Williamson J W, Raven P B, Whipp B J
Department of Physiology, University of North Texas Health Science Center, Fort Worth 76107, USA.
Exp Physiol. 1996 Jul;81(4):695-705. doi: 10.1113/expphysiol.1996.sp003970.
The purpose of this study was to determine the influence of a reduced skeletal muscle blood flow on oxygen uptake (VO2) kinetics at the onset of cycle ergometer exercise. Seven healthy subjects performed rest-to-exercise transitions with a lower-body positive pressure (LBPP) of 45 Torr. Two work rates were selected for each subject: a moderate intensity (VO2, approximately 1.9 l min-1; delta[lactate], approximately 1 mequiv l-1) below the estimated lactate threshold and a heavy intensity (VO2, approximately 2.6 l min-1; delta[lactate], approximately 3 mequiv l-1) above this threshold. Pulmonary gas exchange variables and ventilatory (VE) responses were computed breath-by-breath from mass spectrometer and turbine volume meter signals, respectively, and mean response times (MRT) calculated. Samples of 'arterialized' venous blood were used for the determination of [lactate], pH and [K+]. While the application of 45 Torr LBPP had no effects on VO2 kinetics during moderate exercise (MRT: 33.5 +/- 1.2 s at 45 Torr vs. 32.8 +/- 1.3 s at 0 Torr; P > 0.05) or on [lactate], pH or [K+], breathing frequency (f) was increased (P < 0.05) and tidal volume (VT) reduced (P < 0.05). The addition of LBPP during heavy exercise did not alter VO2 kinetics (MRT: 35.2 +/- 1.5 s at 45 Torr vs. 34.8 +/- 1.5 s at 0 Torr; P > 0.05), or [lactate], pH or [K+]. Although both the VE (via an increased f) and CO2 output (VCO2) were significantly greater with LBPP by approximately 30 l min-1 and approximately 500 ml min-1, respectively, end-tidal CO2 partial pressure was decreasing, suggesting an additional ventilatory stimulus. These data can be interpreted to suggest that oxygen delivery is not critically dependent upon blood flow to the working muscle at exercise onset, while LBPP-induced increases in VE during suprathreshold exercise may be related to an accumulation of metabolites at the working muscle or the effects of pressure per se.
本研究的目的是确定在自行车测力计运动开始时,骨骼肌血流减少对摄氧量(VO2)动力学的影响。七名健康受试者在45托的下体正压(LBPP)下进行从休息到运动的转换。为每个受试者选择两个工作强度:低于估计乳酸阈值的中等强度(VO2,约1.9升/分钟;乳酸变化量,约1毫当量/升)和高于该阈值的高强度(VO2,约2.6升/分钟;乳酸变化量,约3毫当量/升)。分别根据质谱仪和涡轮体积计信号逐次计算肺气体交换变量和通气(VE)反应,并计算平均反应时间(MRT)。使用“动脉化”静脉血样本测定乳酸、pH值和钾离子浓度。虽然施加45托的LBPP对中等强度运动期间的VO2动力学没有影响(MRT:45托时为33.5±1.2秒,0托时为32.8±1.3秒;P>0.05),对乳酸、pH值或钾离子浓度也没有影响,但呼吸频率(f)增加(P<0.05),潮气量(VT)减少(P<0.05)。在高强度运动期间添加LBPP并没有改变VO2动力学(MRT:45托时为35.2±1.5秒,0托时为34.8±1.5秒;P>0.05),也没有改变乳酸、pH值或钾离子浓度。尽管通过增加f,LBPP使VE和二氧化碳排出量(VCO2)分别显著增加约30升/分钟和约500毫升/分钟,但呼气末二氧化碳分压却在下降,这表明存在额外的通气刺激。这些数据可以解释为,在运动开始时,氧气输送并不严重依赖于流向工作肌肉的血流,而在阈上运动期间,LBPP引起的VE增加可能与工作肌肉中代谢产物的积累或压力本身的影响有关。
