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PUBMED FOR HANDHELDS

Journal Abstract Search


191 related items for PubMed ID: 20852420

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  • 5. Upper and lower extremity robotic devices for rehabilitation and for studying motor control.
    Hesse S, Schmidt H, Werner C, Bardeleben A.
    Curr Opin Neurol; 2003 Dec; 16(6):705-10. PubMed ID: 14624080
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  • 6. Robotic training and kinematic analysis of arm and hand after incomplete spinal cord injury: a case study.
    Kadivar Z, Sullivan JL, Eng DP, Pehlivan AU, O'Malley MK, Yozbatiran N, Francisco GE.
    IEEE Int Conf Rehabil Robot; 2011 Dec; 2011():5975429. PubMed ID: 22275630
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  • 8. Robot-assisted and computer-enhanced therapies for children with cerebral palsy: current state and clinical implementation.
    Meyer-Heim A, van Hedel HJ.
    Semin Pediatr Neurol; 2013 Jun; 20(2):139-45. PubMed ID: 23948688
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  • 9. Non-contact versus contact-based sensing methodologies for in-home upper arm robotic rehabilitation.
    Howard A, Brooks D, Brown E, Gebregiorgis A, Chen YP.
    IEEE Int Conf Rehabil Robot; 2013 Jun; 2013():6650487. PubMed ID: 24187304
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  • 14. Post-stroke robotic training of the upper limb in the early rehabilitation phase.
    Masiero S, Rosati G, Valarini S, Rossi A.
    Funct Neurol; 2009 Jun; 24(4):203-6. PubMed ID: 20412726
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  • 17. Potential for new technologies in clinical practice.
    Burridge JH, Hughes AM.
    Curr Opin Neurol; 2010 Dec; 23(6):671-7. PubMed ID: 20962639
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  • 18. Evidence-based therapies for upper extremity dysfunction.
    Liepert J.
    Curr Opin Neurol; 2010 Dec; 23(6):678-82. PubMed ID: 20852418
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  • 19. Beyond therapists: Technology-aided physical MS rehabilitation delivery.
    Feys P, Straudi S.
    Mult Scler; 2019 Sep; 25(10):1387-1393. PubMed ID: 31469352
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