Open wedge high tibial osteotomy alters patellofemoral joint kinematics: A multibody simulation study

IF 2.1 3区 医学 Q2 ORTHOPEDICS Journal of Orthopaedic Research® Pub Date : 2024-07-30 DOI:10.1002/jor.25945
Lennart Schroeder, Sonja Grothues, Josef Brunner, Klaus Radermacher, Boris Michael Holzapfel, Maximilian Jörgens, Julian Fuermetz
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Abstract

Changes in lower limb alignment after open-wedge high tibial osteotomy (owHTO) influence joint kinematics. The aim of this study was to investigate the morphological and kinematic changes of the knee joint, in particular the patellofemoral joint, using a multibody simulation model. OwHTO with an open tibial wedge of 6–12 mm (1 mm intervals) was virtually performed on each of 13 three-dimensional (3D) computer-aided design models (CAD models) derived from computer tomography scans of full-leg cadaver specimens. For each owHTO, an individual biomechanical simulation model was built and knee flexion from 5° to 100° was simulated using a multibody simulation model of the native knee. Morphologic and alignment parameters as well as tibiofemoral and patellofemoral kinematic parameters were evaluated. Almost linear changes in tibial tuberosity trochlea groove (TT-TG) (0.42 mm/1 mm wedge height) were observed which led to pathological values (TT-TG > 20 mm) in 3 out of 13 knees. Furthermore, a 6 mm increase in osteotomy wedge height increased lateral patellofemoral rotation by 0.8° (range: 0.39° to 1.11°) and led to a lateral patellar translation of 0.8 mm (range: 0.37–3.11 mm) on average. Additionally, valgisation led to a medial translation of the tibia and a decrease in the degree of tibial internal rotation during knee flexion of approximately 0.3°/1 mm increase in osteotomy wedge height. The increase in TT-TG and the biomechanical effects observed influence patellofemoral tracking, which may increase retropatellar pressure and are potential risk factors for the development of anterior knee pain.

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开放式楔形高胫骨截骨术改变了髌股关节运动学:多体模拟研究
开刃高胫骨截骨术(owHTO)后下肢排列的变化会影响关节运动学。本研究旨在利用多体模拟模型研究膝关节,尤其是髌股关节的形态和运动学变化。在 13 个三维(3D)计算机辅助设计模型(CAD 模型)中,每个模型都虚拟了 6-12 毫米(间隔 1 毫米)的开放式胫骨楔形 OwHTO,这些模型来自全腿尸体标本的计算机断层扫描。针对每个owHTO建立了一个单独的生物力学仿真模型,并使用原生膝关节的多体仿真模型模拟了从5°到100°的膝关节屈曲。对形态和排列参数以及胫骨股骨和髌骨运动学参数进行了评估。观察到胫骨结节踝沟(TT-TG)几乎呈线性变化(0.42 毫米/1 毫米楔形高度),13 个膝关节中有 3 个出现病理值(TT-TG > 20 毫米)。此外,截骨楔高度增加 6 毫米会使髌股外侧旋转增加 0.8°(范围:0.39°至 1.11°),并导致髌骨外侧平移平均 0.8 毫米(范围:0.37-3.11 毫米)。此外,瓣化还导致胫骨内侧移位,膝关节屈曲时胫骨内旋程度降低,截骨楔高度增加约 0.3°/1mm。TT-TG的增加和观察到的生物力学效应会影响髌骨股骨跟踪,从而可能增加髌骨后压力,这也是膝前疼痛发生的潜在风险因素。
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来源期刊
Journal of Orthopaedic Research®
Journal of Orthopaedic Research® 医学-整形外科
CiteScore
6.10
自引率
3.60%
发文量
261
审稿时长
3-6 weeks
期刊介绍: The Journal of Orthopaedic Research is the forum for the rapid publication of high quality reports of new information on the full spectrum of orthopaedic research, including life sciences, engineering, translational, and clinical studies.
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