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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

286 related items for PubMed ID: 27230534

  • 21. Mechanical efficiency during hand-rim wheelchair propulsion: effects of base-line subtraction and power output.
    Hintzy F, Tordi N.
    Clin Biomech (Bristol); 2004 May; 19(4):343-9. PubMed ID: 15109753
    [Abstract] [Full Text] [Related]

  • 22. Effects of Daily Physical Activity Level on Manual Wheelchair Propulsion Technique in Full-Time Manual Wheelchair Users During Steady-State Treadmill Propulsion.
    Dysterheft J, Rice I, Learmonth Y, Kinnett-Hopkins D, Motl R.
    Arch Phys Med Rehabil; 2017 Jul; 98(7):1374-1381. PubMed ID: 28161318
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  • 23. The Influence of Glove Type on Simulated Wheelchair Racing Propulsion: A Pilot Study.
    Rice I, Dysterheft J, Bleakney AW, Cooper RA.
    Int J Sports Med; 2016 Jan; 37(1):30-5. PubMed ID: 26509373
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  • 24. Effect of power-assisted hand-rim wheelchair propulsion on shoulder load in experienced wheelchair users: A pilot study with an instrumented wheelchair.
    Kloosterman MG, Buurke JH, de Vries W, Van der Woude LH, Rietman JS.
    Med Eng Phys; 2015 Oct; 37(10):961-8. PubMed ID: 26307457
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  • 25. Within-cycle characteristics of the wheelchair push in sprinting on a wheelchair ergometer.
    Veeger HE, van der Woude LH, Rozendal RH.
    Med Sci Sports Exerc; 1991 Feb; 23(2):264-71. PubMed ID: 2017025
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  • 26. Initial Maximum Push-Rim Propulsion and Sprint Performance in Elite Wheelchair Rugby Players.
    García-Fresneda A, Carmona G, Padullés X, Nuell S, Padullés JM, Cadefau JA, Iturricastillo A.
    J Strength Cond Res; 2019 Mar; 33(3):857-865. PubMed ID: 30640300
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  • 27. Effect of workload setting on propulsion technique in handrim wheelchair propulsion.
    van Drongelen S, Arnet U, Veeger DH, van der Woude LH.
    Med Eng Phys; 2013 Mar; 35(3):283-8. PubMed ID: 22910103
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  • 28. Effectiveness of force application in manual wheelchair propulsion in persons with spinal cord injuries.
    Dallmeijer AJ, van der Woude LH, Veeger HE, Hollander AP.
    Am J Phys Med Rehabil; 1998 Mar; 77(3):213-21. PubMed ID: 9635556
    [Abstract] [Full Text] [Related]

  • 29. A computerized wheelchair ergometer. Results of a comparison study.
    Veeger HE, van der Woude LH, Rozendal RH.
    Scand J Rehabil Med; 1992 Mar; 24(1):17-23. PubMed ID: 1604258
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  • 30. A novel push-pull central-lever mechanism reduces peak forces and energy-cost compared to hand-rim wheelchair propulsion during a controlled lab-based experiment.
    le Rütte TA, Trigo F, Bessems L, van der Woude LHV, Vegter RJK.
    J Neuroeng Rehabil; 2022 Mar 18; 19(1):30. PubMed ID: 35300710
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  • 32. Wheelchair propulsion biomechanics: implications for wheelchair sports.
    Vanlandewijck Y, Theisen D, Daly D.
    Sports Med; 2001 Mar 18; 31(5):339-67. PubMed ID: 11347685
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  • 34. Comparison of muscle activity during hand rim and lever wheelchair propulsion over flat terrain.
    Błażkiewicz M, Wiszomirska I, Fiok K, Mróz A, Kosmol A, Mikicin M, Molik B, Marszałek J.
    Acta Bioeng Biomech; 2019 Mar 18; 21(3):67-74. PubMed ID: 31798014
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  • 36. The effect of tennis racket string vibration dampers on racket handle vibrations and discomfort following impacts.
    Stroede CL, Noble L, Walker HS.
    J Sports Sci; 1999 May 18; 17(5):379-85. PubMed ID: 10413265
    [Abstract] [Full Text] [Related]

  • 37. Kinematics and kinetics of the racket-arm during the soft-tennis smash under match conditions.
    Ida H, Kusubori S, Ishii M.
    J Appl Biomech; 2005 Nov 18; 21(4):334-47. PubMed ID: 16498179
    [Abstract] [Full Text] [Related]

  • 38. Consequences of a cross slope on wheelchair handrim biomechanics.
    Richter WM, Rodriguez R, Woods KR, Axelson PW.
    Arch Phys Med Rehabil; 2007 Jan 18; 88(1):76-80. PubMed ID: 17207679
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