Center for Musculoskeletal Research, Mechanical, Aerospace, and Biomedical Engineering, University of Tennessee, Knoxville, TN.
J Arthroplasty. 2021 Jul;36(7):2386-2392. doi: 10.1016/j.arth.2021.01.071. Epub 2021 Jan 29.
One of the most common kinematic abnormalities reported for posterior-stabilized (PS) total knee arthroplasty (TKA) design is paradoxical anterior sliding during early and mid-flexion. PS TKAs have been designed such that the cam-post mechanism does not engage until later in flexion, making these implants vulnerable to anterior sliding during early and mid-flexion. The objective of this study is to investigate the biomechanical effect of increasing bearing conformity on a PS TKA.
Using a validated computational model of the knee joint, the sagittal conformity of the medial plateau of a PS TKA design was altered. Three scenarios were created and evaluated for mechanics: (1) baseline conformity, (2) increased conformity, and (3) decreased conformity.
From full extension to approximately 70° of knee flexion, the medial condyle demonstrated minimal anterior sliding for the increased medial conformity design but revealed anterior sliding of 2 and 4 mm for the baseline and decreased conformity designs, respectively. After cam-post engagement, the medial condyle consistently rolled back for all 3 designs. The lateral condyle experienced consistent rollback throughout the entire flexion range for all 3 designs. However, femorotibial contact force was higher for the increased conformity design, peaking at 3.13 times body weight (×BW) compared to 3.0 × BW contact force for other 2 designs.
Increasing medial conformity of the bearing insert appears to reduce mid-flexion sliding for PS TKA designs, although this comes at the expense of increased femorotibial forces. This could be due to kinematic conflicts that may be introduced with highly constraining designs.
后稳定型(PS)全膝关节置换术(TKA)设计中最常见的运动学异常之一是在早期和中期屈曲时出现反常的前向滑动。PS TKA 的设计使得凸轮-后凸机构直到后期屈曲才开始接触,这使得这些植入物在早期和中期屈曲时容易出现前向滑动。本研究的目的是研究增加承窝顺应性对 PS TKA 的生物力学影响。
使用膝关节的验证计算模型,改变 PS TKA 设计的内侧平台矢状面顺应性。创建并评估了三种情况的力学性能:(1)基线顺应性,(2)增加顺应性,和(3)减少顺应性。
从完全伸展到大约 70°的膝关节屈曲,增加内侧顺应性设计的内侧髁显示出最小的前向滑动,但基线和减少顺应性设计分别显示出 2 和 4 毫米的前向滑动。凸轮-后凸机构接触后,内侧髁在所有三种设计中都一致向后滚动。在所有三种设计中,外侧髁在整个屈曲范围内都保持一致的向后滚动。然而,增加顺应性设计的股骨胫骨接触力更高,峰值达到 3.13 倍体重(×BW),而其他两种设计的接触力为 3.0×BW。
增加承窝插入物的内侧顺应性似乎可以减少 PS TKA 设计的中期屈曲滑动,尽管这是以增加股骨胫骨力为代价的。这可能是由于高度约束设计可能引入的运动学冲突所致。
