使用异速生长比例法比较希腊游泳运动员、陆上运动员和久坐对照组的肺容积。
Comparison of lung volume in Greek swimmers, land based athletes, and sedentary controls using allometric scaling.
作者信息
Doherty M, Dimitriou L
机构信息
Department of Sport and Exercise Science, University of Luton, United Kingdom.
出版信息
Br J Sports Med. 1997 Dec;31(4):337-41. doi: 10.1136/bjsm.31.4.337.
OBJECTIVE
To compare lung volumes in a large cross sectional sample of Greek swimmers, land based athletes, and sedentary controls by means of allometric scaling.
METHODS
Four hundred and fifty nine asymptomatic Greek children and young adults (age 10-21 years), including 159 swimmers, 130 land based athletes, and 170 sedentary controls, performed forced expiratory manoeuvres into a portable spirometer. Measurements included forced vital capacity, forced expiratory volume in one second (FEV1.0), and peak expiratory flow. Body mass and stature were also measured using standardised anthropometric techniques.
RESULTS
Logarithmic transformations showed that in FEV1.0 was highly related to in stature in males and females (r = 0.93 and 0.86 respectively, P < 0.001) and were used to determine the exponent in an allometric equation which also included age and age. Resulting power functions, FEV1.0/stature, were 0.64 (0.18) litres/m2.69 and 0.33 (0.24) litres/m2.32 for males and females respectively (mean (SE)). The male and female swimming groups had larger FEV1.0 than both land based athletes and sedentary controls (one way analysis of variance, P < 0.001). In addition, male national standard swimmers (n = 38) had superior FEV1.0 in comparison with male non-national standard swimmers (n = 24; t test, P < 0.05). However, when years of swimming training was controlled for by analysis of covariance, the difference in FEV1.0 between the two groups was no longer evident.
CONCLUSIONS
Swimmers have superior FEV1.0 independent of stature and age in comparison with both land based athletes and sedentary controls. In addition, male national standard swimmers have superior FEV1.0 independent of stature and age in comparison with male non-national standard swimmers. When years of training is controlled for, the difference in FEV1.0 between the two groups is no longer evident. This suggests that the years of swimming training and/or the earlier age at which training begins may have a significant influence on subsequent FEV1.0 and swimming performance. However, because of the cross sectional nature of this study, the results do not exclude genetic endowment as a major determinant of the superior lung volume observed in swimmers.
目的
通过异速生长标度法比较希腊游泳运动员、陆上运动员和久坐不动的对照组的大样本横断面研究中的肺容积。
方法
459名无症状的希腊儿童和年轻人(年龄10 - 21岁),包括159名游泳运动员、130名陆上运动员和170名久坐不动的对照组,对着便携式肺活量计进行用力呼气动作。测量项目包括用力肺活量、一秒用力呼气量(FEV1.0)和呼气峰值流速。还使用标准化人体测量技术测量体重和身高。
结果
对数转换显示,男性和女性的FEV1.0与身高高度相关(分别为r = 0.93和0.86,P < 0.001),并用于确定异速生长方程中的指数,该方程还包括年龄。由此得到的幂函数,即FEV1.0/身高,男性和女性分别为0.64(0.18)升/平方米2.69和0.33(0.24)升/平方米2.32(均值(标准误))。男性和女性游泳组的FEV1.0均大于陆上运动员组和久坐不动的对照组(单因素方差分析,P < 0.001)。此外,男性国家级游泳运动员(n = 38)的FEV1.0优于男性非国家级游泳运动员(n = 24;t检验,P < 0.05)。然而,当通过协方差分析对游泳训练年限进行控制后,两组之间FEV1.0的差异不再明显。
结论
与陆上运动员和久坐不动的对照组相比,游泳运动员的FEV1.0不受身高和年龄影响。此外,男性国家级游泳运动员的FEV1.0不受身高和年龄影响,优于男性非国家级游泳运动员。当对训练年限进行控制后,两组之间FEV1.0的差异不再明显。这表明游泳训练的年限和/或开始训练的较早年龄可能对随后的FEV1.0和游泳成绩有显著影响。然而,由于本研究的横断面性质,结果并不排除遗传天赋是游泳运动员观察到的优越肺容积的主要决定因素。
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