Kinker J R, Haffor A S, Stephan M, Clanton T L
Division of Pulmonary and Critical Care Medicine, Ohio State University, Columbus 43210.
J Appl Physiol (1985). 1992 May;72(5):1764-72. doi: 10.1152/jappl.1992.72.5.1764.
In the transition from rest to steady-state exercise, O2 uptake from the lungs (VO2) depends on the product of pulmonary blood flow and pulmonary arteriovenous O2 content difference. The kinetics of pulmonary blood flow are believed to be somewhat faster than changes in pulmonary arteriovenous O2 content difference. We hypothesized that during CO breathing, the kinetics of CO uptake (VCO) and diffusing capacity for CO (DLCO) should be faster than VO2 because changes in pulmonary arteriovenous CO content difference should be relatively small. Six subjects went abruptly from rest to constant exercise (inspired CO fraction = 0.0005) at 40, 60, and 80% of their peak VO2, measured with an incremental test (VO2peak). At all exercise levels, DLCO and VCO rose faster than VO2 (P less than 0.001), and DLCO rose faster than VCO (P less than 0.001). For example, at 40% VO2peak, the time constant (tau) for DLCO in phase 2 was 19 +/- 5 (SD), 24 +/- 5 s for VCO, and 33 +/- 5 s for VO2. Both VCO and DLCO increased with exercise intensity but to a lesser degree than VO2 at all exercise intensities (P less than 0.001). In addition, no significant rise in DLCO was observed between 60 and 80% VO2peak. We conclude that the kinetics of VCO and DLCO are faster than VO2, suggesting that VCO and DLCO kinetics reflect, to a greater extent, changes in pulmonary blood flow and thus recruitment of alveolar-capillary surface area. However, other factors, such as the time course of ventilation, may also be involved.(ABSTRACT TRUNCATED AT 250 WORDS)
在从静息状态过渡到稳定状态运动的过程中,肺对氧气的摄取量(VO₂)取决于肺血流量与肺动静脉血氧含量差的乘积。据信肺血流量的动力学变化比肺动静脉血氧含量差的变化稍快。我们推测,在吸入一氧化碳(CO)的过程中,一氧化碳摄取量(VCO)的动力学和一氧化碳弥散能力(DLCO)应该比VO₂更快,因为肺动静脉血一氧化碳含量差的变化应该相对较小。六名受试者通过递增测试(VO₂峰值)测得其峰值VO₂后,分别以40%、60%和80%的VO₂峰值,从静息状态突然转为持续运动(吸入CO分数 = 0.0005)。在所有运动水平下,DLCO和VCO的上升速度均快于VO₂(P < 0.001),且DLCO的上升速度快于VCO(P < 0.001)。例如,在40% VO₂峰值时,DLCO在第2阶段的时间常数(τ)为19 ± 5(标准差)秒,VCO为24 ± 5秒,VO₂为33 ± 5秒。VCO和DLCO均随运动强度增加,但在所有运动强度下增加幅度均小于VO₂(P < 0.001)。此外,在60%至80% VO₂峰值之间未观察到DLCO有显著上升。我们得出结论,VCO和DLCO的动力学比VO₂更快,这表明VCO和DLCO动力学在更大程度上反映了肺血流量的变化,进而反映了肺泡-毛细血管表面积的募集情况。然而,其他因素,如通气的时间进程,也可能参与其中。(摘要截短为250字)
