步行时的全身耗氧量:测量值与估计值之间的一致性。

Antonio Clavero-Jimeno, Andres Marmol-Perez, Manuel Dote-Montero, Jonatan R. Ruiz, Juan M. A. Alcantara
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摘要

预测方程被广泛用于估算步行时的耗氧量(VO2),最终用于确定能量消耗和制定运动处方。本研究旨在测试在跑步机上以 3.5、4.5、5.5 和 6.5 公里/小时的速度步行时,测量的 VO2 与估算的 VO2 之间的一致性。38 名年轻人(50% 为女性)参加了这项横断面研究。研究人员使用 Omnical(马斯特里赫特仪器公司,荷兰马斯特里赫特)和 K5(Cosmed,意大利罗马)代谢系统测量 VO2。为了确定预测方程,我们使用 MEDLINE 数据库对 2022 年 5 月至 2023 年 7 月期间的文献进行了全面搜索。结果发现了七个用于估算 VO2 值的预测方程。我们使用单样本 t 检验法计算了每种速度下的平均偏差(测量的 VO2 与估计的 VO2 之间的平均差异)。我们使用重复测量方差分析和布兰德-阿尔特曼法比较了 VO2 测量值和估计值。单样本 t 检验表明,所有得分误差均与零不同(从 1.1 毫升/千克/分钟到 5.4 毫升/千克/分钟不等)。因此,在所有强度下,与 Omnical 和 K5 代谢系统相比,没有一个预测方程能估算出相似的 VO2 值。不过,Weyand 方程在所有强度下的偏差最小(得分误差为 1.1 毫升/千克/分钟)。这项研究表明,与专门用于估算步行期间 VO2 的各种预测方程相比,Omnical 和 K5 系统之间缺乏一致性。不过,根据我们的结果,Weyand 方程应该是首选。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Whole-body volume of oxygen consumption while walking: Agreement between measured and estimated values

Predictive equations are widely employed for estimating the volume of oxygen consumption (VO2) while walking, which is ultimately employed to determine energy expenditure and tailor exercise prescription. This study aimed to test the agreement between the measured VO2 and estimated VO2 during a walking protocol on a treadmill at 3.5, 4.5, 5.5, and 6.5 km/h. Thirty-eight young adults (50% women) participated in this cross-sectional study. The Omnical (Maastricht Instruments, Maastricht, The Netherlands) and K5 (Cosmed, Rome, Italy) metabolic systems were used to measure VO2. To determine the predictive equations, a comprehensive literature search was conducted using the MEDLINE database from May 2022 to July 2023. Seven predictive equations were found and included for estimating VO2 values. We calculated the mean bias (mean difference between measured VO2 and estimated VO2) obtained at each speed using one-sample t-tests. We compared the VO2 measured and estimated values using repeated measures analysis of variance and the Bland–Altman method. One-sample t-tests showed that all score errors were different from zero (ranging from 1.1 to 5.4 mL/kg/min). Thus, no predictive equation estimated similar VO2 values in comparison with the Omnical and K5 metabolic systems at all intensities. However, the Weyand equation showed the lowest bias across all intensities (score error of 1.1 mL/kg/min). This study showed a lack of agreement between the Omnical and K5 systems compared to diverse predictive equations specially designed to estimate VO2 during walking. Nevertheless, based on our results, the Weyand equation should be the preferred option.

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