Mixed Venous Oxygen Saturation as a Promising Parameter for Physiologic Control of Total Artificial Heart

Mixed venous oxygen saturation (SvO2) has been proposed as one of the suitable parameters for physiologic control of a total artificial heart (TAH). To establish the practical application of SvO2, we investigated the response of cardiac output (CO) and SvO2 to step-loaded exercise. A normal calf was surgically equipped with an ultrasonic flowmeter probe and an oximetry catheter in the pulmonary artery to measure CO and SvO2, respectively. Three stage step treadmill exercise tests (1, 2, and 4 km/h) were performed three times. While CO increased from 8.9 L/min at preexercise level to 9.7, 10.2 and 11.4 L/min at 1, 2, and 4 km/h, respectively, SvO2 decreased from 59.6% to 56.8, 55.3, and 52.2%, respectively. There existed a linear correlation between the magnitude of changes in CO and SvO2. CO and SvO2 exhibited a similar course of change, expressing an inverted exponential curve. The time constant of SvO2 was from 19 to 35 seconds, whereas that of CO was from 21 to 39 seconds. We conclude that SvO2 changes in close association with CO during exercise and has good potential to be a parameter for physiologic control of a TAH, by reflecting the recipient’s CO demand without conspicuous time delay.

[1]  K. Donald,et al.  The effect of exercise on the cardiac output and circulatory dynamics of normal subjects. , 1955, Clinical science.

[2]  H. Takano,et al.  A miniature hybrid reflection type optical sensor for measurement of hemoglobin content and oxygen saturation of whole blood , 1988, IEEE Transactions on Biomedical Engineering.

[3]  Continuous in-line monitoring of oxygen delivery to control artificial heart output. , 1990, Artificial organs.

[4]  Y Taenaka,et al.  Characterization and optimization of the flow pattern inside a diaphragm blood pump based on flow visualization techniques. , 1998, ASAIO journal.

[5]  T. Stanley,et al.  EXTRINSIC ARTIFICIAL HEART CONTROL VIA MIXED VENOUS BLOOD GAS TENSION ANALYSIS , 1973, Transactions - American Society for Artificial Internal Organs.

[6]  SETTING‐UP, IMPROVEMENT, AND EVALUATION OF AN ELECTROHYDRAULIC TOTAL ARTIFICIAL HEART WITH A SEPARATELY PLACED ENERGY CONVERTER , 1996, ASAIO journal.

[7]  R. De Paulis,et al.  Regulation of Pneumatic Total Artificial Heart Function: A Review , 1988, The International journal of artificial organs.

[8]  J. E. Hansen,et al.  Abrupt changes in mixed venous blood gas composition after the onset of exercise. , 1989, Journal of applied physiology.

[9]  Y Taenaka,et al.  The development of a control method for a total artificial heart using mixed venous oxygen saturation. , 1999, Artificial organs.

[10]  Y Taenaka,et al.  Development of an electrohydraulic total artificial heart at the National Cardiovascular Center, Osaka, Japan. , 1995, ASAIO journal.

[11]  Y Taenaka,et al.  Progress of an electrohydraulic total artificial heart system with a separate energy converter. , 1999, ASAIO journal.