估计大鼠松质骨力学性能的减压试验数值模拟与评价

H. Hogan, Kent D. Harms, H. Sampson
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摘要

为了更好地理解骨骼生物学、骨生物力学和许多骨科疾病或病理,动物模型被用于许多研究中。这些动物模型中最突出的是啮齿动物,最常见的是大鼠和小鼠。在评估这些动物的骨力学特性时,通常通过弯曲长骨(如股骨或胫骨)来评估皮质骨,其目标是骨干中部区域。然而,对分离的松质骨标本进行测试是极具挑战性的,即使是对较大的大鼠骨骼也是如此。认识到松质骨力学特性的突出和重要性,导致在骨骼研究中使用大鼠和小鼠增加了椎体和股骨颈标本的力学测试。然而,这些测试中的标本实际上由皮质组织和松质组织组成。为了更接近分离松质骨标本的理想,最近开发了一种方法来测试胫骨近端干骺端和股骨远端干骺端[1]的标本。在这两种情况下,在这种所谓的“减压”(RPC)试验中,标本由一段包含皮质骨和松质骨的干骺端组成。试件和试验结构如图1所示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Simulation and Evaluation of the Reduced-Platen Compression Test for Estimating Cancellous Bone Mechanical Properties in the Rat
Animal models are utilized in numerous research studies aimed at better understanding skeletal biology, bone biomechanics, and many orthopedic diseases or pathologies. Prominent among these animal models are rodents, most commonly rats and mice. In estimating bone mechanical properties in these animals, cortical bone is routinely assessed by bending one of the long bones such as the femur or tibia, which targets the mid-diaphysis region. Testing specimens of isolated cancellous bone is exceedingly challenging, however, even for the larger rat skeleton. Recognizing the prominence and importance of cancellous bone mechanical properties has led to increased mechanical testing of vertebra and femoral neck specimens in skeletal research employing rats and mice. The specimens in these tests actually consist of a combination of both cortical and cancellous tissue, however. In an attempt to more closely approximate the ideal of isolated cancellous bone specimens a method has been developed recently for testing specimens from the proximal tibia metaphysis and distal femoral metaphysis [1]. In either case, the specimen in this so-called “reduced-platen compression” (RPC) test consists of a section of the metaphysis containing both cortical and cancellous bone. The specimen and test configuration are illustrated schematically in Fig. 1.
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