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平衡型单髁膝关节置换术：过度填充会导致内侧副韧带承受高张力。

Balancing UKA: overstuffing leads to high medial collateral ligament strains.

作者信息

Heyse Thomas J, El-Zayat Bilal F, De Corte Ronny, Scheys Lennart, Chevalier Yan, Fuchs-Winkelmann Susanne, Labey Luc

机构信息

Center for Orthopaedics and Trauma Surgery, University Hospital Marburg, Baldingerstrasse, 35043, Marburg, Germany.

Smith & Nephew, Zaventem, Belgium.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2016 Oct;24(10):3218-3228. doi: 10.1007/s00167-015-3848-5. Epub 2015 Nov 18.

DOI:10.1007/s00167-015-3848-5

PMID:26581364

Abstract

PURPOSE

Balancing unicondylar knee arthroplasty (UKA) is challenging. If not performed properly, it may lead to implant loosening or progression of osteoarthritis in the preserved compartment. This study was aimed to document the biomechanical effects of improper balancing. We hypothesised that overstuffing would lead to more valgus, higher strain in the medial collateral ligament (sMCL), and higher lateral contact force.

METHODS

Six fresh-frozen cadaver specimens were mounted in a kinematic rig. Three motion patterns were applied with the native knee and following medial UKA (passive motion, open-chain extension, and squatting), while infrared cameras recorded the trajectories of markers attached to femur and tibia. Three inlay thicknesses were tested (8, 9, 10 mm).

RESULTS

Overstuffed knees were in more valgus and showed less tibial rotation and higher strains in the sMCL (p < 0.05). Lateral contact forces were higher in some specimens and lower in others. Stiffening of the medial compartment by UKA, even well balanced, already leads to a knee more in valgus with a more stressed sMCL. Overstuffing increases these effects. Knees with a tight sMCL may even see lower lateral contact force. Biomechanics were closest to the native knee with understuffing.

CONCLUSION

The first two hypotheses were confirmed, but not the latter. This underlines the importance of optimal balancing. Overstuffing should certainly be avoided. Although kinematics is only slightly affected, contact forces and ligament strains are considerably changed and this might be of more clinical importance. It is advisable to use thinner inlays, if stability is not compromised.

摘要

目的

单髁膝关节置换术（UKA）的平衡具有挑战性。如果操作不当，可能会导致植入物松动或保留关节间室的骨关节炎进展。本研究旨在记录平衡不当的生物力学影响。我们假设过度填充会导致更多外翻、内侧副韧带（sMCL）更高的应变以及更高的外侧接触力。

方法

将六个新鲜冷冻的尸体标本安装在运动装置上。在自然膝关节以及内侧UKA术后施加三种运动模式（被动运动、开链伸展和下蹲），同时红外摄像机记录附着在股骨和胫骨上的标记物的轨迹。测试了三种嵌体厚度（8、9、10毫米）。

结果

过度填充的膝关节外翻更多，胫骨旋转更少，sMCL的应变更高（p<0.05）。外侧接触力在一些标本中较高，而在另一些标本中较低。即使平衡良好，UKA导致的内侧间室硬化也已导致膝关节更多外翻，sMCL承受更大压力。过度填充会增加这些影响。sMCL紧绷的膝关节甚至可能出现更低的外侧接触力。嵌体填充不足时生物力学最接近自然膝关节。

结论

前两个假设得到证实，但最后一个未得到证实。这突出了最佳平衡的重要性。当然应避免过度填充。尽管运动学仅受到轻微影响，但接触力和韧带应变发生了显著变化，这可能在临床上更重要。如果不影响稳定性，建议使用更薄的嵌体。

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Clin Biomech (Bristol). 2013 Aug;28(7):777-82. doi: 10.1016/j.clinbiomech.2013.06.006. Epub 2013 Jun 29.

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J Bone Joint Surg Am. 2011 Jun 15;93(12):1089-95. doi: 10.2106/JBJS.I.01241.

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J Arthroplasty. 2011 Sep;26(6 Suppl):40-5. doi: 10.1016/j.arth.2011.03.026. Epub 2011 May 8.

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平衡型单髁膝关节置换术：过度填充会导致内侧副韧带承受高张力。

Balancing UKA: overstuffing leads to high medial collateral ligament strains.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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