一种评估便携式代谢系统（VmaxST）准确性的方法。

A methodology to assess the accuracy of a portable metabolic system (VmaxST).

作者信息

Prieur Fabrice, Castells Josiane, Denis Christian

机构信息

Laboratoire d'Analyse Multidisciplinaire des Pratiques Sportives, UFR STAPS de Liévin, Université d'Artois, Liévin, France.

出版信息

Med Sci Sports Exerc. 2003 May;35(5):879-85. doi: 10.1249/01.MSS.0000065003.82941.B0.

DOI:10.1249/01.MSS.0000065003.82941.B0

PMID:12750601

Abstract

PURPOSE

Validity of a portable metabolic system (VmaxST) was investigated during gas exchanges simulations by a mechanical system (GESS) and during human exercise.

METHODS

Three tests were conducted while gas exchanges were measured continuously by VmaxST. Test 1 was composed of six simulations of gas exchanges during steady-state exercise (20 min at V̇E = 80 L.min-1). Test 2 was composed of seven simulations of gas exchanges during incremental exercise (V̇O(2) from 300 to 5600 mL.min-1). In the human trial, 11 subjects performed an incremental running exercise on a treadmill while gas exchanges were measured at the end of each stage with the Douglas bag method (DBM).

RESULTS

Test 1 showed that the VmaxST measurements were stable, despite inaccurate measurements of gas concentrations at the start of the test. During test 2, the mean error (difference between measured and predicted value) and the upper and lower limits of agreement were -8.0%, -12.6%, and -3.4% for V̇O(2); -4.6%, -12.0%, and +2.8% for V̇CO(2); and -0.7%, -4.7%, and +3.3% for V̇E. During the human trial, no significant difference was shown between V̇O(2) measured by VmaxST and by DBM at any stage of exercise. The mean difference and the upper and lower limits of agreement between the VmaxST and the DBM measurements were -0.5%, -14.3%, and +13.3% for V̇O(2); -6.3%, -20.9%, and +8.3% for V̇CO(2); and -9.9%, -25.5%, and +5.7% for V̇E.

CONCLUSIONS

The use of GESS showed that measurements of V̇O(2) by VmaxST could be biased in a standardized condition. In more realistic condition of use, this bias was lower but the accuracy of measurements was impaired.

摘要

目的

在通过机械系统（GESS）进行气体交换模拟以及人体运动过程中，研究便携式代谢系统（VmaxST）的有效性。

方法

在通过VmaxST持续测量气体交换的同时进行了三项测试。测试1由稳态运动期间的六次气体交换模拟组成（在每分钟通气量（V̇E）= 80 L时持续20分钟）。测试2由递增运动期间的七次气体交换模拟组成（耗氧量（V̇O₂）从300至5600 mL/分钟）。在人体试验中，11名受试者在跑步机上进行递增跑步运动，同时在每个阶段结束时用道格拉斯袋法（DBM）测量气体交换。

结果

测试1表明，尽管测试开始时气体浓度测量不准确，但VmaxST的测量结果是稳定的。在测试2期间，对于V̇O₂，平均误差（测量值与预测值之间的差异）以及一致性的上限和下限分别为 -8.0%、-12.6%和 -3.4%；对于V̇CO₂，分别为 -4.6%、-12.0%和 +2.8%；对于V̇E，分别为 -0.7%、-4.7%和 +3.3%。在人体试验中，在运动的任何阶段，VmaxST测量的V̇O₂与DBM测量的V̇O₂之间均未显示出显著差异。VmaxST与DBM测量之间的平均差异以及一致性的上限和下限，对于V̇O₂分别为 -0.5%、-14.3%和 +13.3%；对于V̇CO₂分别为 -6.3%、-20.9%和 +8.3%；对于V̇E分别为 -9.9%、-25.5%和 +5.7%。

结论

使用GESS表明，在标准化条件下，VmaxST对V̇O₂的测量可能存在偏差。在更实际的使用条件下，这种偏差较小，但测量准确性受到损害。

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一种评估便携式代谢系统（VmaxST）准确性的方法。

A methodology to assess the accuracy of a portable metabolic system (VmaxST).

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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