不同程度的踝关节外翻限制对止步跳跃中下肢生物力学的影响

IF 1.8 4区 计算机科学 Q3 ENGINEERING, BIOMEDICAL
Applied Bionics and Biomechanics Pub Date : 2024-08-28 eCollection Date: 2024-01-01 DOI:10.1155/2024/9079982
Zanni Zhang, Datao Xu, Xiangli Gao, Minjun Liang, Julien S Baker, Yaodong Gu
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引用次数: 0

摘要

目的:在篮球和排球等高强度运动的动态运动中,踝关节的功能状态至关重要,尤其是在做急停跳等动作时。踝关节外展受限与受伤风险增加和急停跳任务中的生物力学变化有关。因此,本研究旨在探讨限制踝关节外展如何影响止跳阶段的下肢生物力学,重点关注这种限制所产生的适应性变化。首先,收集了 18 名参与者在无楔形板(NW)、10° 楔形板(10 W)和 20°楔形板(20 W)情况下使用优势腿进行止跳的数据,以探索限制踝关节活动度与下肢生物力学之间的关系。随后,开发了一个肌肉骨骼模型来模拟和计算生物力学数据。最后,利用单向重复测量方差分析(SPM1D)来评估结果变量的组间差异:结果:随着踝关节限制角度的增加,膝关节外旋角度、膝关节伸展角速度、髋关节伸展角度和角速度增加,且在不同的踝关节限制角度下有显著差异(p < 0.001 和 p=0.001),髌周肌肉(BF/RF 和 BF/VM)的共激活逐渐增加,髌股关节接触力(PTF)在 3%-8% 阶段逐渐增加(p=0.015)。这些结果突显了踝关节限制对停止跳跃动作时下肢运动学和髌股关节负荷的影响:随着踝关节受限角度的增加,髌骨周围肌肉的共激活增加,PTF 增加,这可能是因为当踝关节外翻角度受限时,人无法充分调整身体以保持平衡。髌骨周围肌肉共激活增加和髌股接触力增加可能是身体适应平衡调整的一种补偿反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of Different Degrees of Ankle Dorsiflexion Restriction on the Biomechanics of the Lower Extremity in Stop-Jumping.

Purpose: The functional status of the ankle joint is critical during dynamic movements in high-intensity sports like basketball and volleyball, particularly when performing actions such as stopping jumps. Limited ankle dorsiflexion is associated with increased injury risk and biomechanical changes during stop-jump tasks. Therefore, this study aims to investigate how restricting ankle dorsiflexion affects lower extremity biomechanics during the stop-jump phase, with a focus on the adaptive changes that occur in response to this restriction. Initially, 18 participants during stop-jumping with no wedge plate (NW), 10° wedge plate (10 W), and 20° wedge plate (20 W) using dominant leg data were collected to explore the relationship between limiting ankle mobility and lower extremity biomechanics. Following this, a musculoskeletal model was developed to simulate and calculate biomechanical data. Finally, one-dimensional parametric statistical mapping (SPM1D) was utilized to evaluate between-group variation in outcome variables using a one-way repeated measures analysis of variance (ANOVA).

Results: As the ankle restriction angle increased, knee external rotation angles, knee extension angular velocities, hip extension angle, and angular velocity increased and were significantly different at different ankle restriction angles (p  < 0.001 and p=0.001), coactivation of the peripatellar muscles (BF/RF and BF/VM) increased progressively, and patellofemoral joint contact force (PTF) increased progressively during the 3%-8% phase (p=0.015). These results highlight the influence of ankle joint restriction on lower limb kinematics and patellofemoral joint loading during the stop-jump maneuver.

Conclusion: As the angle of ankle restriction increased, there was an increase in coactivation of the peripatellar muscles and an increase in PTF, possibly because a person is unable to adequately adjust their body for balance when the ankle valgus angle is restricted. The increased coactivation of the peripatellar muscles and increased patellofemoral contact force may be a compensatory response to the body's adaptation to balance adjustments.

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来源期刊
Applied Bionics and Biomechanics
Applied Bionics and Biomechanics ENGINEERING, BIOMEDICAL-ROBOTICS
自引率
4.50%
发文量
338
审稿时长
>12 weeks
期刊介绍: Applied Bionics and Biomechanics publishes papers that seek to understand the mechanics of biological systems, or that use the functions of living organisms as inspiration for the design new devices. Such systems may be used as artificial replacements, or aids, for their original biological purpose, or be used in a different setting altogether.
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