The Effect of Lateral Extra-articular Tenodesis on Anterior Cruciate Ligament Graft Forces and Knee Stability Compared With Slope Reduction Osteotomy in the Setting of Increased Posterior Tibial Slope.

The American Journal of Sports Medicine Pub Date : 2025-05-21 DOI:10.1177/03635465251338236

Nicholas J Lemme,Rohit Badida,Janine Molino,Matthew Quinn,Madalyn Hague,Braden C Fleming,Brett D Owens

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Abstract

BACKGROUND Anterior cruciate ligament (ACL) reconstruction (ACLR) in the presence of excessive posterior tibial slope (PTS) is a well-established risk factor for increased ACL graft forces and a heightened risk of graft failure. PURPOSE/HYPOTHESIS The primary aim of this study was to evaluate whether lateral extra-articular tenodesis (LET) could mitigate the adverse effects of increased PTS on knee kinematics and ACL graft forces, achieving results comparable to those of slope-reducing osteotomy (SRO). It was hypothesized that LET would provide similar improvements in knee stability and graft force reduction to SRO in the presence of increased PTS. A secondary aim was to determine if an ALC injury exacerbates the effect of increased PTS on ACL graft forces and overall knee stability. It was hypothesized that ALC injury would amplify the negative effects of increased PTS. STUDY DESIGN Controlled laboratory study. METHODS Eight fresh-frozen cadaveric specimens were prepared, excluding those with previous surgery or significant knee pathology. ACLR was performed using a quadrupled hamstring tendon autograft. The effects of LET and SRO were tested at various degrees of PTS (0°, 10°, and 20°). A simulated pivot-shift maneuver was used to measure ACL graft loads, anterior tibial translation (ATT), and internal rotation (IR). Mixed-effects models were utilized to analyze the data. RESULTS Increasing PTS resulted in significant increases in ACL graft forces (P < .001), ATT (P < .001), and IR (P < .001). LET reduced ACL graft loads by 22.1% at 10° and 36.6% at 20° of PTS. In contrast, a 10° SRO showed only a 2.6% reduction at 10° and 23.9% at 20° of PTS. There were no significant differences in graft forces between the postosteotomy states and LET augmentation states at both 10° and 20° of tibial slope, suggesting equivalent efficacy in reducing graft loads. Additionally, LET significantly decreased graft forces compared with the ALC-sectioned state (P = .019). Finally, ALC sectioning did not significantly increase ACL graft load compared with the ACLR-only condition (P = .320), nor did it exacerbate the effects of increased PTS on ATT and IR. CONCLUSION LET effectively reduces ACL graft forces and improves knee stability in the presence of increased PTS, performing comparably to or better than SRO under simulated pivot-shift conditions. CLINICAL RELEVANCE These findings suggest that LET is a viable alternative to SRO, particularly for patients with high PTS undergoing ACLR.

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外侧关节外肌腱固定术对前交叉韧带移植物力和膝关节稳定性的影响与在胫骨后坡增加的情况下斜坡复位截骨术的比较。

背景：前交叉韧带（ACL）重建（ACLR）存在过度的胫骨后斜度（PTS）是一个公认的风险因素，增加了ACL移植力和移植失败的风险。目的/假设本研究的主要目的是评估外侧关节外肌腱固定术（LET）是否可以减轻PTS增加对膝关节运动学和ACL移植物力的不利影响，达到与减坡截骨术（SRO）相当的结果。假设在PTS增加的情况下，LET可以提供与SRO相似的膝关节稳定性改善和移植物力减少。第二个目的是确定ALC损伤是否会加剧PTS增加对前交叉韧带移植物力和整体膝关节稳定性的影响。假设ALC损伤会放大PTS增加的负面影响。研究设计：对照实验室研究。方法制备8例新鲜冷冻尸体标本，不包括既往手术或重大膝关节病理的尸体标本。ACLR采用四肢腘绳肌腱自体移植。在不同的PTS度（0°、10°和20°）下测试LET和SRO的效果。模拟枢轴移位操作用于测量ACL移植物负荷、胫骨前平移（ATT）和内旋（IR）。采用混合效应模型对数据进行分析。结果PTS升高导致前交叉韧带移植力（P < 0.001）、ATT （P < 0.001）、IR （P < 0.001）显著升高。在PTS为10°和20°时，LET分别减少了22.1%和36.6%的ACL移植物负荷。相比之下，10°SRO在10°PTS时仅减少2.6%，在20°PTS时仅减少23.9%。在胫骨斜率为10°和20°时，截骨后状态和LET增强状态的植骨力没有显著差异，表明在减少植骨负荷方面效果相同。此外，与alc切片状态相比，LET显著降低移植物力（P = 0.019）。最后，与仅aclr的情况相比，ALC切片并没有显著增加ACL移植物负荷（P = 0.320），也没有加剧PTS增加对ATT和IR的影响。结论：在PTS升高的情况下，let可有效降低ACL移植物受力，改善膝关节稳定性，在模拟枢轴移位条件下的表现与SRO相当或更好。临床相关性这些研究结果表明，对于接受ACLR的高PTS患者，LET是SRO的可行替代方案。

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The American Journal of Sports Medicine

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