体外评估功能梯度 (FG) 人工髋关节柄的骨/水泥应力：三维有限元 (FE) 研究。

In vitro assessment of Function Graded (FG) artificial Hip joint stem in terms of bone/cement stresses: 3D Finite Element (FE) study.

机构信息

FRCSC, College of Medicine, King Saud University, Riyadh, Saudi Arabia.

出版信息

Biomed Eng Online. 2013 Jan 16;12:5. doi: 10.1186/1475-925X-12-5.

DOI:10.1186/1475-925X-12-5

PMID:23324627

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3561125/

Abstract

BACKGROUND

Stress shielding in the cemented hip prosthesis occurs due to the mismatching in the mechanical properties of metallic stem and bone. This mismatching in properties is considered as one of the main reasons for implant loosening. Therefore, a new stem material in orthopedic surgery is still required. In the present study, 3D finite element modeling is used for evaluating the artificial hip joint stem that is made of Function Graded (FG) material in terms of joint stress distributions and stem length.

METHOD

3D finite element models of different stems made of two types of FG materials and traditional stems made of Cobalt Chromium alloy (CoCrMo) and Titanium alloy (Ti) were developed using the ANSYS Code. The effects on the total artificial hip joint stresses (Shear stress and Von Mises stresses at bone cement, Von Mises stresses at bone and stem) due to using the proposed FG materials stems were investigated. The effects on the total artificial hip joint system stresses due to using different stem lengths were investigated.

RESULTS

Using FG stem (with low stiffness at stem distal end and high stiffness at its proximal end) resulted in a significant reduction in shear stress at the bone cement/stem interface. Also, the Von Mises stresses at the bone cement and stem decrease significantly when using FG material instead of CoCrMo and Ti alloy. The stresses' distribution along the bone cement length when using FG material was found to be more uniform along the whole bone cement compared with other stem materials. These more uniform stresses will help in the reduction of the artificial hip joint loosening rate and improve its short and long term performance.

CONCLUSION

FE results showed that using FG stem increases the resultant stresses at the femur bone (reduces stress shielding) compared to metallic stem. The results showed that the stem length has significant effects on the resultant shear and Von Mises stresses at bone, stem and bone cement for all types of stem materials.

摘要

背景

骨水泥髋关节假体中的应力屏蔽是由于金属柄和骨的机械性能不匹配而产生的。这种性能不匹配被认为是植入物松动的主要原因之一。因此，骨科手术仍然需要一种新的柄材料。在本研究中，使用三维有限元建模来评估由功能梯度（FG）材料制成的人工髋关节柄，从关节应力分布和柄长度两个方面进行评估。

方法

使用 ANSYS 代码开发了由两种类型的 FG 材料和传统的钴铬合金（CoCrMo）和钛合金（Ti）制成的不同柄的三维有限元模型。研究了使用提出的 FG 材料柄对全人工髋关节总应力（骨水泥中的剪切应力和 Von Mises 应力、骨和柄中的 Von Mises 应力）的影响。研究了使用不同柄长度对全人工髋关节系统应力的影响。

结果

使用 FG 柄（柄远端刚度低，近端刚度高）可显著降低骨水泥/柄界面处的剪切应力。此外，当使用 FG 材料代替 CoCrMo 和 Ti 合金时，骨水泥和柄中的 Von Mises 应力显著降低。与其他柄材料相比，使用 FG 材料时，骨水泥长度上的应力分布沿整个骨水泥更加均匀。这种更均匀的应力有助于降低人工髋关节松动率，提高其短期和长期性能。

结论

FE 结果表明，与金属柄相比，FG 柄增加了股骨的总应力（减少了应力屏蔽）。结果表明，对于所有类型的柄材料，柄长度对骨、柄和骨水泥的总剪切和 Von Mises 应力都有显著影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ac94/3561125/c210b737759a/1475-925X-12-5-1.jpg

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体外评估功能梯度 (FG) 人工髋关节柄的骨/水泥应力：三维有限元 (FE) 研究。

In vitro assessment of Function Graded (FG) artificial Hip joint stem in terms of bone/cement stresses: 3D Finite Element (FE) study.

机构信息

出版信息

BACKGROUND

METHOD

RESULTS

CONCLUSION

背景

方法

结果

结论

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