骨水泥型和非骨水泥型股骨假体组件的微动

Micromotion of cemented and uncemented femoral components.

作者信息

Burke D W, O'Connor D O, Zalenski E B, Jasty M, Harris W H

机构信息

Hip and Implant Surgery Unit, Massachusetts General Hospital, Boston 02114.

出版信息

J Bone Joint Surg Br. 1991 Jan;73(1):33-7. doi: 10.1302/0301-620X.73B1.1991771.

DOI:10.1302/0301-620X.73B1.1991771

PMID:1991771

Abstract

We evaluated the initial stability of cemented and uncemented femoral components within the femoral canals of cadaver femurs during simulated single limb stance and stair climbing. Both types were very stable in simulated single limb stance (maximum micromotion of 42 microns for cemented and 30 microns for uncemented components). However, in simulated stair climbing, the cemented components were much more stable than the uncemented components (76 microns as against 280 microns). There was also greater variation in the stability of uncemented components in simulated stair climbing, with two of the seven components moving 200 microns or more. Future implant designs should aim to improve the initial stability of cementless femoral components under torsional loads; this should improve the chances of bony ingrowth.

摘要

我们评估了在模拟单腿站立和爬楼梯过程中，尸体股骨骨髓腔内骨水泥型和非骨水泥型股骨假体的初始稳定性。在模拟单腿站立时，两种类型的假体都非常稳定（骨水泥型假体的最大微动为42微米，非骨水泥型假体为30微米）。然而，在模拟爬楼梯时，骨水泥型假体比非骨水泥型假体稳定得多（分别为76微米和280微米）。在模拟爬楼梯时，非骨水泥型假体的稳定性变化也更大，七个假体中有两个移动了200微米或更多。未来的植入物设计应旨在提高非骨水泥型股骨假体在扭转载荷下的初始稳定性；这应能增加骨长入的机会。

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骨水泥型和非骨水泥型股骨假体组件的微动

Micromotion of cemented and uncemented femoral components.

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