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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

185 related items for PubMed ID: 31369366

  • 1. Ankle torque steadiness and gait speed after a single session of robot therapy in individuals with chronic hemiparesis: a pilot study.
    Silva-Couto MA, Siqueira AAG, Santos GL, Russo TL.
    Top Stroke Rehabil; 2019 Dec; 26(8):630-638. PubMed ID: 31369366
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  • 4. Intensive seated robotic training of the ankle in patients with chronic stroke differentially improves gait.
    Chang JL, Lin RY, Saul M, Koch PJ, Krebs HI, Volpe BT.
    NeuroRehabilitation; 2017 Dec; 41(1):61-68. PubMed ID: 28505988
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  • 7. Wearable robotic exoskeleton for overground gait training in sub-acute and chronic hemiparetic stroke patients: preliminary results.
    Molteni F, Gasperini G, Gaffuri M, Colombo M, Giovanzana C, Lorenzon C, Farina N, Cannaviello G, Scarano S, Proserpio D, Liberali D, Guanziroli E.
    Eur J Phys Rehabil Med; 2017 Oct; 53(5):676-684. PubMed ID: 28118698
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  • 8. Ankle training with a robotic device improves hemiparetic gait after a stroke.
    Forrester LW, Roy A, Krebs HI, Macko RF.
    Neurorehabil Neural Repair; 2011 May; 25(4):369-77. PubMed ID: 21115945
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  • 9. Recovery and compensation after robotic assisted gait training in chronic stroke survivors.
    De Luca A, Vernetti H, Capra C, Pisu I, Cassiano C, Barone L, Gaito F, Danese F, Antonio Checchia G, Lentino C, Giannoni P, Casadio M.
    Disabil Rehabil Assist Technol; 2019 Nov; 14(8):826-838. PubMed ID: 29741134
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  • 10. Increased reward in ankle robotics training enhances motor control and cortical efficiency in stroke.
    Goodman RN, Rietschel JC, Roy A, Jung BC, Diaz J, Macko RF, Forrester LW.
    J Rehabil Res Dev; 2014 Nov; 51(2):213-27. PubMed ID: 24933720
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  • 11. Task-specific ankle robotics gait training after stroke: a randomized pilot study.
    Forrester LW, Roy A, Hafer-Macko C, Krebs HI, Macko RF.
    J Neuroeng Rehabil; 2016 Jun 02; 13(1):51. PubMed ID: 27255156
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  • 13. Feasibility and efficacy of high-speed gait training with a voluntary driven exoskeleton robot for gait and balance dysfunction in patients with chronic stroke: nonrandomized pilot study with concurrent control.
    Yoshimoto T, Shimizu I, Hiroi Y, Kawaki M, Sato D, Nagasawa M.
    Int J Rehabil Res; 2015 Dec 02; 38(4):338-43. PubMed ID: 26288120
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  • 14. Abnormal volitional hip torque phasing and hip impairments in gait post stroke.
    Hyngstrom A, Onushko T, Chua M, Schmit BD.
    J Neurophysiol; 2010 Mar 02; 103(3):1557-68. PubMed ID: 20089823
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  • 16. Action observation training of community ambulation for improving walking ability of patients with post-stroke hemiparesis: a randomized controlled pilot trial.
    Park HJ, Oh DW, Choi JD, Kim JM, Kim SY, Cha YJ, Jeon SJ.
    Clin Rehabil; 2017 Aug 02; 31(8):1078-1086. PubMed ID: 27707943
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  • 17. Training for Walking Efficiency With a Wearable Hip-Assist Robot in Patients With Stroke: A Pilot Randomized Controlled Trial.
    Lee HJ, Lee SH, Seo K, Lee M, Chang WH, Choi BO, Ryu GH, Kim YH.
    Stroke; 2019 Dec 02; 50(12):3545-3552. PubMed ID: 31623545
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  • 18. Influences of the biofeedback content on robotic post-stroke gait rehabilitation: electromyographic vs joint torque biofeedback.
    Tamburella F, Moreno JC, Herrera Valenzuela DS, Pisotta I, Iosa M, Cincotti F, Mattia D, Pons JL, Molinari M.
    J Neuroeng Rehabil; 2019 Jul 23; 16(1):95. PubMed ID: 31337400
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  • 19. Surface peroneal nerve stimulation in lower limb hemiparesis: effect on quantitative gait parameters.
    Sheffler LR, Taylor PN, Bailey SN, Gunzler DD, Buurke JH, IJzerman MJ, Chae J.
    Am J Phys Med Rehabil; 2015 May 23; 94(5):341-57. PubMed ID: 25802966
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  • 20. Gait training of subacute stroke patients using a hybrid assistive limb: a pilot study.
    Mizukami M, Yoshikawa K, Kawamoto H, Sano A, Koseki K, Asakwa Y, Iwamoto K, Nagata H, Tsurushima H, Nakai K, Marushima A, Sankai Y, Matsumura A.
    Disabil Rehabil Assist Technol; 2017 Feb 23; 12(2):197-204. PubMed ID: 27017889
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