静脉组织正常和血栓后状态的生物力学分析。

A biomechanical analysis of venous tissue in its normal and post-phlebitic conditions.

机构信息

Orthopaedic Bioengineering Research Laboratory, Department of Mechanical Engineering and School of Biomedical Engineering, 1374 Campus Delivery, Colorado State University, Fort Collins, CO 80523-1374, USA.

出版信息

J Biomech. 2010 Nov 16;43(15):2941-7. doi: 10.1016/j.jbiomech.2010.07.012. Epub 2010 Sep 22.

DOI:10.1016/j.jbiomech.2010.07.012

PMID:20864110

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2975839/

Abstract

Although biomechanical studies of the normal rat vein wall have been reported (Weizsacker, 1988; Plante, 2002), there are no published studies that have investigated the mechanical effects of thrombus formation on murine venous tissue. In response to the lack of knowledge concerning the mechanical consequences of thrombus resolution, distinct thrombus-induced changes in the biomechanical properties of the murine vena cava were measured via biaxial stretch experiments. These data served as input for strain energy function (SEF) fitting and modeling (Gasser et al., 2006). Statistical differences were observed between healthy and diseased tissue with respect to the structural coefficient that represents the response of the non-collagenous, isotropic ground substance. Alterations following thrombus formation were also noted for the SEF coefficient which describes the anisotropic contribution of the fibers. The data indicate ligation of the vena cava leads to structural alterations in the ground substance and collagen fiber network.

摘要

尽管已有关于正常大鼠静脉壁生物力学的研究报告（Weizsacker，1988；Plante，2002），但目前尚无研究调查血栓形成对鼠静脉组织的力学影响。为了弥补对血栓溶解所带来的机械后果的认识空白，通过双轴拉伸实验测量了血栓诱导的鼠腔静脉生物力学特性的明显变化。这些数据被用作应变能函数（SEF）拟合和建模（Gasser 等人，2006）的输入。与健康组织相比，患病组织在代表非胶原蛋白、各向同性基质反应的结构系数方面存在显著差异。血栓形成后，SEF 系数也发生了变化，该系数描述了纤维的各向异性贡献。这些数据表明腔静脉结扎会导致基质和胶原纤维网络的结构改变。

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