心血管系统的数学多尺度模型，包括二尖瓣动力学。在缺血性二尖瓣关闭不全中的应用。

Mathematical multi-scale model of the cardiovascular system including mitral valve dynamics. Application to ischemic mitral insufficiency.

机构信息

Cardiovascular Research Center, University of Liege, Liege, Belgium.

出版信息

Biomed Eng Online. 2011 Sep 24;10:86. doi: 10.1186/1475-925X-10-86.

DOI:10.1186/1475-925X-10-86

PMID:21942971

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3271239/

Abstract

BACKGROUND

Valve dysfunction is a common cardiovascular pathology. Despite significant clinical research, there is little formal study of how valve dysfunction affects overall circulatory dynamics. Validated models would offer the ability to better understand these dynamics and thus optimize diagnosis, as well as surgical and other interventions.

METHODS

A cardiovascular and circulatory system (CVS) model has already been validated in silico, and in several animal model studies. It accounts for valve dynamics using Heaviside functions to simulate a physiologically accurate "open on pressure, close on flow" law. However, it does not consider real-time valve opening dynamics and therefore does not fully capture valve dysfunction, particularly where the dysfunction involves partial closure. This research describes an updated version of this previous closed-loop CVS model that includes the progressive opening of the mitral valve, and is defined over the full cardiac cycle.

RESULTS

Simulations of the cardiovascular system with healthy mitral valve are performed, and, the global hemodynamic behaviour is studied compared with previously validated results. The error between resulting pressure-volume (PV) loops of already validated CVS model and the new CVS model that includes the progressive opening of the mitral valve is assessed and remains within typical measurement error and variability. Simulations of ischemic mitral insufficiency are also performed. Pressure-Volume loops, transmitral flow evolution and mitral valve aperture area evolution follow reported measurements in shape, amplitude and trends.

CONCLUSIONS

The resulting cardiovascular system model including mitral valve dynamics provides a foundation for clinical validation and the study of valvular dysfunction in vivo. The overall models and results could readily be generalised to other cardiac valves.

摘要

背景

瓣膜功能障碍是一种常见的心血管病理。尽管有大量的临床研究，但对于瓣膜功能障碍如何影响整体循环动力学，几乎没有正式的研究。经过验证的模型将能够更好地理解这些动力学，从而优化诊断以及手术和其他干预措施。

方法

心血管和循环系统（CVS）模型已经在计算机中进行了验证，并在多项动物模型研究中进行了验证。它使用 Heaviside 函数来模拟生理上准确的“压力开启、流量关闭”法则来模拟瓣膜动力学。然而，它没有考虑实时瓣膜开启动力学，因此不能完全捕捉瓣膜功能障碍，特别是在功能障碍涉及部分关闭的情况下。本研究描述了一个更新版本的之前的闭环 CVS 模型，该模型包括二尖瓣的渐进式开启，并在整个心动周期内定义。

结果

对具有健康二尖瓣的心血管系统进行了模拟，并与之前验证的结果进行了全局血流动力学行为的研究。评估了已经验证的 CVS 模型和包括二尖瓣渐进式开启的新 CVS 模型的压力-容积（PV）环之间的误差，误差仍然在典型的测量误差和可变性范围内。还进行了缺血性二尖瓣关闭不全的模拟。压力-容积环、经二尖瓣血流的演变和二尖瓣瓣口面积的演变在形状、幅度和趋势上都与报告的测量值一致。

结论

包括二尖瓣动力学的心血管系统模型为临床验证和体内瓣膜功能障碍的研究提供了基础。整体模型和结果可以很容易地推广到其他心脏瓣膜。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4d50/3271239/6c82996f99c0/1475-925X-10-86-1.jpg

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心血管系统的数学多尺度模型，包括二尖瓣动力学。在缺血性二尖瓣关闭不全中的应用。

Mathematical multi-scale model of the cardiovascular system including mitral valve dynamics. Application to ischemic mitral insufficiency.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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