运动过程中摇摆质量部件对关节动力学的影响。

IF 1.1 4区医学 Q4 ENGINEERING, BIOMEDICAL

Journal of Applied Biomechanics Pub Date : 2022-03-01 DOI:10.1123/jab.2021-0051

Samuel E Masters, J. Challis

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引用次数: 2

摘要

在运动过程中，软组织相对于下方骨骼移动。研究表明，软组织运动对跑步动力学的各个方面都有影响；然而，人们对软组织运动对关节动力学的影响知之甚少。在本研究中，对于单个受试者，在反向动力学分析中使用摆动分量对软组织运动进行建模，以了解软组织对膝关节和髋关节动力学的影响。添加的摆动成分对膝关节动力学影响不大，但对髋关节动力学影响很大。特别是，与有摆动部件的模型相比，用没有摆动部件的模式计算时，髋关节功率以及髋关节处的净负和净正机械功被大大低估。例如，对于低频摆动条件，与刚体模型相比，当考虑摆动质量进行计算时，髋关节力矩峰值的大小大50%，而对于高频摆动条件，峰值在15%以内。本研究表明，在跑步逆动力学分析中，不应忽视软组织运动。

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The Effects of Wobbling Mass Components on Joint Dynamics During Running.

Soft tissue moves relative to the underlying bone during locomotion. Research has shown that soft tissue motion has an effect on aspects of the dynamics of running; however, little is known about the effects of soft tissue motion on the joint kinetics. In the present study, for a single subject, soft tissue motion was modeled using wobbling components in an inverse dynamics analysis to access the effects of the soft tissue on joint kinetics at the knee and hip. The added wobbling components had little effect on the knee joint kinetics, but large effects on the hip joint kinetics. In particular, the hip joint power and net negative and net positive mechanical work at the hip was greatly underestimated when calculated with the model without wobbling components compared with that of the model with wobbling components. For example, for low-frequency wobbling conditions, the magnitude of the peak hip joint moments were 50% greater when computed accounting the wobbling masses compared with a rigid body model, while for high-frequency wobbling conditions, the peaks were within 15%. The present study suggests that soft tissue motion should not be ignored during inverse dynamics analyses of running.

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来源期刊

Journal of Applied Biomechanics 医学-工程：生物医学

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The mission of the Journal of Applied Biomechanics (JAB) is to disseminate the highest quality peer-reviewed studies that utilize biomechanical strategies to advance the study of human movement. Areas of interest include clinical biomechanics, gait and posture mechanics, musculoskeletal and neuromuscular biomechanics, sport mechanics, and biomechanical modeling. Studies of sport performance that explicitly generalize to broader activities, contribute substantially to fundamental understanding of human motion, or are in a sport that enjoys wide participation, are welcome. Also within the scope of JAB are studies using biomechanical strategies to investigate the structure, control, function, and state (health and disease) of animals.