4]

Bar-Or O., Physical conditioning in children with cardiopulmonary disease, Exercise and Sport Sciences Reviews, 13, pp. 305-334, (1985)

[5]

Bar-Or O., Neuman I., Dotan R., Effects of dry and humid climates on exercise-induced asthma in children and preadolescents, Journal of Allergy and Clinical Immunology, 60, pp. 163-168, (1977)

[6]

Bar-Yishay E., Gur I., Inbar O., Neuman I., Dlin R.A., Et al., Differences between swimming and running as stimuli for exercise-induced asthma, European Journal of Applied Physiology, 48, pp. 387-397, (1982)

[7]

Baydur A., Behrakis P.K., Zim W.A., Jaeger M.J., Weiner J.M., Et al., Effect of posture on ventilation and breathing pattern during room air breathing at rest, Lung, 165, pp. 341-351, (1987)

[8]

Boushey H.A., Holtzman M.J., Sheller J.R., Nadel J.A., Bronchial hyperreactivity, American Review of Respiratory Disease, 121, pp. 389-413, (1980)

[9]

Bundgaard A., Schmidt A., Ingemann-Hansen T., Halkjaer-Kristensen J., Bloch I., Exercise-induced asthma after swimming and bicycle exercise, European Journal of Respiratory Disease, 63, pp. 245-248, (1982)

[10]

Chen W.Y., Horton D.J., Heat and water loss from the airways and exercise-induced asthma, Respiration, 34, pp. 305-313, (1977)

← 1 2 3 4 5 →