INFLUENCE OF LEAFLET'S MATRIX STIFFNESS AND FIBER ORIENTATION ON THE OPENING DYNAMICS OF A PROSTHETIC TRILEAFLET HEART VALVE

Avanzini Andrea

首页> 外文期刊>Journal of mechanics in medicine and biology >INFLUENCE OF LEAFLET'S MATRIX STIFFNESS AND FIBER ORIENTATION ON THE OPENING DYNAMICS OF A PROSTHETIC TRILEAFLET HEART VALVE

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INFLUENCE OF LEAFLET'S MATRIX STIFFNESS AND FIBER ORIENTATION ON THE OPENING DYNAMICS OF A PROSTHETIC TRILEAFLET HEART VALVE

机译：传单矩阵刚度和纤维取向对假体三叶松心瓣的开放动力学的影响

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摘要

Biological valves are employed for aortic valve substitution since a long time but there is a growing effort toward the development of new engineered tissues, in which the complex mechanical response of native leaflets is replicated using composite materials consisting of a soft matrix with embedded reinforcing fibers. The main goal of the present study is to investigate the influence that variations on fiber orientation and matrix stiffness may have on valve dynamics. To this aim, a fluid-structure interaction (FSI) model of a trileaflet valve was implemented in which the opening phase was simulated and leaflet matrix stiffness and fiber orientation were varied in the framework of an anisotropic hyperelastic strain energy function. Results show that both parameters may affect significantly transvalvular pressure gradient and effective orifice area (EOA). For the opening phase of the valve examined, less favorable flow conditions were found when preferred fiber orientation is circumferential, due to lower maximum EOA achievable. Such configuration in combination with stiffer matrix may result in significant degradation of valve performances. Overall fiber orientation can potentially be taylored to optimize valve dynamics, provided also structural aspects that may be prominent in the closure phase, are considered.

机译：生物阀以自长时间以来用于主动脉瓣换算，但是对新型工程组织的发展产生了不断增长的努力，其中天然小叶的复合机械响应是使用由嵌入式增强纤维组成的软基质组成的复合材料。本研究的主要目的是研究纤维取向的变化和基质刚度可能对阀动态的影响。为此目的，实施了三叶松阀的流体结构相互作用（FSI）模型，其中模拟了开口相位，并且在各向异性超弹性应变能量函数的框架中变化了小叶基质刚度和纤维取向。结果表明，两个参数都可能影响显着的横向压力梯度和有效的孔口区域（EOA）。对于所检查阀的开口阶段，由于最大的EOA可实现的最大EOA，发现纤维取向时，发现当优选的纤维取向时不太有利的流动条件。这种配置与纤维矩阵组合可能导致阀性能的显着降低。总体纤维取向可能是泰勒，以优化阀门动态，所以考虑了在封闭阶段中可能突出的结构方面。

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来源
《Journal of mechanics in medicine and biology 》 |2017年第6期| 共17页
作者
Avanzini Andrea;
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作者单位

Univ Brescia Dept Mech &

Ind Engn Via Branze 38 I-25123 Brescia Italy;

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原文格式 PDF
正文语种 eng
中图分类生物医学工程 ;
关键词
Heart valve; FSI; fiber reinforcement;

机译：心阀;FSI;纤维增强;

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1. INFLUENCE OF LEAFLET'S MATRIX STIFFNESS AND FIBER ORIENTATION ON THE OPENING DYNAMICS OF A PROSTHETIC TRILEAFLET HEART VALVE [J] . Avanzini Andrea Journal of mechanics in medicine and biology . 2017 ,第6期

机译：传单矩阵刚度和纤维取向对假体三叶松心瓣的开放动力学的影响
2. Hydrodynamic function of polyurethane prosthetic heart valves: influences of Young's modulus and leaflet thickness. [J] . Bernacca GM, OConnor B, Williams DF, Biomaterials . 2002 ,第1期

机译：聚氨酯人工心脏瓣膜的流体力学功能：杨氏模量和小叶厚度的影响。
3. In Vitro Evaluation of a Novel Hemodynamically Optimized Trileaflet Polymeric Prosthetic Heart Valve [J] . Thomas E. Claiborne, Jawaad Sheriff, Maximilian Kuetting, Journal of biomechanical engineering. . 2013 ,第2期

机译：新型血液动力学优化的Trileaflet聚合物人工心脏瓣膜的体外评估
4. DYNAMIC NUMERICAL AND EXPERIMENTAL EVALUATION OF TRILEAFLET POLYMER PROSTHETIC HEART VALVES [C] . Thomas E. Claiborne, Michalis Xenos, Gaurav Girdhar, ASME Bioengineering Conference . 2011

机译：Trilaflet聚合物假体心脏瓣膜的动态数值和实验评价
5. Optimization and Verification of a Novel Trileaflet Polymeric Prosthetic Heart Valve [D] . Claiborne, Thomas Edward, III 2012

机译：新型三叶聚合物人工心脏瓣膜的优化和验证
6. In Vitro Evaluation of a Novel Hemodynamically Optimized Trileaflet Polymeric Prosthetic Heart Valve [O] . Thomas E. Claiborne, Jawaad Sheriff, Maximilian Kuetting, -1

机译：新型血液动力学优化的Trileaflet聚合物人工心脏瓣膜的体外评估
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INFLUENCE OF LEAFLET'S MATRIX STIFFNESS AND FIBER ORIENTATION ON THE OPENING DYNAMICS OF A PROSTHETIC TRILEAFLET HEART VALVE

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