Barstow T J, Casaburi R, Wasserman K
Department of Medicine, Harbor-UCLA Medical Center, Torrance 90509.
J Appl Physiol (1985). 1993 Aug;75(2):755-62. doi: 10.1152/jappl.1993.75.2.755.
The dynamic responses of O2 uptake (VO2) to a range of constant power output levels were related to exercise intensity [as percent maximal VO2 and as below vs. above lactic acid threshold (LAT)] and to the associated end-exercise lactate in three groups of subjects: group I, untrained subjects performing leg cycle ergometer exercise; group II, the same subjects performing arm cycle exercise; and group III, trained cyclists performing leg cycle ergometer exercise. Responses were described by a double-exponential equation, with each component having an independent time delay, which reduced to a monoexponential description for moderate (below-LAT) exercise. When a second exponential component to the VO2 response was present, it did not become evident until approximately 80-100 s into exercise. An overall time constant (tau T, determined as O2 deficit for the total response divided by net end-exercise VO2) and a primary time constant (tau P, determined from the O2 deficit and the amplitude for the early primary VO2 response) were compared. The tau T rose with power output and end-exercise lactate levels, but tau P was virtually invariant, even at high end-exercise lactate levels. Moreover the gain of the primary exponential component (as delta VO2/delta W) was constant across power outputs and blood lactate levels, suggesting that the primary VO2 response reflects a linear system, even at higher power outputs. These results suggest that elevated end-exercise lactate is not associated with any discernible slowing of the primary rise in VO2.(ABSTRACT TRUNCATED AT 250 WORDS)
在三组受试者中,氧气摄取量(VO₂)对一系列恒定功率输出水平的动态反应与运动强度(以最大VO₂百分比以及乳酸阈值以下与以上表示)和运动结束时的乳酸水平相关:第一组,进行腿部自行车测力计运动的未受过训练的受试者;第二组,同一受试者进行手臂自行车运动;第三组,进行腿部自行车测力计运动的受过训练的自行车运动员。反应由双指数方程描述,每个成分具有独立的时间延迟,对于中等强度(乳酸阈值以下)运动可简化为单指数描述。当VO₂反应存在第二个指数成分时,直到运动约80 - 100秒后才变得明显。比较了总体时间常数(τT,定义为总反应的氧气亏缺除以运动结束时的净VO₂)和主要时间常数(τP,由氧气亏缺和早期主要VO₂反应的幅度确定)。τT随功率输出和运动结束时的乳酸水平升高而升高,但τP实际上不变,即使在运动结束时乳酸水平较高时也是如此。此外,主要指数成分的增益(以ΔVO₂/ΔW表示)在不同功率输出和血乳酸水平下是恒定的,这表明即使在较高功率输出时,主要VO₂反应也反映了一个线性系统。这些结果表明,运动结束时升高的乳酸与VO₂的主要上升的任何明显减慢无关。(摘要截短于250字)
