Cardiovascular Surgical Research Laboratories, Texas Heart Institute at St Luke's Episcopal Hospital, Houston, Texas 77225-0345, USA.
J Heart Lung Transplant. 2010 May;29(5):568-73. doi: 10.1016/j.healun.2009.12.004. Epub 2010 Feb 13.
We studied the hemodynamic effects of inducing an artificial pulse in a continuous-flow total artificial heart consisting of 2 axial-flow pumps in a mock circulatory system.
We varied the amplitude (maximum minus minimum speed), beat rate and systolic duration of the left pump, right pump or both. Mean left and right pump speeds were maintained at 11 and 8 krpm, respectively. Flow rates and arterial and filling pressures were measured in the systemic and pulmonary portions of the mock circulation. Pulse pressure, pulse flow, pulsatility index and surplus hemodynamic energy (SHE) were calculated. The percent change in mean left atrial pressure (LAP) during each induced pulsatility condition was compared with that observed during continuous flow.
Systemic pulse pressures of 17 to 61 mm Hg were attained when the left pump was pulsed, regardless of right pump pulsatility settings. The pulse pressure was directly related to the systolic duration and inversely related to the left pump beat rate. SHE ranged from 0.1 to 3.0 mm Hg, and its changes were comparable to those in pulse pressure. The LAP was reduced by left pump pulsation, but a maximal reduction (<or=77%) relative to continuous flow was achieved when the two pumps were copulsed or counterpulsed at a slow rate (10 bpm).
This approach provided maximal flow pulsatility and an adequate reduction in LAP, which may be elevated in recipients of a cardiac replacement device. Further bench and in vivo experiments are needed to assess pump synchronization modes.
我们在模拟循环系统中研究了由 2 个轴流泵组成的连续流全人工心脏中人工脉冲对血液动力学的影响。
我们改变了左泵、右泵或两者的振幅(最大速度与最小速度之差)、节拍率和收缩期持续时间。左泵和右泵的平均速度分别维持在 11 和 8 krpm。在模拟循环的体循环和肺循环部分测量流量和动脉及填充压力。计算脉压、脉动流量、脉动指数和剩余血液动力学能量(SHE)。将每种诱导的脉动条件下左心房压力(LAP)的平均变化百分比与连续流动期间观察到的变化百分比进行比较。
当左泵被脉冲时,可获得 17 至 61 mm Hg 的系统脉压,而与右泵的脉动设置无关。脉压与收缩期持续时间直接相关,与左泵节拍率成反比。SHE 范围为 0.1 至 3.0 mm Hg,其变化与脉压相当。左泵脉冲可降低 LAP,但当两个泵以较慢的速度(10 bpm)同时或反向搏动时,可相对于连续流动达到最大的降低幅度(<或=77%)。
这种方法提供了最大的流量脉动和足够的 LAP 降低,这可能在心脏替代装置的接受者中升高。需要进一步进行台架和体内实验来评估泵同步模式。
