The Effect of Saddle-Assistive Device on Improving the Gait Parameters of Patients with the Lower Limbs Weakness:A Pilot Study

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摘要 To help walking,using assistive devices can be considered to reduce the loads caused by weight and to effectively decrease the propulsive forces.In this study,a mobility Saddle-Assistive Device(S-AD)supporting body weight while walking was evaluated on two healthy volunteers.This device is based on the support of body weight against gravity with the help of a saddle,which is not used in other passive mobility assistive devices.To prove the efficiency of this device,the experimental results obtained while walking with this device were compared with those related to walking without the assistive device.The results showed that this device could significantly reduce the forces and torque of the lower and upper limbs when walking.By distributing the load on the saddle,the vertical force and the propulsive force in the best conditions were decreased to 46.7%and were increased to 13.7%in body weight,respectively.Using a S-AD can help patients with lower limbs weakness and elderly people to walk.

作者 Akbar Hojjati Najafabadi Saeid Amini Farzam Farahmand

机构地区 Mechanical Engineering Deparment Mechanical Engineering Department Mechanical Engineering Department

出处《Journal of Bionic Engineering》 SCIE EI CSCD 2020年第6期1175-1185,共11页 仿生工程学报（英文版）

关键词 mobility assistive device lower limbs weakness body weight support force and torque gait analysis

分类号 Q81 [生物学—生物工程]

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1Benyamine Allouche,Amal Saade,Antoine Dequidt,Laurent Vermeiren,Olivier Remy-Neris.Design and Control of an Assistive Device for the Study of the Post-stroke Sit-To-Stand Movement[J].Journal of Bionic Engineering,2018,15(4):647-660. 被引量：2
2Pierluigi Rea,Erika Ottaviano.Functional Design for Customizing Sit-To-Stand Assisting Devices[J].Journal of Bionic Engineering,2018,15(1):83-93. 被引量：3
3Daniele Cafolla,Matteo Russo,Giuseppe Carbone.CUBE, a Cable-driven Device for Limb Rehabilitation[J].Journal of Bionic Engineering,2019,16(3):492-502. 被引量：8
4Lei He,Caihua Xiong,Kai Liu,Jian Huang,Chang He,Wenbin Chen.Mechatronic Design of a Synergetic Upper Limb Exoskeletal Robot and Wrench-based Assistive Control[J].Journal of Bionic Engineering,2018,15(2):247-259. 被引量：3
5Pierluigi Rea Erika Ottaviano Gianni Castelli.A Procedure for the Design of Novel Assisting Devices for the Sit-to-Stand[J].Journal of Bionic Engineering,2013,10(4):488-496. 被引量：4
6Yi Long,Zhijiang Du,Chaofeng Chen,Weidong Wang,Long He,Xiwang Mao,Guoqiang Xu,Guangyu Zhao,Xiaoqi Li,Wei Dong.Development and Analysis of an Electrically Actuated Lower Extremity Assistive Exoskeleton[J].Journal of Bionic Engineering,2017,14(2):272-283. 被引量：9

二级参考文献34

1Pasqui V, Plumet F, Saint-Bauzel L, Bidaud Ph. Design and control of rehabilitations devices. Workshop IEEE Interna- tional Conference on Robotics and Automation, Rome, Italy, 2007.
2Schenkman M, Berger R A, Riley P O, Mann R W, Hodge W A. Whole-body movements during rising to standing from sitting. Journal of Physical Therapy, 1990, 70, 638-651.
3Mourex F, Pozzo T, Rouhier-Marcer 1, Didier J P. A kine- matic comparison between elderly and young subjects standing up from and sitting down in a chair. Age andAgeing, 1998, 27, 137 -146.
4Nuzik S, Lamb R, Vansant A, Hirt S. Sit-to-Stand movement pattern a kinematic study. Physical Therapy, 1986, 66, 1708- 1713.
5Seedholm B B, Terayama K. Knee forces during the activity of getting out of a chair with and without the aid of the arms. Biomedical Engineering, 1976, 1 1,278-282.
6Cappozzo A. Minimum measured-input models for the assessment of motor ability. Journal of Biomechanics, 2002, 35, 437-446.
7Allin S, Mihailidis A. Low-cost, automated assessment of sit-to-stand movement in "natural" environments. The Pro- ceedings of 4th European Conference of the International Federation for Medical and Biological Engineering, 2009, 22, 76-79.
8Janssen W, Kulcu D G, Horemans H, Stam H J, Bussmann J. Sensitivity of accelerometry to assess balance control during sit-to-stand movement. IEEE Transactions on Neural Sys- tems and Rehabilitation Engineering, 2008, 16, 479-484.
9Yu H, Spenko M, Dubowsky S. An adaptive shared control system for an intelligent mobility aid for the elderly. Autonomous Robots, 2003, 15, 53- 66.
10GrafB, Hans M, RolfD S. Care-O-bot II development of a next generation robotic home assistant. Autonomous Robots, 2004, 16, 193- 205.

