FEBio FINESSE: An Open-Source Finite Element Simulation Approach to Estimate In Vivo Heart Valve Strains Using Shape Enforcement.

IF 3 2区 医学 Q3 ENGINEERING, BIOMEDICAL
Devin W Laurence, Patricia M Sabin, Analise M Sulentic, Matthew Daemer, Steve A Maas, Jeffrey A Weiss, Matthew A Jolley
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Abstract

Purpose: Finite element simulations are an enticing tool to evaluate heart valve function; however, patient-specific simulations derived from 3D echocardiography are hampered by several technical challenges. The objective of this work is to develop an open-source method to enforce matching between finite element simulations and in vivo image-derived heart valve geometry in the absence of patient-specific material properties, leaflet thickness, and chordae tendineae structures.

Methods: We evaluate FEBio Finite Element Simulations with Shape Enforcement (FINESSE) using three synthetic test cases considering a range of model complexity. FINESSE is then used to estimate the in vivo valve behavior and leaflet strains for three pediatric patients.

Results: Our results suggest that FINESSE can be used to enforce finite element simulations to match an image-derived surface and estimate the first principal leaflet strains within ± 0.03 strain. Key considerations include: (i) defining the user-defined penalty, (ii) omitting the leaflet commissures to improve simulation convergence, and (iii) emulating the chordae tendineae behavior via prescribed leaflet free edge motion or a chordae emulating force. In all patient-specific cases, FINESSE matched the target surface with median errors of approximately the smallest voxel dimension. Further analysis revealed valve-specific findings, such as the tricuspid valve leaflet strains of a 2-day old patient with HLHS being larger than those of two 13-year old patients.

Conclusions: FEBio FINESSE can be used to estimate patient-specific in vivo heart valve leaflet strains. The development of this open-source pipeline will enable future studies to begin linking in vivo leaflet mechanics with patient outcomes.

FEBio FINESSE:利用形状强化估算体内心脏瓣膜应变的开源有限元模拟方法。
目的:有限元模拟是评估心脏瓣膜功能的诱人工具;然而,从三维超声心动图中得出的患者特异性模拟受到了一些技术挑战的阻碍。这项工作的目的是开发一种开源方法,在缺乏患者特异性材料属性、瓣叶厚度和腱索结构的情况下,实现有限元模拟与活体图像衍生的心脏瓣膜几何形状之间的匹配:方法:我们使用三个合成测试案例评估了具有形状执行功能的 FEBio 有限元模拟(FINESSE),并考虑了模型复杂度的范围。然后使用 FINESSE 估算三名儿科患者的体内瓣膜行为和瓣叶应变:结果:我们的研究结果表明,FINESSE 可用于强制有限元模拟与图像衍生表面相匹配,并估算出± 0.03 应变以内的第一主瓣叶应变。主要考虑因素包括(i)定义用户定义的惩罚,(ii)省略小叶突起以提高模拟收敛性,(iii)通过规定的小叶自由边缘运动或腱索模拟力来模拟腱索行为。在所有特定患者病例中,FINESSE 与目标表面匹配的中位误差约为最小体素尺寸。进一步的分析发现了瓣膜的特异性,例如一名出生两天的 HLHS 患者的三尖瓣瓣叶应变大于两名 13 岁患者的三尖瓣瓣叶应变:结论:FEBio FINESSE可用于估算特定患者的体内心脏瓣叶应变。这一开源管道的开发将使未来的研究能够开始将体内瓣叶力学与患者预后联系起来。
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
Annals of Biomedical Engineering
Annals of Biomedical Engineering 工程技术-工程:生物医学
CiteScore
7.50
自引率
15.80%
发文量
212
审稿时长
3 months
期刊介绍: Annals of Biomedical Engineering is an official journal of the Biomedical Engineering Society, publishing original articles in the major fields of bioengineering and biomedical engineering. The Annals is an interdisciplinary and international journal with the aim to highlight integrated approaches to the solutions of biological and biomedical problems.
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