Markovitz G H, Sayre J W, Storer T W, Cooper C B
Department of Medicine, UCLA School of Medicine, Los Angeles, CA 90095, USA.
Br J Sports Med. 2004 Oct;38(5):553-60; discussion 553-60. doi: 10.1136/bjsm.2003.004721.
TauVO(2 )at the onset of constant work rate (CWR) exercise is a variable of aerobic fitness that shortens with physical training and lengthens with cardiopulmonary disease. Determination of tauVO(2) with sufficiently high confidence has typically required multiple exercise transitions limiting its clinical application.
To design a protocol to determine tauVO(2) reliably but simply.
On each of three days, five healthy men performed two CWR tests on a cycle ergometer below the metabolic threshold (VO(2)theta) for blood lactate accumulation as determined by gas exchange measurements followed by an incremental work rate (IWR) test. TauVO(2) was determined (a) from the on-transit (on-tauVO(2)) and off-transit (off-tauVO(2)) of six CWR tests both individually and superimposed, using non-linear regression with a monoexponential model, and (b) by geometric analysis of the IWR tests (ramp-tauVO(2)).
Group means (SD) were: VO(2)max 3.84 (0.44) litres/min, VO(2)theta 1.88 (0.23) litres/min, steady state exercise VO(2) 1.67 (0.07) litres/min, on-tauVO(2) 38.0 (5.3) seconds, off-tauVO(2) 39.0 (4.3) seconds, and ramp-tauVO(2) 60.8 (15.4) seconds. On-tauVO(2) correlated with off-tauVO(2) (r = 0.87), VO(2)max (r = -0.73), and VO(2)theta (r = 0.89). The pooled mean tauVO(2) from six superimposed tests agreed with the arithmetic grand mean of the six tests.
The average of on-tauVO(2) and off-tauVO(2) fell within the 95% confidence interval of the pooled mean by the second test. Ramp-tauVO(2) was longer and less reproducible. These findings support the use of both on- and off-transit data for the determination of tauVO(2), an approach that reduces the number of transitions necessary for accurate determination of tauVO(2), potentially enhancing its clinical application.
在恒定工作率(CWR)运动开始时的tauVO₂是有氧适能的一个变量,它会随着体育锻炼而缩短,随着心肺疾病而延长。要以足够高的置信度确定tauVO₂通常需要多次运动转换,这限制了其临床应用。
设计一种方案来可靠且简单地确定tauVO₂。
在三天中的每一天,五名健康男性在自行车测力计上进行两次CWR测试,测试强度低于通过气体交换测量确定的血乳酸积累的代谢阈值(VO₂θ),随后进行递增工作率(IWR)测试。tauVO₂的确定方法如下:(a)通过使用单指数模型的非线性回归,分别对六个CWR测试的过渡阶段(on-tauVO₂)和非过渡阶段(off-tauVO₂)进行单独和叠加分析来确定;(b)通过对IWR测试进行几何分析(ramp-tauVO₂)来确定。
组均值(标准差)为:VO₂max 3.84(0.44)升/分钟,VO₂θ 1.88(0.23)升/分钟,稳态运动VO₂ 1.67(0.07)升/分钟,on-tauVO₂ 38.0(5.3)秒,off-tauVO₂ 39.0(4.3)秒,ramp-tauVO₂ 60.8(15.4)秒。on-tauVO₂与off-tauVO₂(r = 0.87)、VO₂max(r = -0.73)和VO₂θ(r = 0.89)相关。六个叠加测试的合并平均tauVO₂与六个测试的算术总均值一致。
第二次测试时,on-tauVO₂和off-tauVO₂的平均值落在合并均值的95%置信区间内。ramp-tauVO₂更长且重复性更差。这些发现支持使用过渡阶段和非过渡阶段的数据来确定tauVO₂,这种方法减少了准确确定tauVO₂所需的转换次数,可能会增强其临床应用。