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软组织应用中移植材料的非线性和各向异性拉伸特性。

Nonlinear and anisotropic tensile properties of graft materials used in soft tissue applications.

作者信息

Yoder Jonathon H, Elliott Dawn M

机构信息

Department of Orthopaedic Surgery, University of Pennsylvania, 424 Stemmler Hall, Philadelphia, PA 19104-6081, United States.

出版信息

Clin Biomech (Bristol). 2010 May;25(4):378-82. doi: 10.1016/j.clinbiomech.2010.01.004. Epub 2010 Feb 2.

DOI:10.1016/j.clinbiomech.2010.01.004
PMID:20129728
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2846988/
Abstract

BACKGROUND

The mechanical properties of extracellular matrix grafts that are intended to augment or replace soft tissues should be comparable to the native tissue. Such grafts are often used in fiber-reinforced tissue applications that undergo multi-axial loading and therefore knowledge of the anisotropic and nonlinear properties are needed, including the moduli and Poisson's ratio in two orthogonal directions within the plane of the graft. The objective of this study was to measure the tensile mechanical properties of several marketed grafts: Alloderm, Restore, CuffPatch, and OrthADAPT.

METHODS

The degree of anisotropy and non-linearity within each graft was evaluated from uniaxial tensile tests and compared to their native tissue.

FINDINGS

The Alloderm graft was anisotropic in both the toe- and linear-region of the stress-strain response, was highly nonlinear, and generally had low properties. The Restore and CuffPatch grafts had similar stress-strain responses, were largely isotropic, had a linear-region modulus of 18MPa, and were nonlinear. OrthADAPT was anisotropic in the linear-region (131 MPA vs 47MPa in the toe-region) and was highly nonlinear. The Poisson ratio for all grafts was between 0.4 and 0.7, except for the parallel orientation of Restore which was greater than 1.0.

INTERPRETATION

Having an informed understanding of how the available grafts perform mechanically will allow for better assessment by the physician for which graft to apply depending upon its application.

摘要

背景

旨在增强或替代软组织的细胞外基质移植物的力学性能应与天然组织相当。此类移植物常用于承受多轴载荷的纤维增强组织应用中,因此需要了解其各向异性和非线性特性,包括移植物平面内两个正交方向的模量和泊松比。本研究的目的是测量几种市售移植物(同种异体真皮、Restore、CuffPatch和OrthADAPT)的拉伸力学性能。

方法

通过单轴拉伸试验评估每个移植物的各向异性和非线性程度,并与天然组织进行比较。

研究结果

同种异体真皮移植物在应力-应变响应的趾部和线性区域均表现出各向异性,高度非线性,且总体性能较低。Restore和CuffPatch移植物具有相似的应力-应变响应,基本呈各向同性,线性区域模量为18MPa,且呈非线性。OrthADAPT在线性区域呈各向异性(131MPa,而趾部区域为47MPa),且高度非线性。除Restore的平行方向泊松比大于1.0外,所有移植物的泊松比均在0.4至0.7之间。

解读

深入了解现有移植物的力学性能表现,将有助于医生根据其应用情况更好地评估选择使用哪种移植物。

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