八例旋转平台全膝关节置换术中长期体内轴承活动度的确认
Confirmation of long-term in vivo bearing mobility in eight rotating-platform TKAs.
作者信息
LaCour Michael T, Sharma Adrija, Carr Christopher B, Komistek Richard D, Dennis Douglas A
机构信息
Center for Musculoskeletal Research, University of Tennessee, 311 Perkins Hall, Knoxville, TN, 37996, USA.
出版信息
Clin Orthop Relat Res. 2014 Sep;472(9):2766-73. doi: 10.1007/s11999-014-3642-6. Epub 2014 Apr 26.
BACKGROUND
Posterior-stabilized rotating-platform prostheses for TKAs were designed to improve contact mechanics at the femoral-polyethylene (PE) interface. Short-term followup studies have shown that the PE bearings rotate with respect to the tibia but might not necessarily track with the femur. It is important to know how kinematics in these designs change owing to long-term in vivo use.
QUESTIONS/PURPOSES: We asked whether there is a significant change in the in vivo kinematic performance of a posterior-stabilized rotating-platform prosthesis at as much as 10 years postoperative. We specifically examined (1) relative femoral component-PE bearing and relative PE bearing-tibial tray motion; (2) relative AP motion of the femoral condyles with respect to the tibial tray; and (3) relative femorotibial condylar translations.
METHODS
In vivo three-dimensional kinematics were evaluated for eight patients at 3 months, 15 months, 5 years, and 10 years after TKA with primary implantation of a posterior-stabilized rotating-platform prosthesis. Each patient performed deep knee bend activity, and three-dimensional kinematics were reconstructed from multiple fluoroscopic images using a three-dimensional to two-dimensional registration technique. Once complete, relative component axial rotation patterns, medial and lateral condyle motions throughout flexion, and the presence of femoral condylar lift-off were analyzed.
RESULTS
Overall, tibial bearing rotation was maintained at 10 years postoperatively. There was no statistical difference between postoperative periods for any kinematic parameter except for femoral component-PE bearing axial rotation, which was reduced at the 10-year evaluation versus other assessment periods (p = 0.0006). The lack of statistical difference between postoperative evaluation periods indicates sustained overall implant kinematic performance.
CONCLUSIONS
Our study showed that PE bearing-tibial tray mobility was maintained and that femoral component-PE bearing rotation was reduced at the 10-year followup. This suggests that the overall kinematic performance of this mobile-bearing implant is not negatively affected 10 years postoperatively.
LEVEL OF EVIDENCE
Level III, retrospective study. See the Instructions for Authors for a complete description of levels of evidence.
背景
全膝关节置换术(TKA)使用的后稳定旋转平台假体旨在改善股骨 - 聚乙烯(PE)界面的接触力学。短期随访研究表明,PE 轴承相对于胫骨旋转,但不一定与股骨同步运动。了解这些设计中的运动学如何因长期体内使用而变化很重要。
问题/目的:我们询问后稳定旋转平台假体在术后长达 10 年时,其体内运动学性能是否有显著变化。我们特别检查了:(1)股骨部件 - PE 轴承和 PE 轴承 - 胫骨托的相对运动;(2)股骨髁相对于胫骨托的前后(AP)相对运动;以及(3)股胫髁间相对平移。
方法
对 8 例初次植入后稳定旋转平台假体进行 TKA 的患者,在术后 3 个月、15 个月、5 年和 10 年时评估其体内三维运动学。每位患者进行深屈膝活动,并使用三维到二维配准技术从多个荧光透视图像重建三维运动学。完成后,分析相对部件轴向旋转模式、整个屈曲过程中外侧和内侧髁的运动以及股骨髁抬起的情况。
结果
总体而言,术后 10 年胫骨轴承旋转得以维持。除股骨部件 - PE 轴承轴向旋转外,各运动学参数在术后各时期之间无统计学差异,在 10 年评估时该参数相对于其他评估时期有所降低(p = 0.0006)。术后评估时期之间缺乏统计学差异表明植入物的整体运动学性能持续良好。
结论
我们的研究表明,在 10 年随访时,PE 轴承 - 胫骨托的活动度得以维持,而股骨部件 - PE 轴承的旋转有所减少。这表明这种活动轴承植入物的整体运动学性能在术后 10 年并未受到负面影响。
证据水平
III 级,回顾性研究。有关证据水平的完整描述,请参阅作者指南。
Zotero 插件