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1佀国宁,黄琬婷,李根生,徐飞,褚梦秋,刘婧芳.下肢外骨骼机器人柔顺特性的研究进展[J].生物医学工程学杂志,2019,36(1):157-163. 被引量：7
2Likun Wang,Chaofeng Chen,Wei Dong,Zhijiang Du,Yi Shen,Guangyu Zhao.Locomotion Stability Analysis of Lower Extremity Augmentation Device[J].Journal of Bionic Engineering,2019,16(1):99-114. 被引量：2
3Pierluigi Rea,Erika Ottaviano.Functional Design for Customizing Sit-To-Stand Assisting Devices[J].Journal of Bionic Engineering,2018,15(1):83-93. 被引量：3
4Benyamine Allouche,Amal Saade,Antoine Dequidt,Laurent Vermeiren,Olivier Remy-Neris.Design and Control of an Assistive Device for the Study of the Post-stroke Sit-To-Stand Movement[J].Journal of Bionic Engineering,2018,15(4):647-660. 被引量：2
5张景帅,钟佩思,刘梅,郑义,曹爱霞.搬运助力外骨骼机器人运动学建模与仿真分析[J].科学技术与工程,2020,20(8):3096-3102. 被引量：6
6张辉,薛强,王兴涛.基于膝关节支撑的人体坐立转换运动轨迹研究[J].中国康复理论与实践,2020,26(6):738-744. 被引量：2
7Ning Li,Tie Yang,Yang Yang,Peng Yu,Xiujuan Xue,Xingang Zhao,Guoli Song,Imad HElhajj,Wenxue Wang,Ning Xi,Lianqing Liu.Bioinspired Musculoskeletal Model-based Soft Wrist Exoskeleton for Stroke Rehabilitation[J].Journal of Bionic Engineering,2020,17(6):1163-1174. 被引量：1
8苏鹏,卢达,伦庆龙,李剑,徐晓钟,樊瑜波.基于运动轨迹图形拟合的辅助人体侧翻机构设计研究[J].图学学报,2020,41(6):993-1000. 被引量：1
9刘辉,陈婵娟,穆琪.基于PSO-SCE的下肢外骨骼机器人步态多目标优化[J].现代制造工程,2021(2):27-35. 被引量：1
10Elio Matteo Curcio,Giuseppe Carbone.Mechatronic Design of a Robot for Upper Limb Rehabilitation at Home[J].Journal of Bionic Engineering,2021,18(4):857-871.

1Hongzhi Wang,Emily W.Baker,Abhyuday Mandal,Ramana M.Pidaparti,Franklin D.West,Holly A.Kinder.Identification of predictive MRI and functional biomarkers in a pediatric piglet traumatic brain injury model[J].Neural Regeneration Research,2021,16(2):338-344. 被引量：4
2赵增趁,沈菲,焦冠一,李金霞,钮学琴,傅瑞阳.针刺结合下肢离心收缩训练治疗帕金森病躯体运动障碍的临床观察[J].中国现代医生,2020,58(27):106-109. 被引量：2
3AUTHOR INSTRUCTIONS[J].Hepatoma Research,2020,6(6).
4Erin E.Kaiser,J.C.Poythress,Kelly M.Scheulin,Brian J.Jurgielewicz,Nicole A.Lazar,Cheolwoo Park,Steven L.Stice,Jeongyoun Ahn,Franklin D.West.An integrative multivariate approach for predicting functional recovery using magnetic resonance imaging parameters in a translational pig ischemic stroke model[J].Neural Regeneration Research,2021,16(5):842-850.
5Song Wang,Li-Cheng Zhang,Hai-Tao Fu,Jun-Hao Deng,Gao-Xiang Xu,Tong Li,Xin-Ran Ji,Pei-Fu Tang.Epidural electrical stimulation effectively restores locomotion function in rats with complete spinal cord injury[J].Neural Regeneration Research,2021,16(3):573-579. 被引量：6
6Meiyan Zhang,Jinwei Sun,Qisong Wang,Dan Liu.Walking Rehabilitation Evaluation Based on Gait Analysis[J].Journal of Biosciences and Medicines,2020,8(6):215-223.
7Aswir B.Abd.Rashid,Zhiming Su.Long Non-coding RNA HOTAIR for Tumor Diagnosis and Pathological Staging[J].Advances in Modern Oncology Research,2019,5(1):1-5.
8Ji Zhenzhen,Hui Xue,Shi Zhifang,Xi Lei,Zhai Feile.Effects of Drinking Slightly Acidic Electrolytic Water on Growth Performance and Behavior of Broilers[J].Animal Husbandry and Feed Science,2020,12(3):25-29. 被引量：1
9Xiaona Wang,Zhenyu Zhou,Zhijian Sun,Jinho Hah,Yagang Yao,Kyoung‑Sik Moon,Jiangtao Di,Qingwen Li,Ching‑ping Wong.Atomic Modulation of 3D Conductive Frameworks Boost Performance of MnO2 for Coaxial Fiber‑Shaped Supercapacitors[J].Nano-Micro Letters,2021,13(1):44-55. 被引量：1
10Antonio GóMEZ-EXPóSITO,Xinbo RUAN.Guest Editorial:Special Section on Applications of Power Electronics in Power Systems[J].Journal of Modern Power Systems and Clean Energy,2017,5(4):495-498.

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The Effect of Saddle-Assistive Device on Improving the Gait Parameters of Patients with the Lower Limbs Weakness:A Pilot Study

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