Increased loading of the lateral knee compartment in the unamputated knee during gait in people with unilateral transfemoral/through-knee amputations.

IF 4.7 2区医学 Q2 CELL & TISSUE ENGINEERING

Bone & Joint Research Pub Date : 2025-07-11 DOI:10.1302/2046-3758.147.BJR-2024-0301.R1

Diana Toderita, Clement D Favier, David P Henson, Vasiliki Vardakastani, Natalie L Egginton, Alexander N Bennett, Anthony M J Bull

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Abstract

Aims: People with unilateral transfemoral/through-knee amputations (UTF) are at risk of mechanically mediated contralateral knee osteoarthritis (OA). This study aims to identify the mechanical indicators of the development and progression of unamputated knee OA in the UTF population.

Methods: Level-ground gait data were collected from 14 male traumatic UTF participants and 14 uninjured matched controls using optical motion capture systems and force plates. Inverse kinematics, inverse dynamics, and static optimization musculoskeletal modelling simulations were conducted.

Results: UTF demonstrated higher unamputated ankle plantarflexion angles (by 4.9°, p = 0.012), peak-to-peak pelvic obliquity angles (by 2.9°, p = 0.040), and unamputated limb second peak ground reaction force (by 0.1 body weight (BW), p = 0.002) than controls. The UTF unamputated knee maximum loading rate was 0.9 Nm/kg.s higher than controls (p = 0.002). Additionally, UTF presented higher loading of the lateral compartment of the unamputated knee than controls, as characterized by the first peak (by 0.3 BW, p = 0.033), second peak (by 0.8 BW, p = 0.008), and impulse (by 22.0 BW.s/m, p < 0.001).

Conclusion: Traumatic UTF need to adopt new movement strategies to account for the limb loss. Although beneficial for successful ambulation, these compensatory movement strategies increase joint loading in the unamputated knee, which may increase the risk of OA and soft-tissue injuries. Mitigation strategies need to be proposed to improve ambulatory biomechanics with a view to improving long-term musculoskeletal health, while maintaining optimal functional levels.

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单侧经股/经膝截肢患者步态中未截肢膝关节外侧腔室负荷增加。

目的：单侧经股/经膝截肢（UTF）的患者有机械介导的对侧膝关节骨关节炎（OA）的风险。本研究旨在确定UTF人群中未截肢膝关节OA发生和进展的力学指标。方法：使用光学运动捕捉系统和测力板收集14名男性创伤性UTF参与者和14名未受伤对照者的平地步态数据。进行了逆运动学、逆动力学和静态优化肌肉骨骼建模仿真。结果：UTF显示未截肢的踝关节跖屈角（4.9°，p = 0.012），峰对峰骨盆倾斜角（2.9°，p = 0.040）和未截肢的肢体第二峰地反力（0.1体重（BW）， p = 0.002）比对照组高。UTF未截肢膝关节最大负荷率为0.9 Nm/kg。S高于对照组（p = 0.002）。此外，UTF对未截肢膝关节外侧腔室的负荷高于对照组，其特征为第一次峰值（增加0.3 BW, p = 0.033），第二次峰值（增加0.8 BW, p = 0.008）和脉冲（增加22.0 BW）。S /m, p < 0.001)。结论：外伤性UTF需要采用新的运动策略来解决肢体丧失的问题。虽然这些代偿性运动策略有利于成功的活动，但增加了未截肢膝关节的关节负荷，这可能增加OA和软组织损伤的风险。需要提出缓解策略，以改善动态生物力学，以改善长期的肌肉骨骼健康，同时保持最佳的功能水平。

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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