主动脉心脏瓣膜中机械诱导的胶原纤维重塑的计算分析

Computational analyses of mechanically induced collagen fiber remodeling in the aortic heart valve.

作者信息

Driessen Niels J, Boerboom Ralf A, Huyghe Jacques M, Bouten Carlijn V, Baaijens Frank P

机构信息

Eindhoven University of Technology, Department of Biomedical Engineering, Laboratory for Biomechanics and Tissue Engineering, PO Box 513, 5600 MB Eindhoven, The Netherlands.

出版信息

J Biomech Eng. 2003 Aug;125(4):549-57. doi: 10.1115/1.1590361.

DOI:10.1115/1.1590361

PMID:12968580

Abstract

To optimize the mechanical properties and integrity of tissue-engineered aortic heart valves, it is necessary to gain insight into the effects of mechanical stimuli on the mechanical behavior of the tissue using mathematical models. In this study, a finite-element (FE) model is presented to relate changes in collagen fiber content and orientation to the mechanical loading condition within the engineered construct. We hypothesized that collagen fibers aligned with principal strain directions and that collagen content increased with the fiber stretch. The results indicate that the computed preferred fiber directions run from commissure to commissure and show a strong resemblance to experimental data from native aortic heart valves.

摘要

为了优化组织工程化主动脉心脏瓣膜的力学性能和完整性，有必要使用数学模型深入了解机械刺激对组织力学行为的影响。在本研究中，提出了一种有限元（FE）模型，以将胶原纤维含量和取向的变化与工程构建体内的机械加载条件联系起来。我们假设胶原纤维与主应变方向对齐，并且胶原含量随纤维拉伸而增加。结果表明，计算出的优选纤维方向从瓣叶联合处延伸至瓣叶联合处，与天然主动脉心脏瓣膜的实验数据有很强的相似性。

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主动脉心脏瓣膜中机械诱导的胶原纤维重塑的计算分析

Computational analyses of mechanically induced collagen fiber remodeling in the aortic heart valve.

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