Dynamics analysis of knee joint during sit-stand movement_Journal of Biomedical Engineering

Authors：

SU Peng ¹ , WANG Sikai ¹ , ZHANG Li ² , LIU Tian ¹ , YUE Chao ¹ ,  ZHANG Qinjian ¹

1. School of Electromechanical Engineering, Beijing Information Science and Technology University, Beijing 100192, P. R. China;
2. Rehabilitation Hospital, National Research Center for Rehabilitation Technical Aids, Beijing 100176, P. R. China;

Corresponding author：

ZHANG Qinjian, Email: zhangqinjian@bistu.edu.cn

Keywords：

Joint torque; Ground reaction force; Sitting and standing movement; Dynamic model; Motion capture

DOI：

10.7507/1001-5515.202203021

Video：

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Sit-stand movement is one of the most common movement behaviors of the human body. The knee joint is the main bearing joint of this movement. Thus, the dynamic analysis of knee joint during this movement has deeply positive influences. According to the principle of moment balance, the dynamics of the knee joint during the movement were analyzed. Furthermore, combined with the data obtained from optical motion capture and six-dimensional ground reaction force test, the curve of knee joint torque was calculated. To verify the accuracy of the analysis of dynamic, the human body model was established, the polynomial equations of angle and angular velocity were fitted according to the experimental data, and the knee joint simulation of the movement was carried out. The result revealed that in terms of range and trend, the theoretical data and simulation data were consistent. The relationship between knee joint torque and ground reaction force was revealed based on the variation law of knee joint torque. During the sit-stand movement, the knee joint torque and the ground reaction force were directly proportional to each other, and the ratio was 5 to 6. In the standing process, the acceleration first increased and then decreased and finally increased in reverse, and the maximum knee torque occurred at an angle of about 140°. In the sitting process, the torque was maximized in the initial stage. The results of the dynamics analysis of knee joint during sit-stand movement are beneficial to the optimal design and force feedback control of seated rehabilitation aids, and can provide theoretical guidance for knee rehabilitation training.

Citation： SU Peng, WANG Sikai, ZHANG Li, LIU Tian, YUE Chao, ZHANG Qinjian. Dynamics analysis of knee joint during sit-stand movement. Journal of Biomedical Engineering, 2022, 39(5): 982-990. doi: 10.7507/1001-5515.202203021 Copy

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16.	吴涛, 刘放, 庞振华, 等. 人机携行外骨骼系统行走过程动力学分析. 科学技术与工程, 2021, 21(16): 6690-6694.
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23.	张勤良, 周旭, 倪朝民. 性别对正常人坐站转移过程髋关节运动学参数及足底压力的影响. 中国康复医学杂志, 2012, 27(4): 320-323.
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25.	王亚静. 基于动捕与足压测试的人体膝关节运动生物力学研究. 西安: 西安理工大学, 2020.
26.	胡声宇. 运动解剖学. 北京: 人民体育出版社, 2000.
27.	洪友廉, 叶莱. 关于人体重心资料的综述和研究. 北京体育大学学报, 1982(3): 37-45.
28.	张晶, 梁瑛琳. 膝关节人工置换术后的康复护理. 实用护理杂志, 2000, 16(1): 30-31.
29.	戴闽, 艾江波, 帅浪,等. 胫骨平台骨折术后膝关节功能的康复治疗. 中国矫形外科杂志, 2010(12): 973-975.
30.	姜俪凡, 冯艺, 安海燕. 人工全膝关节置换术康复锻炼期镇痛方式对关节功能恢复的影响. 中国疼痛医学杂志, 2014(2): 90-94.

