目前的全膝关节置换假体设计是为了恢复正常的滑车沟解剖结构吗？

Are current total knee arthroplasty implants designed to restore normal trochlear groove anatomy?

机构信息

Bioengineering Laboratory, Orthopedic Surgery, MGH/Harvard Medical School, Boston, Massachusetts 02114, USA.

出版信息

J Arthroplasty. 2011 Feb;26(2):274-81. doi: 10.1016/j.arth.2009.12.009. Epub 2010 Feb 19.

DOI:10.1016/j.arth.2009.12.009

PMID:20171042

Abstract

Biomechanical studies have shown that external rotation of the femoral TKA component improves patellar tracking but does not restore it to physiologic values. We hypothesized that this could be due to differences in the trochlear groove geometry of TKA and normal knees. This was investigated via a virtual TKA procedure that mounted femoral components on to 3-dimensional models of healthy femurs, followed by measurement of the trochlear geometry before and after the simulated TKA. The results showed that (1) external rotation of the component brought the trochlear groove closer to normal anatomy than no external rotation; (2) however, even with external rotation, the trochlear anatomy was only partially restored to normal. Further work is needed to determine implications for patellofemoral complications observed with current TKA designs.

摘要

生物力学研究表明，股骨 TKA 组件的外旋可改善髌骨轨迹，但不能使其恢复到生理值。我们假设这可能是由于 TKA 和正常膝关节滑车沟几何形状的差异所致。通过虚拟 TKA 手术来研究这一问题，该手术将股骨组件安装到健康股骨的三维模型上，然后在模拟 TKA 前后测量滑车沟的几何形状。结果表明：(1) 与无外旋相比，组件的外旋使滑车沟更接近正常解剖结构；(2) 然而，即使进行外旋，滑车沟解剖结构也只能部分恢复正常。需要进一步的研究来确定当前 TKA 设计中观察到的髌股并发症的影响。

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目前的全膝关节置换假体设计是为了恢复正常的滑车沟解剖结构吗？

Are current total knee arthroplasty implants designed to restore normal trochlear groove anatomy?

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