通过美国运动医学学会(ACSM)公式间接估计运动员的最大摄氧量(VO2max):是否有效?
Indirect estimation of VO2max in athletes by ACSM's equation: valid or not?
作者信息
Koutlianos N, Dimitros E, Metaxas T, Cansiz M, Deligiannis As, Kouidi E
机构信息
Sports Medicine Laboratory.
Laboratory of Ergophysiology-Ergometry, Department of Physical Education & Sport Science, Aristotle University of Thessaloniki, Thermi, Greece.
出版信息
Hippokratia. 2013 Apr;17(2):136-40.
AIM
The purpose of this study was to assess the indirect calculation of VO2max using ACSM's equation for Bruce protocol in athletes of different sports and to compare with the directly measured; secondly to develop regression models predicting VO2 max in athletes.
METHODS
Fifty five male athletes of national and international level (mean age 28.3 ± 5.6 yrs) performed graded exercise test with direct measurement of VO2 through ergospirometric device. Moreover, 3 equations were used for the indirect calculation of VO2max: a) VO2max= (0.2 · Speed) + (0.9 · Speed · Grade) + 3.5 (ACSM running equation), b) regression analysis model using enter method and c) stepwise method based on the measured data of VO2. Age, BMI, speed, grade and exercise time were used as independent variables.
RESULTS
Regression analysis using enter method yielded the equation (R=.64, standard error of estimation [SEE] = 6.11): VO2max (ml·kg(-1)·min(-1)) = 58.443 - (0.215 · age) - (0.632 · BMI) - (68.639 · grade) + (1.579 · time) while stepwise method (R = .61, SEE = 6.18) led to: VO2max (ml·kg(-1)·min(-1)) = 33.971 - (0.291 · age) + (1.481 · time). The calculated values of VO2max from these regression models did not differ significantly from the measured VO2max (p>.05). On the contrary, VO2max calculated from the ACSM's running equation was significantly higher from the actually measured value by 14.6% (p <.05).
CONCLUSIONS
In conclusion, it seems that ACSM's equation is not capable of accurately predicting VO2max in athletes aged 18-37 years using Bruce protocol. Only the regression models were correlated moderately with the actually measured values of VO2max.
目的
本研究旨在评估使用美国运动医学学会(ACSM)针对布鲁斯方案的公式对不同运动项目运动员的最大摄氧量(VO2max)进行间接计算,并与直接测量值进行比较;其次是建立预测运动员VO2max的回归模型。
方法
55名国家和国际水平的男性运动员(平均年龄28.3±5.6岁)进行了分级运动测试,通过气体代谢仪直接测量VO2。此外,使用3个公式间接计算VO2max:a)VO2max =(0.2·速度)+(0.9·速度·坡度)+ 3.5(ACSM跑步公式),b)使用进入法的回归分析模型,c)基于VO2测量数据的逐步回归法。年龄、体重指数(BMI)、速度、坡度和运动时间用作自变量。
结果
使用进入法的回归分析得出方程(R = 0.64,估计标准误差[SEE] = 6.11):VO2max(毫升·千克⁻¹·分钟⁻¹)= 58.443 -(0.215·年龄)-(0.632·BMI)-(68.639·坡度)+(1.579·时间),而逐步回归法(R = 0.61,SEE = 6.18)得出:VO2max(毫升·千克⁻¹·分钟⁻¹)= 33.971 -(0.291·年龄)+(1.481·时间)。这些回归模型计算出的VO2max值与测量的VO2max值无显著差异(p>0.05)。相反,根据ACSM跑步公式计算出的VO2max比实际测量值显著高14.6%(p <0.05)。
结论
总之,似乎ACSM的公式无法使用布鲁斯方案准确预测18至37岁运动员的VO2max。只有回归模型与VO2max的实际测量值有中度相关性。
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