Overconstraint Associated With a Modified Lemaire Lateral Extra-Articular Tenodesis Is Decreased by Using an Anterior Femoral Insertion Point in a Cadaveric Model.

IF 4.4 1区医学 Q1 ORTHOPEDICS

Arthroscopy-The Journal of Arthroscopic and Related Surgery Pub Date : 2024-08-22 DOI:10.1016/j.arthro.2024.07.041

Maximilian Sigloch, Christian Coppola, Romed Hoermann, Prisca Alt, Werner Schmoelz, Raul Mayr

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引用次数: 0

Abstract

Purpose: To investigate tibiofemoral knee kinematics when shifting the femoral insertion point of the modified Lemaire lateral extra-articular tenodesis (LET) anterior to the lateral epicondyle.

Methods: Six fresh-frozen human knee joints were tested on a test bench in the following states: (1) native, (2) anterolateral insufficient, (3) original Lemaire (oLET; insertion point: 4 mm posterior and 8 mm proximal to the epicondyle), (4) anterior Lemaire (aLET; insertion point: 5 mm anterior and 5 mm proximal to the epicondyle). Internal tibial rotation was statically investigated under an internal tibial torque of 5 Nm in 0°, 30°, 60°, and 90° of flexion. Anterior translation was statically investigated during a simulated Lachman test with an anterior translational force of 98 N. Additionally, the range of internal tibial rotation and anterior translation were dynamically investigated by a simulated pivot-shift test. Tibiofemoral kinematics were measured using an optical 3D motion analysis system.

Results: The aLET showed an internal tibial rotation comparable to the native state for all tested flexion angles except 90° (0°: P = .201; 30°: P = .118; 60°: P = .126; 90°: P = .026). The oLET showed an internal tibial rotation below the values of the native state for all tested flexion angles indicating an overconstraint (0°: P = .003; 30°: P = .009; 60°: P = .029; 90°: P = .029). Direct comparisons between aLET and oLET showed a significantly decreased overconstraint at 0° and 30° of flexion (P = .001 and P = .003, respectively) when using the aLET. No differences in anterior translation and internal tibial rotation were found between the oLET and aLET during simulated Lachman and pivot-shift test (P > .05), approximating the native state.

Conclusions: An anteriorly shifted LET insertion point restored internal tibial rotation after anterolateral insufficiency to the native state while decreasing the overconstraint of internal tibial rotation induced by an LET using the originally described insertion point for small flexion angles ≤30°.

Clinical relevance: Using an LET insertion point anterior to the epicondyle was recently reported to lower the risk of tunnel interference and has now been shown to restore internal tibial rotation effectively in vitro in the course of the present study. Concerns of overconstraining internal tibial rotation are not diminished by this technique, but using an anterior insertion point helps to decrease overconstraint.

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在尸体模型中使用股骨前端插入点可减少改良Lemaire外侧关节外腱膜挛缩术引起的过度收缩

目的：本研究旨在探讨将改良 Lemaire 外侧关节外腱鞘置换术（LET）的股骨插入点移至外上髁前方时的胫股关节运动学：在试验台上对六个新鲜冷冻的人体膝关节进行了以下状态的测试：1）原生；2）前外侧不足；3）原始 Lemaire（oLET；插入点：后方 4 毫米，外髁近端 8 毫米）；4）前 Lemaire（aLET；插入点：前方 5 毫米，外髁近端 5 毫米）。在 0°、30°、60° 和 90°屈曲时，在 5 牛米的胫骨内侧扭矩下对胫骨内旋进行了静态研究。此外，还通过模拟枢轴移位试验对胫骨内旋和前移的范围进行了动态研究。使用光学三维运动分析系统测量了胫股骨运动学：结果：在除 90° 以外的所有测试屈曲角度，aLET 显示胫骨内旋与原生状态相当（0°：P = 0.201；30°：P = 0.118；60°：P = 0.126；90°：P = 0.026）。在所有测试的屈曲角度下，oLET 的胫骨内旋均低于原生状态下的值，表明存在过度约束（0°：P = 0.003；30°：P = 0.009；60°：P = 0.029；90°：P = 0.029）。aLET 和 oLET 之间的直接比较显示，使用 aLET 时，屈曲 0° 和 30° 时的过度约束明显减少（分别为 P = 0.001 和 P = 0.003）。在模拟拉赫曼和枢轴移位测试中，oLET 和 aLET 的前移和胫骨内旋没有发现差异（P > 0.05），接近原生状态：结论：LET插入点前移可使前外侧功能不全后的胫骨内旋恢复到原生状态，同时减少了使用最初描述的插入点的LET在屈曲角度小于30°时引起的胫骨内旋过度约束：临床相关性：最近有报道称，在胫骨外上髁前方使用 LET 插入点可降低隧道干扰的风险，而在本研究过程中，体外实验也证明了该方法可有效恢复胫骨内旋。这项技术并没有减少对胫骨内旋过度束缚的担忧，但使用前方插入点有助于减少过度束缚。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Arthroscopy-The Journal of Arthroscopic and Related Surgery 医学-外科

CiteScore

9.30

自引率

17.00%

发文量

555

审稿时长

58 days

期刊介绍： Nowhere is minimally invasive surgery explained better than in Arthroscopy, the leading peer-reviewed journal in the field. Every issue enables you to put into perspective the usefulness of the various emerging arthroscopic techniques. The advantages and disadvantages of these methods -- along with their applications in various situations -- are discussed in relation to their efficiency, efficacy and cost benefit. As a special incentive, paid subscribers also receive access to the journal expanded website.