在不受限制的运动学对线中，低顺应性胫骨衬垫的后缘加载是由为机械对线设计的不对称基板的旋转对线引起的。

Posterior rim loading of a low-conforming tibial insert in unrestricted kinematic alignment is caused by rotational alignment of an asymmetric baseplate designed for mechanical alignment.

机构信息

Department of Biomedical Engineering, University of California Davis, Davis, CA, 95616, USA.

Department of Mechanical Engineering, University of California Davis, Davis, CA, 95616, USA.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2023 Aug;31(8):3051-3060. doi: 10.1007/s00167-022-06994-5. Epub 2022 May 31.

DOI:10.1007/s00167-022-06994-5

PMID:35641683

Abstract

PURPOSE

Because different targets are used for internal-external rotation, an asymmetric baseplate designed for mechanical alignment may lead to under-coverage and concomitant posterior rim loading in the lateral compartment following unrestricted kinematic alignment (KA) TKA. Recognizing that such loading can lead to premature wear and/or subsidence, our aim was to determine the cause(s) so that occurrence could be remedied. Our hypothesis was that baseplate design features such as asymmetric shape when aligned in KA would consistently contribute to posterior rim loading in the lateral compartment.

METHODS

Based on analysis of fluoroscopic images of 50 patients performing dynamic, weight bearing deep knee bend and step up and of postoperative CT images, five possible causes were investigated. Causes included internal rotation of the baseplate when positioned in KA; posterior position of the lateral femoral condyle at extension; internal tibial rotation with flexion; internal rotational deviation of the baseplate from the KA rotation target; and posterior slope.

RESULTS

The incidence of posterior rim loading was 18% (9 of 50 patients). When positioned in KA, the asymmetric baseplate left 15% versus 10% of the AP depth of the lateral compartment uncovered posteriorly for posterior rim loading and non-posterior rim loading groups, respectively (p = 0.009). The lateral femoral condyle at extension was more posterior by 4 mm for the posterior rim loading group (p = 0.003).

CONCLUSIONS

Posterior rim loading in the lateral compartment was caused in part by the asymmetric design of the tibial baseplate designed for mechanical alignment which was internally rotated when positioned in KA thus under-covering a substantial percentage of the posterior lateral tibia. This highlights the need for new, asymmetric baseplates designed to maximize coverage when used in KA.

LEVEL OF EVIDENCE

III.

摘要

目的

由于内外旋转使用的目标不同，因此为机械对线设计的非对称基板在不受限制的运动对线（KA）全膝关节置换术后可能导致外侧间室覆盖不足和伴随的后缘加载。认识到这种加载会导致早期磨损和/或下沉，我们的目的是确定原因，以便能够补救。我们的假设是，当在 KA 中对线时，基板设计特征（例如非对称形状）将始终导致外侧间室后缘加载。

方法

基于对 50 例患者进行动态、负重深膝弯曲和跨步的荧光透视图像以及术后 CT 图像的分析，研究了五种可能的原因。原因包括在 KA 中定位时基板的内旋；伸展时外侧股骨髁的后位；屈曲时胫骨内旋；基板从 KA 旋转目标的内旋转偏差；以及后倾。

结果

后缘加载的发生率为 18%（50 例患者中有 9 例）。当定位在 KA 中时，非对称基板分别留下外侧间室后缘加载组和非后缘加载组 15%和 10%的 AP 深度未覆盖，差异具有统计学意义（p=0.009）。后缘加载组的外侧股骨髁在伸展时更向后 4mm（p=0.003）。

结论

外侧间室的后缘加载部分是由机械对线设计的胫骨基板的非对称设计引起的，当定位在 KA 中时，它发生了内旋，从而覆盖了大量的后外侧胫骨。这突出表明需要新的、非对称的基板，当在 KA 中使用时，其设计旨在最大限度地提高覆盖范围。

证据水平

III 级。

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在不受限制的运动学对线中，低顺应性胫骨衬垫的后缘加载是由为机械对线设计的不对称基板的旋转对线引起的。

Posterior rim loading of a low-conforming tibial insert in unrestricted kinematic alignment is caused by rotational alignment of an asymmetric baseplate designed for mechanical alignment.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

LEVEL OF EVIDENCE

目的

方法

结果

结论

证据水平

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