Mathias D W, Clifford P S, Klopfenstein H S
Department of Medicine, Medical College of Wisconsin, Milwaukee 53226.
J Clin Invest. 1988 Sep;82(3):833-8. doi: 10.1172/JCI113686.
Recent reports using anesthetized ventilator-dependent animal models, have suggested that in certain shock states, a disparity exists between arterial and mixed venous blood gases with regard to acid-base status and oxygenation. In a chronically instrumented unanesthetized canine model of acute cardiac tamponade breathing room air, we studied the effect of a graded decline in cardiac output on arterial and mixed venous pH, PCO2, and PO2. Cardiac tamponade resulted in a profound arterial respiratory alkalosis, whereas mixed venous pH, PCO2, and calculated serum bicarbonate levels remained relatively unchanged. As intrapericardial pressure increased and cardiac output declined, the difference between arterial and mixed venous PCO2 progressively increased. Further, whereas arterial oxygenation improved as cardiac output declined, mixed venous oxygenation steadily worsened. This disparity began early in cardiac tamponade (reductions in cardiac output of 20-40%) long before arterial blood pressure began to fall and progressively worsened as hemodynamic deterioration and lactic acidosis developed. Our findings are consistent with the hypothesis that a reduction in blood flow, resulting in decreased CO2 delivery to the lungs, is the primary mechanism responsible for the difference in pH and PCO2 observed between arterial and mixed venous blood. In this conscious, spontaneously breathing animal model, mixed venous blood gases thus are superior to arterial blood gases in assessing acid-base status and oxygenation, even early in acute cardiac tamponade when the decline in cardiac output is in the range of 20 to 40% and arterial blood pressure has not changed significantly.
最近使用依赖呼吸机的麻醉动物模型的报告表明,在某些休克状态下,动脉血和混合静脉血在酸碱状态和氧合方面存在差异。在一个慢性植入仪器的未麻醉犬急性心脏压塞模型中,动物呼吸室内空气,我们研究了心输出量逐渐下降对动脉血和混合静脉血的pH值、PCO₂和PO₂的影响。心脏压塞导致严重的动脉呼吸性碱中毒,而混合静脉血的pH值、PCO₂和计算出的血清碳酸氢盐水平相对保持不变。随着心包内压力升高和心输出量下降,动脉血和混合静脉血PCO₂之间的差异逐渐增大。此外,虽然随着心输出量下降动脉氧合改善,但混合静脉氧合却持续恶化。这种差异在心脏压塞早期(心输出量降低20 - 40%)就已出现,远在动脉血压开始下降之前,并且随着血流动力学恶化和乳酸酸中毒的发展而逐渐加剧。我们的研究结果与以下假设一致:血流减少导致输送到肺部的CO₂减少,是动脉血和混合静脉血之间观察到的pH值和PCO₂差异的主要原因。在这个清醒、自主呼吸的动物模型中,因此,即使在急性心脏压塞早期,当心输出量下降在20%至四十%范围内且动脉血压没有显著变化时,混合静脉血气在评估酸碱状态和氧合方面也优于动脉血气。