1. Ottaviano E, Castelli G. A procedure for experimental evaluation of the sit-to-stand for the design of assisting devices // Viadero F, Ceccarelli M. New Trends in Mechanism and Machine Science. Mechanisms and Machine Science. Dordrecht: Springer, 2013, 7: 487-495.
2. Dall P M, Kerr A. Frequency of the sit to stand task: An observational study of free-living adults. Appl Ergon, 2010, 41(1): 58-61.
3. Wheeler J, Woodward C, Ucovich R L, et al. Rising from a chair: Influence of age and chair design. Phys Ther, 1985, 65(1): 22-26.
4. 陈峰. 可穿戴型助力机器人技术研究. 合肥: 中国科学技术大学, 2007.
5. 牛雪飞, 许建文, 李敏, 等. 智能运动训练对全膝关节置换术后关节功能恢复的影响. 广西医科大学学报, 2018, 35(12): 1696-1698.
6. 李海岩, 顾玉龙, 阮世捷, 等. 人体膝关节有限元动力学分析模型的建立与验证. 生物医学工程学杂志, 2012, 29(1): 97-101.
7. 国家统计局国务院第七次全国人口普查领导小组办公室. 第七次全国人口普查公报(第五号)(2021-05-11) [2021-05-11]. http: //www.stats.gov.cn/ztjc/zdtjgz/zgrkpc/dqcrkpc/ggl/202105/t20210519_1817698.html.
8. 吴毅, 胡永善, 李放, 等. 骨关节炎的功能评定与康复治疗. 中国康复医学杂志, 2002, 17(6): 361-363.
9. 林锦洪, 李敏健, 许智源, 等. 社区 45 岁以上人群退行性膝关节病流行病学调查. 中华风湿病学杂志, 2005, 9(12): 718-720.
10. 颜贻站, 曾云记, 谢作完, 等. 农村 50 岁以上 5016 人退行性膝关节病流行病学调查. 浙江中西医结合杂志, 2007, 17(7): 422.
11. Baker K. An update on exercise therapy for knee osteoarthritis. Nutr Clin Pract, 2010, 3(4): 216-224.
12. 宋爱晶, 廖庆丰, 李晓芳, 等. 一种用于膝关节生物力学研究的屈曲运动加载系统. 生物医学工程学杂志, 2012, 29(4): 710-715.
13. 郝智秀, 冷慧杰, 曲传咏, 等. 骨与膝关节生物力学行为研究. 固体力学学报, 2010, 31(6): 603-612.
14. 张梦诗, 陈隽, 彭怡欣, 等. 基于动作捕捉与刚体动力学的步行荷载重构与仿真. 应用基础与工程科学学报, 2013, 21(5): 961-972.
15. 李兆波, 陶庆, 康金胜, 等. 基于动作捕捉技术的人体上肢运动舒适性评价. 工程设计学报, 2018, 25(3): 338-345.
16. 吴涛, 刘放, 庞振华, 等. 人机携行外骨骼系统行走过程动力学分析. 科学技术与工程, 2021, 21(16): 6690-6694.
17. Hardt D E, Mann R W. A five body—three dimensional dynamic analysis of walking. J Biomech, 1980, 13(5): 455-457.
18. Koopman B, Grootenboer H J, Jongh H. An inverse dynamics model for the analysis, reconstruction and prediction of bipedal walking. J Biomech, 1995, 28(11): 1369-1376.
19. Bobbert M F, Schamhardt H C, Nigg B M. Calculation of vertical ground reaction force estimates during running from positional data. J Biomech, 1991, 24(12): 1095-1105.
20. Ren L, Jones R K, Howard D. Whole body inverse dynamics over a complete gait cycle based only on measured kinematics. J Biomech, 2008, 41(12): 2750-2759.
21. Moudy S C, Tillin N A, Sibley A R, et al. Foot strike alters ground reaction force and knee load when stepping down during ongoing walking. Gait Posture, 2020, 76: 327-333.
22. 贾晓红, 张明, 樊瑜波, 等. 小腿截肢患者不同路况下膝关节动态载荷研究. 生物医学工程学杂志, 2005, 22(2): 221-224.
23. 张勤良, 周旭, 倪朝民. 性别对正常人坐站转移过程髋关节运动学参数及足底压力的影响. 中国康复医学杂志, 2012, 27(4): 320-323.
24. 张莹莹. 基于足底压力的外骨骼康复训练模型的研究. 北京: 中国科学院大学, 2018.
25. 王亚静. 基于动捕与足压测试的人体膝关节运动生物力学研究. 西安: 西安理工大学, 2020.
26. 胡声宇. 运动解剖学. 北京: 人民体育出版社, 2000.
27. 洪友廉, 叶莱. 关于人体重心资料的综述和研究. 北京体育大学学报, 1982(3): 37-45.
28. 张晶, 梁瑛琳. 膝关节人工置换术后的康复护理. 实用护理杂志, 2000, 16(1): 30-31.
29. 戴闽, 艾江波, 帅浪,等. 胫骨平台骨折术后膝关节功能的康复治疗. 中国矫形外科杂志, 2010(12): 973-975.
30. 姜俪凡, 冯艺, 安海燕. 人工全膝关节置换术康复锻炼期镇痛方式对关节功能恢复的影响. 中国疼痛医学杂志, 2014(2): 90-94.

Journal of Biomedical Engineering

Dynamics analysis of knee joint during sit-stand movement

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