恒负荷运动期间的氧气消耗。

Oxygen consumption during constant-load exercise.

作者信息

Hagberg J M, Mullin J P, Nagle F J

出版信息

J Appl Physiol Respir Environ Exerc Physiol. 1978 Sep;45(3):381-4. doi: 10.1152/jappl.1978.45.3.381.

DOI:10.1152/jappl.1978.45.3.381

Abstract

Previous investigators have reported that oxygen consumption (VO2) continues to rise after the initial 2- to 3-min transient period of exercise when work exceeds approximately 60% of VO2 max. The purpose of this investigation was to examine the possible causes of this slow rise in VO2. Eighteen subjects exercised for 20 min at 65% and at 80% of VO2 max on the bicycle ergometer. VO2, ventilation (VE), and respiratory exchange ratio were monitored by a continuous computer-based system. Blood lactate concentration and rectal temperatures were measured at 2- to 3-min intervals during the exercise. VO2 increased significantly from the 5th to 20th min of exercise in 81% of the tests at both levels of work intensity. The magnitude of the rise was not different for the two work loads. No evidence was found to support the lactacid explanation proposed for this rise. Increased temperature could account for 30% of the rise; the estimated cost of increased VE could account for 30 and 81% of the rise at the two work loads. The sum of these factors could account for 60 and 111% of the rise in VO2 at the 65 and 80% of VO2 max work loads.

摘要

先前的研究人员报告称，当运动强度超过最大摄氧量（VO2 max）的约60%时，在最初2至3分钟的运动瞬态期过后，耗氧量（VO2）会持续上升。本研究的目的是探究VO2这种缓慢上升的可能原因。18名受试者在自行车测力计上以VO2 max的65%和80%的强度进行了20分钟的运动。通过基于计算机的连续系统监测VO2、通气量（VE）和呼吸交换率。在运动过程中，每隔2至3分钟测量一次血乳酸浓度和直肠温度。在两种工作强度水平下，81%的测试中VO2从运动的第5分钟到第20分钟均显著增加。两种工作负荷下VO2上升的幅度没有差异。没有证据支持为这种上升所提出的乳酸解释。体温升高可解释30%的上升；估计增加的VE所消耗的能量在两种工作负荷下分别可解释30%和81%的上升。这些因素的总和在VO2 max的65%和80%工作负荷下分别可解释VO2上升的60%和111%。

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恒负荷运动期间的氧气消耗。

Oxygen consumption during constant-load exercise.

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