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PUBMED FOR HANDHELDS

Journal Abstract Search


828 related items for PubMed ID: 24382580

  • 1. Three-dimensional, task-specific robot therapy of the arm after stroke: a multicentre, parallel-group randomised trial.
    Klamroth-Marganska V, Blanco J, Campen K, Curt A, Dietz V, Ettlin T, Felder M, Fellinghauer B, Guidali M, Kollmar A, Luft A, Nef T, Schuster-Amft C, Stahel W, Riener R.
    Lancet Neurol; 2014 Feb; 13(2):159-66. PubMed ID: 24382580
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  • 2. Robotic-assisted rehabilitation of the upper limb after acute stroke.
    Masiero S, Celia A, Rosati G, Armani M.
    Arch Phys Med Rehabil; 2007 Feb; 88(2):142-9. PubMed ID: 17270510
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  • 3. Vagus nerve stimulation paired with rehabilitation for upper limb motor function after ischaemic stroke (VNS-REHAB): a randomised, blinded, pivotal, device trial.
    Dawson J, Liu CY, Francisco GE, Cramer SC, Wolf SL, Dixit A, Alexander J, Ali R, Brown BL, Feng W, DeMark L, Hochberg LR, Kautz SA, Majid A, O'Dell MW, Pierce D, Prudente CN, Redgrave J, Turner DL, Engineer ND, Kimberley TJ.
    Lancet; 2021 Apr 24; 397(10284):1545-1553. PubMed ID: 33894832
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  • 4. Robot-Assisted Arm Training in Chronic Stroke: Addition of Transition-to-Task Practice.
    Conroy SS, Wittenberg GF, Krebs HI, Zhan M, Bever CT, Whitall J.
    Neurorehabil Neural Repair; 2019 Sep 24; 33(9):751-761. PubMed ID: 31328671
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  • 5. Effects of arm training with the robotic device ARMin I in chronic stroke: three single cases.
    Nef T, Quinter G, Müller R, Riener R.
    Neurodegener Dis; 2009 Sep 24; 6(5-6):240-51. PubMed ID: 19940461
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  • 6. Home-based constraint-induced movement therapy for patients with upper limb dysfunction after stroke (HOMECIMT): a cluster-randomised, controlled trial.
    Barzel A, Ketels G, Stark A, Tetzlaff B, Daubmann A, Wegscheider K, van den Bussche H, Scherer M.
    Lancet Neurol; 2015 Sep 24; 14(9):893-902. PubMed ID: 26231624
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  • 7. Clinical usefulness and validity of robotic measures of reaching movement in hemiparetic stroke patients.
    Otaka E, Otaka Y, Kasuga S, Nishimoto A, Yamazaki K, Kawakami M, Ushiba J, Liu M.
    J Neuroeng Rehabil; 2015 Aug 12; 12():66. PubMed ID: 26265327
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  • 9. A randomized controlled trial of gravity-supported, computer-enhanced arm exercise for individuals with severe hemiparesis.
    Housman SJ, Scott KM, Reinkensmeyer DJ.
    Neurorehabil Neural Repair; 2009 Jun 12; 23(5):505-14. PubMed ID: 19237734
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  • 12. Impairment-oriented training or Bobath therapy for severe arm paresis after stroke: a single-blind, multicentre randomized controlled trial.
    Platz T, Eickhof C, van Kaick S, Engel U, Pinkowski C, Kalok S, Pause M.
    Clin Rehabil; 2005 Oct 12; 19(7):714-24. PubMed ID: 16250190
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  • 13. Effects of intensive arm training with the rehabilitation robot ARMin II in chronic stroke patients: four single-cases.
    Staubli P, Nef T, Klamroth-Marganska V, Riener R.
    J Neuroeng Rehabil; 2009 Dec 17; 6():46. PubMed ID: 20017939
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  • 14. Efficacy and safety of non-immersive virtual reality exercising in stroke rehabilitation (EVREST): a randomised, multicentre, single-blind, controlled trial.
    Saposnik G, Cohen LG, Mamdani M, Pooyania S, Ploughman M, Cheung D, Shaw J, Hall J, Nord P, Dukelow S, Nilanont Y, De Los Rios F, Olmos L, Levin M, Teasell R, Cohen A, Thorpe K, Laupacis A, Bayley M, Stroke Outcomes Research Canada.
    Lancet Neurol; 2016 Sep 17; 15(10):1019-27. PubMed ID: 27365261
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  • 15. Reaching exercise for chronic paretic upper extremity after stroke using a novel rehabilitation robot with arm-weight support and concomitant electrical stimulation and vibration: before-and-after feasibility trial.
    Amano Y, Noma T, Etoh S, Miyata R, Kawamura K, Shimodozono M.
    Biomed Eng Online; 2020 May 06; 19(1):28. PubMed ID: 32375788
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  • 19. Exoskeleton-Assisted Anthropomorphic Movement Training for the Upper Limb After Stroke: The EAMT Randomized Trial.
    Chen ZJ, He C, Xu J, Zheng CJ, Wu J, Xia N, Hua Q, Xia WG, Xiong CH, Huang XL.
    Stroke; 2023 Jun 06; 54(6):1464-1473. PubMed ID: 37154059
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