前交叉韧带重建膝关节中的胫股接触力

Tibiofemoral Contact Forces in the Anterior Cruciate Ligament-Reconstructed Knee.

作者信息

Saxby David John, Bryant Adam L, Modenese Luca, Gerus Pauline, Killen Bryce A, Konrath Jason, Fortin Karine, Wrigley Tim V, Bennell Kim L, Cicuttini Flavia M, Vertullo Christopher, Feller Julian A, Whitehead Tim, Gallie Price, Lloyd David G

机构信息

1Innovations in Health Technology, Menzies Health Institute Queensland, Griffith University, Gold Coast, AUSTRALIA; 2Centre for Health, Exercise and Sports Medicine, University of Melbourne, AUSTRALIA; 3Department of Mechanical Engineering, University of Sheffield, UNITED KINGDOM; 4INSIGNEO Institute for In Silico Medicine, University of Sheffield, UNITED KINGDOM; 5Laboratory of Human Motion, Education and Health, University of Nice Sophia-Antipolis, Nice, FRANCE; 6Department of Epidemiology and Preventive Medicine, Monash University, AUSTRALIA; 7Knee Research Australia, AUSTRALIA; 8OrthoSport Victoria, Epworth Richmond, Melbourne, AUSTRALIA; 9College of Science, Health and Engineering, La Trobe University, Melbourne, AUSTRALIA; and 10Coast Orthopaedics, Gold Coast, AUSTRALIA.

出版信息

Med Sci Sports Exerc. 2016 Nov;48(11):2195-2206. doi: 10.1249/MSS.0000000000001021.

DOI:10.1249/MSS.0000000000001021

PMID:27337173

Abstract

PURPOSE

To investigate differences in anterior cruciate ligament-reconstructed (ACLR) and healthy individuals in terms of the magnitude of the tibiofemoral contact forces, as well as the relative muscle and external load contributions to those contact forces, during walking, running, and sidestepping gait tasks.

METHODS

A computational EMG-driven neuromusculoskeletal model was used to estimate the muscle and tibiofemoral contact forces in those with single-bundle combined semitendinosus and gracilis tendon autograft ACLR (n = 104, 29.7 ± 6.5 yr, 78.1 ± 14.4 kg) and healthy controls (n = 60, 27.5 ± 5.4 yr, 67.8 ± 14.0 kg) during walking (1.4 ± 0.2 m·s), running (4.5 ± 0.5 m·s) and sidestepping (3.7 ± 0.6 m·s). Within the computational model, the semitendinosus of ACLR participants was adjusted to account for literature reported strength deficits and morphological changes subsequent to autograft harvesting.

RESULTS

ACLR had smaller maximum total and medial tibiofemoral contact forces (~80% of control values, scaled to bodyweight) during the different gait tasks. Compared with controls, ACLR were found to have a smaller maximum knee flexion moment, which explained the smaller tibiofemoral contact forces. Similarly, compared with controls, ACLR had both a smaller maximum knee flexion angle and knee flexion excursion during running and sidestepping, which may have concentrated the articular contact forces to smaller areas within the tibiofemoral joint. Mean relative muscle and external load contributions to the tibiofemoral contact forces were not significantly different between ACLR and controls.

CONCLUSIONS

ACLR had lower bodyweight-scaled tibiofemoral contact forces during walking, running, and sidestepping, likely due to lower knee flexion moments and straighter knee during the different gait tasks. The relative contributions of muscles and external loads to the contact forces were equivalent between groups.

摘要

目的

研究前交叉韧带重建（ACLR）患者与健康个体在行走、跑步和侧步步态任务中胫股接触力的大小差异，以及肌肉和外部负荷对这些接触力的相对贡献。

方法

使用计算肌电图驱动的神经肌肉骨骼模型，估计单束半腱肌和股薄肌腱自体移植ACLR患者（n = 104，29.7±6.5岁，78.1±14.4 kg）和健康对照者（n = 60，27.5±5.4岁，67.8±14.0 kg）在行走（1.4±0.2 m·s）、跑步（4.5±0.5 m·s）和侧步（3.7±0.6 m·s）时的肌肉和胫股接触力。在计算模型中，对ACLR参与者的半腱肌进行了调整，以考虑文献报道的自体移植取材后力量缺陷和形态变化。

结果

在不同步态任务中，ACLR患者的最大总胫股接触力和内侧胫股接触力较小（约为对照值的80%，按体重缩放）。与对照组相比，ACLR患者的最大屈膝力矩较小，这解释了胫股接触力较小的原因。同样，与对照组相比，ACLR患者在跑步和侧步时的最大屈膝角度和屈膝幅度均较小，这可能使关节接触力集中在胫股关节内较小的区域。ACLR患者和对照组之间，肌肉和外部负荷对胫股接触力的平均相对贡献没有显著差异。

结论

在行走、跑步和侧步过程中，ACLR患者按体重缩放的胫股接触力较低，这可能是由于在不同步态任务中屈膝力矩较小且膝关节较伸直。两组之间肌肉和外部负荷对接触力的相对贡献相当。

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前交叉韧带重建膝关节中的胫股接触力

Tibiofemoral Contact Forces in the Anterior Cruciate Ligament-Reconstructed Knee.

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METHODS

RESULTS

CONCLUSIONS

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