A Novel Custom Cycle Ergometer Protocol to Determine V̇O2max: Validation with ACSM’s Cycle Ergometry Metabolic Equation

Exercise, sport, & movement Pub Date : 2023-09-28 DOI:10.1249/esm.0000000000000013

Dianne M. Lankford, Donald M. Cummings

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Abstract

ABSTRACT Introduction Protocols for determination of maximal oxygen consumption (V̇O 2max ) on a cycle ergometer should be easily administered while maximizing physiological efficiency and minimizing premature local muscle fatigue for individuals of variable fitness levels. Current protocols typically increase workload by adding resistance to the flywheel; however, increasing pedal rate later in the test, rather than resistance, may provide increased physiological efficiency, yielding a more valid determination of V̇O 2max . Purpose The purpose of this study was to design and validate a novel V̇O 2max cycle ergometer protocol that can be used for measuring and predicting submaximal oxygen consumption (V̇O 2 ) and V̇O 2max during exercise testing in healthy, asymptomatic adults. Methods Subjects ( n = 60, 19–60 yr old) performed a V̇O 2max test using the new cycle ergometer protocol. Workload increases were based on predetermined incremental target heart rates (ITHR) using heart rate reserve. Stages commenced at a workload of 150 kg · m · min −1 (0.5 kg, 50 rpm) and increased every 2 min by adding 0.5 or 1.0 kg resistance based on ITHR. When an ITHR representing ≥60% heart rate reserve was achieved, workloads increased by 10 rpm for subsequent stages. Pearson’s r was used to examine relationships between predicted (American College of Sports Medicine cycle equation) and measured V̇O 2 at workload intensities representing moderate, vigorous, and maximal exercise. Bland–Altman plots were used to display predicted and measured V̇O 2 at all exercise intensities and heart rate values at maximal exercise. Results There was a strong and statistically significant correlation between predicted and measured V̇O 2 at moderate ( r = 0.92, P < 0.001), vigorous ( r = 0.94, P < 0.001), and maximal ( r = 0.90, P < 0.001) exercise intensities. All subjects reached ≥90% of age-predicted maximum heart rate. Conclusion This novel cycle ergometer protocol was demonstrated to be a viable tool to predict and/or measure submaximal V̇O 2 and V̇O 2max in a population of healthy, asymptomatic adults.

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一种新的自定义循环测功仪方案来确定V * O2max:用ACSM的循环测功代谢方程验证

摘要:对于不同健康水平的个体，在最大限度提高生理效率和最大限度减少局部过早肌肉疲劳的同时，应方便地使用循环计力器上的最大耗氧量(V O 2max)测定方案。目前的协议通常通过增加飞轮的阻力来增加工作量;然而，在测试后期增加踏板速率，而不是阻力，可能会提供更高的生理效率，从而产生更有效的v_o2max测定。本研究的目的是设计并验证一种新的V O 2max循环测力仪方案，该方案可用于测量和预测健康无症状成人运动试验期间的亚最大耗氧量(V O 2)和V O 2max。方法受试者60例，年龄19 ~ 60岁，采用新的循环劳力计方案进行v_o2max测试。工作量增加是基于使用心率储备的预定增量目标心率(ITHR)。阶段开始时工作负荷为150 kg·m·min - 1 (0.5 kg, 50 rpm)，并根据ITHR每2分钟增加0.5或1.0 kg阻力。当ITHR达到≥60%的心率储备时，后续阶段的工作量增加10 rpm。Pearson’s r用于检验在负荷强度下预测(美国运动医学学院周期方程)和测量的V²O之间的关系，分别代表中度、剧烈和最大的运动。Bland-Altman图用于显示在所有运动强度下预测和测量的V²和最大运动时的心率值。结果预测值与实测值之间存在较强的统计学相关性(r = 0.92, P <0.001)，有力(r = 0.94, P <0.001)，最大值(r = 0.90, P <0.001)运动强度。所有受试者达到≥90%的年龄预测最大心率。结论:在健康无症状成人人群中，这种新型循环测力仪方案被证明是一种预测和/或测量亚最大V氧饱和度和V氧饱和度的可行工具。

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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Exercise, sport, & movement

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