An analytic method to investigate hemodynamics of the cardiovascular system: Biventricular system.

IF 1.4 4区医学 Q4 ENGINEERING, BIOMEDICAL

International Journal of Artificial Organs Pub Date : 2024-09-01 Epub Date: 2024-08-08 DOI:10.1177/03913988241260943

Yuxin Zhu, Xu Mei, Wanning Ge, Tingting Wu, Liudi Zhang, Polin Hsu

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引用次数: 0

Abstract

Previously, we found analytic solutions for single ventricular system based on the lumped parameter model (LPM). In this study, we generalized the method to biventricular system and derived its analytic solutions. LPM is just a set of differential equations, but it is difficult to solve due to time-varying ventricular elastance and high order. Mathematically, there exist no elementary solutions for time-varying equations. It turns out that instead of differential equations, according to volume conservation, a set of algebraic equations can be carried out. The solutions of the set of equations are just physiological states at end of systolic and diastolic phases such as end systolic/diastolic pressure/volume of left ventricle. As a preliminary application, the method is utilized to deduce the hemodynamic effects of VA ECMO. Left ventricular (LV) distension, a serious complication of VA ECMO, is usually attributed to factors such as increased afterload, inadequate LV unloading, reduced myocardial contractility or aortic valve regurgitation (AR), bronchial and Thebesian return in the absence of aortic valve (AoV) opening. Among these, reduced contractility and AR are strongly associated with LV distension. However, in the absence of reduced contractility or AR, it is less clear whether increased afterload or inadequate LV unloading alone can cause LV distension. This leads to the critical question: under what conditions does LV distension occur in the absence of reduced contractility or AR? The analytic formulas derived in this study give conditions for LV distension. Furthermore, the results show that the analytic hemodynamics are coincident with simulated results.

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研究心血管系统血液动力学的分析方法：双心室系统

在此之前，我们基于块参数模型（LPM）找到了单心室系统的解析解。在这项研究中，我们将该方法推广到了双心室系统，并得出了其解析解。LPM 只是一组微分方程，但由于心室弹性时变且阶数较高，因此很难求解。在数学上，不存在时变方程的基本解。原来，根据体积守恒，可以用一组代数方程来代替微分方程。方程组的解只是收缩期和舒张期结束时的生理状态，如收缩末期/舒张末期压力/左心室容积。作为初步应用，该方法用于推断 VA ECMO 的血液动力学效应。左心室（LV）胀大是 VA ECMO 的一种严重并发症，通常归因于后负荷增加、左心室卸载不足、心肌收缩力降低或主动脉瓣反流（AR）、主动脉瓣（AoV）未开放时支气管和忒拜斯回流等因素。其中，心肌收缩力减弱和主动脉瓣反流与左心室扩张密切相关。然而，在没有收缩力降低或 AR 的情况下，后负荷增加或 LV 负荷不足是否会单独导致 LV 舒张还不太清楚。这就引出了一个关键问题：在没有收缩力减弱或 AR 的情况下，左心室扩张会在什么条件下发生？本研究得出的分析公式给出了左心室扩张的条件。此外，结果表明分析血流动力学与模拟结果相吻合。

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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来源期刊

International Journal of Artificial Organs 医学-工程：生物医学

CiteScore

3.40

自引率

5.90%

发文量

审稿时长

3 months

期刊介绍： The International Journal of Artificial Organs (IJAO) publishes peer-reviewed research and clinical, experimental and theoretical, contributions to the field of artificial, bioartificial and tissue-engineered organs. The mission of the IJAO is to foster the development and optimization of artificial, bioartificial and tissue-engineered organs, for implantation or use in procedures, to treat functional deficits of all human tissues and organs.