Preserving primary medial static stabilizer ligaments achieves physiological knee kinematics in total knee arthroplasty

Journal of Joint Surgery and Research Pub Date : 2023-12-01 DOI:10.1016/j.jjoisr.2023.10.002

Yasushi Oshima, Norishige Iizawa, Tokifumi Majima

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引用次数: 0

Abstract

Purpose

As postoperative knee instability has been reported to be one of the critical reasons for early failure in total knee arthroplasty (TKA), obtaining optimal knee stability—especially in medial—was indispensable for successful TKA. We hypothesized that preserving medial soft tissue structures was the key to maintain physiological medial knee stability. Thus, TKAs with preserving primary medial static stabilizer ligaments technique were performed, and the postoperative knee kinematics was evaluated.

Methods

Primary knee osteoarthritis patients with varus knee deformity and planed for primary TKA were enrolled. However, patients with severe varus knee deformities, valgus knee deformities, and rheumatoid arthritis were excluded. TKAs were performed by removing medial femoral and tibial osteophytes; however, the primary medial static stabilizer ligaments—the superficial medial collateral ligament (MCL), deep MCL, and posterior oblique ligament—were not released. The cruciate-retaining (CR), posterior-stabilized (PS), and medial-pivot (MP) inserts were implanted, and the knee kinematics was measured. These data were statistically analyzed using analysis of variance. The institutional review board approved the study.

Results

From full extension to maximum flexion, the lateral femoral condyle moved backward, greater than the medial femoral condyle, and consequently the femur external rotated on the tibia. These kinematics patterns were shown in CR, PS, and MP groups.

Conclusion

As the knee kinematics of CR and PS are similar to that of MP, which has been reported to demonstrate physiological knee kinematics, preserving primary medial static stabilizer ligaments technique could potentially preserve physiological knee kinematics.

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在全膝关节置换术中，保留初级内侧静态稳定韧带可实现膝关节的生理运动学

目的术后膝关节不稳定是全膝关节置换术(TKA)早期失败的重要原因之一，获得最佳的膝关节稳定性(尤其是内侧)是TKA成功的必要条件。我们假设保留内侧软组织结构是维持膝关节内侧生理稳定性的关键。因此，采用保留初级内侧静态稳定韧带技术的tka，并对术后膝关节运动学进行评估。方法选择合并膝内翻畸形并计划行原发性膝关节置换术的原发性膝关节骨性关节炎患者。然而，严重的膝内翻畸形、膝外翻畸形和类风湿关节炎患者被排除在外。通过去除股骨内侧和胫骨骨赘进行tka;然而，主要的内侧静态稳定韧带——浅内侧副韧带(浅内侧副韧带)、深内侧副韧带和后斜韧带没有被释放。植入十字保留(CR)、后稳定(PS)和内侧枢轴(MP)植入物，并测量膝关节运动学。这些数据采用方差分析进行统计学分析。机构审查委员会批准了这项研究。结果从完全伸展到最大屈曲，股骨外侧髁向后移动，大于股骨内侧髁，导致股骨在胫骨上外旋。这些运动学模式显示在CR、PS和MP组。结论CR和PS的膝关节运动学与MP相似，已经有报道证明了膝关节的生理性运动学，保留初级内侧静态稳定韧带技术可能保留膝关节的生理性运动学。

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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Journal of Joint Surgery and Research

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