Salvadore Gaia, Meere Patrick A, Verstraete Matthias A, Victor Jan, Walker Peter S
New York University, NYU Langone Orthopedic Hospital, Department of Orthopedic Surgery, New York, United States.
Ghent University, Ghent, Belgium.
Knee. 2018 Aug;25(4):650-656. doi: 10.1016/j.knee.2018.04.014. Epub 2018 May 31.
Total knee designs that attempt to reproduce more physiological knee kinematics are gaining attention given their possible improvement in functional outcomes. This study examined if a total knee designed for anatomic motion, where the soft tissue balancing was intended to replicate anatomical tibiofemoral contact forces, can more closely reproduce the laxity of the native knee.
In an ex-vivo setting, the laxity envelope of the knees from nine lower extremity specimens was measured using a rig that reproduced surgical conditions. The rig allowed application of a constant varus/valgus (V/V) and internal-external (I/E) torque through the range of motion. After testing the native knee, total knee arthroplasty (TKA) was performed using the Journey II bi-cruciate substituting implant. Soft tissue balancing was guided by targeting anatomical compressive forces in the lateral and medial tibiofemoral joints with an instrumented tibial trial. After TKA surgery, the laxity tests were repeated and compared to the native condition.
The TKA knee closely reproduced the coronal laxity of the native knee, except for a difference at 90° of flexion for valgus laxity. Looking at the rotational laxity, the implant constrained the internal rotation relative to the native knee at 45 and 60° of flexion. The forces on the tibial trial for the neutral path of motion showed higher values on the medial side as the knee flexed.
This study suggested that when using an anatomically-designed knee, the soft tissue balancing should also aim for anatomical contact forces, which will result in close to normal laxity patterns.
鉴于全膝关节设计在功能结果方面可能的改善,试图重现更符合生理的膝关节运动学的全膝关节设计正受到关注。本研究探讨了一种为解剖运动设计的全膝关节,其软组织平衡旨在复制解剖学上的胫股接触力,是否能更接近地重现天然膝关节的松弛度。
在体外环境中,使用模拟手术条件的装置测量九个下肢标本膝关节的松弛度范围。该装置允许在整个运动范围内施加恒定的内翻/外翻(V/V)和内外(I/E)扭矩。在测试天然膝关节后,使用Journey II双交叉替代植入物进行全膝关节置换术(TKA)。通过使用带仪器的胫骨试验,以瞄准胫股关节外侧和内侧的解剖压缩力来指导软组织平衡。TKA手术后,重复进行松弛度测试并与天然状态进行比较。
TKA膝关节紧密重现了天然膝关节的冠状面松弛度,但在90°屈曲时外翻松弛度存在差异。观察旋转松弛度,植入物在45°和60°屈曲时相对于天然膝关节限制了内旋。随着膝关节屈曲,中立运动路径上胫骨试验的力在内侧显示出更高的值。
本研究表明,当使用解剖学设计的膝关节时,软组织平衡也应以解剖学接触力为目标,这将导致接近正常的松弛模式。
