双心室旁路全人工心脏的血流动力学研究,特别涉及肾内血流分布。

K Ishino
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引用次数: 0

摘要

本研究旨在确定以独立可变速率模式驱动的双心室旁路全人工心脏是否能维持脑和肾等重要器官的循环。特别强调了对流动分布的研究。在11只山羊和12只绵羊的心脏有纤颤的情况下,使用两个推板泵绕过左右心室。超声血流量仪测量颈动脉和肾动脉流量,氢气清除率法计算肾局部血流量。13只动物在生理血流动力学中存活24小时,10只动物在24小时内死于休克。在后一组中,观察到流向肾脏和肾皮质的血流分数分布减少。在主动脉压峰值小于100 mmHg时,肾血流比与主动脉压峰值显著相关。综上所述,在独立可变速率模式下运行的双心室旁路全人工心脏维持了生理循环,因此可以在任何情况下替代天然心脏功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A hemodynamic study of the biventricular bypass total artificial heart with special reference to intrarenal flow distribution.

The present study was undertaken to determine whether a biventricular bypass total artificial heart driven in an independent variable rate mode can maintain circulation in vital organs such as the brain and kidney. Special emphasis was placed on investigating flow distribution. Two pusher-plate pumps were used to bypass the right and left ventricles in 11 goats and 12 sheep with fibrillating hearts. The carotid artery and renal artery flows were then measured using an ultrasonic blood flow meter and the regional renal blood flow calculated using the hydrogen gas clearance method. Thirteen animals were kept alive for 24 hours in physiological hemodynamics but 10 animals died of shock within 24 hours. In the latter group, a decrease in the fractional distribution of flow to the kidney and renal cortex were observed. At a peak aortic pressure of less than 100 mmHg, the renal flow ratio was significantly correlated with the peak aortic pressure. It was thus concluded that the biventricular bypass total artificial heart operated in an independent variable rate mode maintains physiological circulation and is therefore able to substitute for native heart function in any situation.

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