Biomechanical properties of the medial meniscus in experimental animal models

M. A. Sweigart, C. Zhu, C. M. Agrawal, T.C. Clanton, K. Athanasiou
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引用次数: 2

Abstract

The material properties of the baboon, bovine, canine, human, lapine, and porcine medial meniscus were determined in six locations: the anterior, central, and posterior portions of the femoral and tibial sides of the tissue. In situ creep and recovery indentation experiments were performed using a creep indentation apparatus. The entire creep curve was fitted with a finite element optimization method to determine the material properties. Results show significant variations in the aggregate modulus, Poisson's ratio, permeability, and shear modulus between the six testing locations both intraspecies and interspecies. In general, the canine model exhibits the highest aggregate and shear moduli, whereas the lapine model has the highest permeability and Poisson's ratio. The aggregate modulus and shear modulus in the human is the most similar to bovine. The human permeability values are the closest to the canine and baboon model. Overall, this study shows that caution must be exercised when comparing the menisci between different animal models.
实验动物模型中内侧半月板的生物力学特性
测定了狒狒、牛、犬、人、松鸡和猪内侧半月板的六个部位的材料特性:组织的股侧、胫骨侧的前部、中央和后部。采用蠕变压痕仪进行了原位蠕变和恢复压痕实验。采用有限元优化方法拟合了整个蠕变曲线,确定了材料的性能。结果表明,6个试验地点的骨料模量、泊松比、渗透率和剪切模量在种内和种间均存在显著差异。总的来说,犬类模型具有最高的聚合模量和剪切模量,而松鸡模型具有最高的渗透率和泊松比。人的骨料模量和剪切模量与牛最相似。人体的渗透性值最接近犬和狒狒模型。总的来说,这项研究表明,在比较不同动物模型的半月板时必须谨慎。
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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