Intra-aortic balloon versus extra-aortic counterpulsation in severe cardiac failure differences in aortic input impedance and left ventricular power generation

J. Zelano, W. Ko, W. Lazenby, O. Isom, K. Krieger
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Abstract

In order to evaluate the efficacy of counterpulsation for different cardiac assist device configurations, a valveless single orifice polyurethane ventricle was implanted on the brachlocephalic artery in sheep(n=14) to provide extra-aortic counterpulsation. In parallel, an intra-aortic balloon was placed in the descending aorta. Both devices were pneumatically driven with a standard intra-aortic balloon pump console at a preload of 40°c. Severe cardiac failure was induced with high dosages of esmolol. Measured parameters were aortic pressure and flow, and left ventricular pressure. Tension-time index, total aortic flow, end diastolic pressure, aortic input impedance, and left ventricular power output were computed. Results indicate that the fundamental components of aortic input impedance and left ventricular power output are reliable predictors of the efficacy of counterpulsation for the experimental model used in this study.
主动脉内球囊与主动脉外反搏在严重心力衰竭中的差异:主动脉输入阻抗和左心室能量产生
为了评估不同心脏辅助装置配置的反搏效果,在绵羊(n=14)的头短动脉上植入无瓣单孔聚氨酯心室以提供主动脉外反搏。同时,在降主动脉放置一个主动脉内球囊。这两个装置在预负荷为40°c时由标准主动脉内球囊泵控制台气动驱动。大剂量艾司洛尔诱发严重心力衰竭。测量的参数是主动脉压、血流和左心室压。计算紧张时间指数、主动脉总流量、舒张末压、主动脉输入阻抗和左心室功率输出。结果表明,主动脉输入阻抗和左心室功率输出的基本成分是本研究中使用的实验模型中反搏效果的可靠预测因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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