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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

535 related items for PubMed ID: 30074095

  • 1. Development of a powered variable-stiffness exoskeleton device for elbow rehabilitation.
    Liu Y, Guo S, Hirata H, Ishihara H, Tamiya T.
    Biomed Microdevices; 2018 Aug 03; 20(3):64. PubMed ID: 30074095
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  • 2. Pilot Study of a Powered Exoskeleton for Upper Limb Rehabilitation Based on the Wheelchair.
    Meng Q, Xie Q, Shao H, Cao W, Wang F, Wang L, Yu H, Li S.
    Biomed Res Int; 2019 Aug 03; 2019():9627438. PubMed ID: 31976331
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  • 3. A mechanism for elbow exoskeleton for customised training.
    Manna SK, Dubey VN.
    IEEE Int Conf Rehabil Robot; 2017 Jul 03; 2017():1597-1602. PubMed ID: 28814048
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  • 4. Series elastic actuation of an elbow rehabilitation exoskeleton with axis misalignment adaptation.
    Wu KY, Su YY, Yu YL, Lin KY, Lan CC.
    IEEE Int Conf Rehabil Robot; 2017 Jul 03; 2017():567-572. PubMed ID: 28813880
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  • 5. Design and kinematical performance analysis of the 7-DOF upper-limb exoskeleton toward improving human-robot interface in active and passive movement training.
    Meng Q, Fei C, Jiao Z, Xie Q, Dai Y, Fan Y, Shen Z, Yu H.
    Technol Health Care; 2022 Jul 03; 30(5):1167-1182. PubMed ID: 35342067
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  • 6. Design and kinematic analysis of a novel upper limb exoskeleton for rehabilitation of stroke patients.
    Zeiaee A, Soltani-Zarrin R, Langari R, Tafreshi R.
    IEEE Int Conf Rehabil Robot; 2017 Jul 03; 2017():759-764. PubMed ID: 28813911
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  • 8. A Neuromuscular Electrical Stimulation (NMES) and robot hybrid system for multi-joint coordinated upper limb rehabilitation after stroke.
    Rong W, Li W, Pang M, Hu J, Wei X, Yang B, Wai H, Zheng X, Hu X.
    J Neuroeng Rehabil; 2017 Apr 26; 14(1):34. PubMed ID: 28446181
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  • 9. Characterization and wearability evaluation of a fully portable wrist exoskeleton for unsupervised training after stroke.
    Lambelet C, Temiraliuly D, Siegenthaler M, Wirth M, Woolley DG, Lambercy O, Gassert R, Wenderoth N.
    J Neuroeng Rehabil; 2020 Oct 07; 17(1):132. PubMed ID: 33028354
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  • 10. Design and control of system for elbow rehabilitation: Preliminary findings.
    Mikołajczyk T, Kłodowski A, Mikołajewska E, Walkowiak P, Berjano P, Villafañe JH, Aggogeri F, Borboni A, Fausti D, Petrogalli G.
    Adv Clin Exp Med; 2018 Dec 07; 27(12):1661-1669. PubMed ID: 30311751
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  • 16. Pilot testing of the spring operated wearable enhancer for arm rehabilitation (SpringWear).
    Chen J, Lum PS.
    J Neuroeng Rehabil; 2018 Mar 02; 15(1):13. PubMed ID: 29499712
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  • 17. Self-powered robots to reduce motor slacking during upper-extremity rehabilitation: a proof of concept study.
    Washabaugh EP, Treadway E, Gillespie RB, Remy CD, Krishnan C.
    Restor Neurol Neurosci; 2018 Mar 02; 36(6):693-708. PubMed ID: 30400120
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  • 18. Modeling and design of a tendon actuated soft robotic exoskeleton for hemiparetic upper limb rehabilitation.
    Nycz CJ, Delph MA, Fischer GS.
    Annu Int Conf IEEE Eng Med Biol Soc; 2015 Mar 02; 2015():3889-92. PubMed ID: 26737143
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  • 19. Human arm joints reconstruction algorithm in rehabilitation therapies assisted by end-effector robotic devices.
    Bertomeu-Motos A, Blanco A, Badesa FJ, Barios JA, Zollo L, Garcia-Aracil N.
    J Neuroeng Rehabil; 2018 Feb 20; 15(1):10. PubMed ID: 29458397
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  • 20. Preliminary assessment of a lower-limb exoskeleton controller for guiding leg movement in overground walking.
    Martinez A, Lawson B, Goldfarb M.
    IEEE Int Conf Rehabil Robot; 2017 Jul 20; 2017():375-380. PubMed ID: 28813848
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