Robotic Gait Therapy

被引:0
|
作者
Vareka, I. [1 ,2 ]
Bednar, M. [1 ]
Varekova, R. [3 ]
机构
[1] LF UK & FN Hradec Kralove, Rehabil Klin, Nezvalova 265, Hradec Kralove 50003, Czech Republic
[2] FTK UP Olomouci, Katedra Fyzioterapie, Olomouc, Czech Republic
[3] FTK UP Olomouci, Katedra Prirodnich Kinantropol, Olomouc, Czech Republic
来源
CESKA A SLOVENSKA NEUROLOGIE A NEUROCHIRURGIE | 2016年 / 79卷 / 02期
关键词
robotics; central pattern generators; plasticity; motor learning; BODY-WEIGHT SUPPORT; SPINAL-CORD-INJURY; NEURAL-CONTROL; LOCOMOTION; STROKE; WALKING; PLASTICITY;
D O I
暂无
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Robotic gait therapy, one of advanced rehabilitation technologies, originally evolved as a modification of the body weight-supported treadmill therapy. At present, a range of various systems based on different principles is available, including mobile assistive exoskeletons. Neurophysiological essence of this therapy is based on the spinal cord autonomy (central pattern generators), plasticity of the central nervous system and motor learning. With respect to the evidence-based medicine, benefits of this therapy are still unclear; unambiguously positive is the reduced physical burden on a therapist. Indications must, therefore, be based on a rational consideration.
引用
收藏
页码:168 / 172
页数:5
相关论文
共 50 条
  • [1] Robotic assisted treadmill therapy for children with a central gait impairment
    Borggraefe, I.
    Kumar, A.
    Schaefer, J.-S.
    Berweck, S.
    Meyer-Heim, A.
    Hufschmidt, A.
    Heinen, F.
    MONATSSCHRIFT KINDERHEILKUNDE, 2007, 155 (06) : 529 - 534
  • [2] KineAssist:: Design and development of a robotic overground gait and balance therapy device
    Patton, James
    Brown, David A.
    Peshkin, Michael
    Santos-Munne, Julio J.
    Makhlin, Alex
    Lewis, Ela
    Colgate, J. Edward
    Schwandt, Doug
    TOPICS IN STROKE REHABILITATION, 2008, 15 (02) : 131 - 139
  • [3] Effect of a robotic restraint gait training versus robotic conventional gait training on gait parameters in stroke patients
    Bonnyaud, Celine
    Zory, Raphael
    Boudarham, Julien
    Pradon, Didier
    Bensmail, Djamel
    Roche, Nicolas
    EXPERIMENTAL BRAIN RESEARCH, 2014, 232 (01) : 31 - 42
  • [4] Effect of a robotic restraint gait training versus robotic conventional gait training on gait parameters in stroke patients
    Céline Bonnyaud
    Raphael Zory
    Julien Boudarham
    Didier Pradon
    Djamel Bensmail
    Nicolas Roche
    Experimental Brain Research, 2014, 232 : 31 - 42
  • [5] Force measurement during gait therapy assisted by a robotic treadmill -: The case of Lokomat®
    Bocciolone, M.
    Lurati, M.
    Vanali, M.
    Molteni, F.
    BIODEVICES 2008: PROCEEDINGS OF THE FIRST INTERNATIONAL CONFERENCE ON BIOMEDICAL ELECTRONICS AND DEVICES, VOL 2, 2008, : 35 - +
  • [6] Development of Robotic System with Artificial Vision for the Evaluation of Rehabilitation in Underwater Gait Therapy
    Rodriguez-Cheu, L. E.
    Cancino, S.
    Rodriguez, M.
    Ortiz, J. G.
    2010 3RD IEEE RAS AND EMBS INTERNATIONAL CONFERENCE ON BIOMEDICAL ROBOTICS AND BIOMECHATRONICS, 2010, : 831 - 836
  • [7] Robotic assisted rehabilitation therapy for enhancing gait and motor function after stroke
    Kim, Yun-Hee
    PRECISION AND FUTURE MEDICINE, 2019, 3 (03): : 103 - 115
  • [8] Advances in Robotic Gait Training
    van der Kooij, Herman
    van Asseldonk, Edwin H. F.
    Koopman, Bram
    van Oort, Gijs
    Meuleman, Jos
    van Voort, H. Carsten
    Behrens, S. M.
    REPLACE, REPAIR, RESTORE, RELIEVE - BRIDGING CLINICAL AND ENGINEERING SOLUTIONS IN NEUROREHABILITATION, 2014, 7 : 187 - 190
  • [9] Robotic Gait Rehabilitation Trainer
    Pietrusinski, Maciej
    Cajigas, Iahn
    Severini, Giacomo
    Bonato, Paolo
    Mavroidis, Constantinos
    IEEE-ASME TRANSACTIONS ON MECHATRONICS, 2014, 19 (02) : 490 - 499
  • [10] Biofeedback for robotic gait rehabilitation
    Luenenburger, Lars
    Colombo, Gery
    Riener, Robert
    JOURNAL OF NEUROENGINEERING AND REHABILITATION, 2007, 4 (1)
12345