外侧关节外重建长度在负重膝关节屈曲和枢轴转移过程中的变化:一项模拟研究。
Lateral extra-articular reconstruction length changes during weightbearing knee flexion and pivot shift: A simulation study.
机构信息
EA 7424, laboratoire inter-universitaire de biologie de la motricité, université Lyon, université Claude-Bernard Lyon 1, 27-29, boulevard du 11 Novembre 1918, 69622 Villeurbanne cedex, France.
Group Ramsay-générale de santé, centre orthopédique Santy, hôpital privé Jean-Mermoz, 69008 Lyon, France.
出版信息
Orthop Traumatol Surg Res. 2019 Jun;105(4):661-667. doi: 10.1016/j.otsr.2019.02.020. Epub 2019 Apr 17.
INTRODUCTION
Variations in the length of lateral extra-articular reconstruction (LER) have been widely investigated during knee flexion but there is no information about length changes during pivot shift. This study sought to assess the changes in LER tension during weightbearing knee flexion in a normal knee and in a computer-simulated pivot-shift scenario.
HYPOTHESIS
Placing the femoral tunnel posterior and proximal to the lateral femoral epicondyle allows the LER to tighten early in the flexion range during weightbearing (squatting motion) and simulated pivot-shift.
MATERIAL AND METHODS
A computer model was used to simulate weightbearing knee flexion and pivot shift scenarios. Changes in LER tension were calculated in both scenarios by estimating the distance between six femoral attachment sites (posterior and proximal to the lateral femoral epicondyle) and two tibial tunnel locations: Gerdy's tubercle (GT) and the anterolateral ligament (ALL) anatomic attachment site.
RESULTS
Independent of the location of the femoral and tibial tunnels, the LER tightened by up to 22% of its resting length during the early portion of weightbearing knee flexion and then relaxed from 40° to 60° of knee flexion. The ALL tibial tunnel position allowed complete LER relaxation at 60° flexion whereas LER using the GT tibial tunnel position remained tighter. In the simulated pivot-shift test, and for all femoral tunnel locations, the LER tightened by 20% to 34% of its resting value for the GT tibial tunnel position and by 11% to 26% for the ALL tibial tunnel position.
DISCUSSION
During weightbearing knee flexion, placing the femoral tunnel proximal and posterior to the femoral epicondyle was associated with LER tightening in the early degrees of flexion and LER relaxation between 40 and 60° flexion. LER tightening occurred during a simulated pivot-shift test supporting the concept that a posterior and proximal femoral LER tunnel position is most effective during weightbearing knee flexion and altered knee kinematics.
简介
在膝关节屈曲过程中,外侧关节外重建(LER)的长度变化已经得到了广泛的研究,但在髌股关节脱位(Pivot Shift)过程中,关于 LER 长度变化的信息却很少。本研究旨在评估正常膝关节和计算机模拟髌股关节脱位情况下,负重膝关节屈曲过程中 LER 张力的变化。
假设
将股骨隧道放置在股骨外上髁的后方和近端,可以使 LER 在负重(深蹲运动)和模拟髌股关节脱位时的膝关节屈曲早期拉紧。
材料和方法
使用计算机模型模拟负重膝关节屈曲和髌股关节脱位情况。通过估计六个股骨附着点(股骨外上髁的后方和近端)和两个胫骨隧道位置(Gerdy 结节(GT)和前外侧韧带(ALL)解剖附着点)之间的距离,计算出两种情况下 LER 张力的变化。
结果
无论股骨和胫骨隧道的位置如何,在负重膝关节屈曲的早期,LER 都会收紧其静息长度的 22%,然后从 40°到 60°的膝关节屈曲开始放松。ALL 胫骨隧道位置允许在 60°屈曲时完全放松 LER,而使用 GT 胫骨隧道位置的 LER 则保持更紧。在模拟髌股关节脱位测试中,对于所有股骨隧道位置,对于 GT 胫骨隧道位置,LER 收紧了其静息长度的 20%到 34%,而对于 ALL 胫骨隧道位置,LER 收紧了其静息长度的 11%到 26%。
讨论
在负重膝关节屈曲时,将股骨隧道放置在股骨外上髁的近端和后方与 LER 在早期屈曲时收紧和在 40 到 60°屈曲时放松有关。在模拟髌股关节脱位测试中,LER 收紧,这支持了股骨 LER 隧道位置偏后和偏上在负重膝关节屈曲和改变膝关节运动学方面最有效的概念。
Zotero 插件