骨水泥线在人皮质骨中的界面强度。

X. N. Dong, Xiaohui Zhang, X. Guo
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引用次数: 37

摘要

在人类皮质骨中,骨水泥线(或逆转线)将骨与间质骨组织分开,间质骨组织由初级板层骨的残余或重塑骨的碎片组成。已有实验证据表明水泥线参与了骨疲劳和损伤等破坏过程。然而,目前还没有关于骨水泥线在人皮质骨中的界面特性的实验数据。本研究的目的是设计和组装一个精密的计算机控制骨元推出微测试系统,并通过进行骨元推出测试来实验确定人类皮质骨中水泥线的界面强度。从4名受试者的肱骨骨干中制备了30个标本。试验选取了20个试件,在支撑板有小孔的情况下进行了水泥线脱粘试验。水泥线界面强度范围为5.38 MPa ~ 10.85 MPa,平均为7.31±1.73 MPa。另一方面,在支撑板开大孔的情况下,对10个试件进行了测试,观察了骨内部的剪切破坏。大孔条件下试件的平均抗剪强度为73.71±15.06 MPa,范围为45.97 ~ 93.74 MPa。因此,我们的研究结果表明骨细胞与间质骨组织之间的水泥线界面弱于骨组织板层之间的水泥线界面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interfacial strength of cement lines in human cortical bone.
In human cortical bone, cement lines (or reversal lines) separate osteons from the interstitial bone tissue, which consists of remnants of primary lamellar bone or fragments of remodeled osteons. There have been experimental evidences of the cement line involvement in the failure process of bone such as fatigue and damage. However, there are almost no experimental data on interfacial properties of cement lines in human cortical bone. The objective of this study is to design and assemble a precision and computer controlled osteon pushout microtesting system, and to experimentally determine the interfacial strength of cement lines in human cortical bone by performing osteon pushout tests. Thirty specimens were prepared from humeral diaphyses of four human subjects. Twenty specimens were tested under the condition of a small hole in the supporting plate, in which the cement line debonding occurred. The cement line interfacial strength ranged from 5.38 MPa to 10.85 MPa with an average of 7.31 +/- 1.73 MPa. On the other hand, ten specimens were tested under the condition of a large hole in the supporting plate, in which the shear failure inside osteons was observed. The specimens tested under the condition of the large hole resulted in an average shear strength of 73.71 +/- 15.06 MPa, ranging from 45.97 MPa to 93.74 MPa. Therefore, our results suggest that the cement line interface between osteon and interstitial bone tissue is weaker than that between bone tissue lamellae.
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