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哮喘运动员和非哮喘运动员对长时间跑步机跑步的反应。

Responses of asthmatic and non-asthmatic athletes to prolonged treadmill running.

作者信息

Freeman W, Nute M G, Brooks S, Williams C

机构信息

Department of Physical Education and Sports Science, University of Technology, Loughborough, Leicestershire, UK.

出版信息

Br J Sports Med. 1990 Sep;24(3):183-90. doi: 10.1136/bjsm.24.3.183.

DOI:10.1136/bjsm.24.3.183

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1478776/

Abstract

Metabolic and cardio-respiratory responses of four asthmatic and four non-asthmatic athletes to two hours of treadmill running at 70 percent of maximal oxygen uptake are compared. The asthmatic group had pre-exercise airflow obstruction, as indicated by the lower forced expiratory volume in one second (FEV1) even after medication (2.90 +/- 0.661) compared to the non-asthmatic group (4.09 +/- 1.331). Changes in blood lactate, glucose and catecholamine concentrations as a result of the two hour run were similar for the two groups. However, the pattern of breathing was different. The asthmatics had a slower breathing frequency but a similar tidal volume to the non-asthmatics. Both groups had an increase in the ventilation rate over the two hour run. For the non-asthmatic group, this increase in ventilation was achieved by an increase in the breathing frequency (p less than 0.01), whereas tidal volume was reduced (p less than 0.05). The increase in the ventilation rate over the two hour run for the asthmatic group was brought about by a small increase in breathing frequency (p less than 0.05), whereas tidal volume was not changed. This maintenance of the tidal volume by the asthmatic athletes during endurance running may compensate for the airflow obstruction, and so allow successful participation in endurance running.

摘要

比较了四名哮喘运动员和四名非哮喘运动员在以最大摄氧量的70%进行两小时跑步机跑步时的代谢和心肺反应。哮喘组在运动前存在气流阻塞，即使在用药后，一秒用力呼气量（FEV1）仍较低（2.90±0.661），相比之下非哮喘组为（4.09±1.331）。两组在两小时跑步后血乳酸、葡萄糖和儿茶酚胺浓度的变化相似。然而，呼吸模式不同。哮喘患者的呼吸频率较慢，但潮气量与非哮喘患者相似。两组在两小时跑步过程中通气率均有所增加。对于非哮喘组，通气的增加是通过呼吸频率的增加实现的（p<0.01），而潮气量减少（p<0.05）。哮喘组在两小时跑步过程中通气率的增加是由呼吸频率的小幅增加引起的（p<0.05），而潮气量没有变化。哮喘运动员在耐力跑过程中潮气量的维持可能弥补了气流阻塞，从而使他们能够成功参与耐力跑。