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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

308 related items for PubMed ID: 20171638

  • 21. Contributions of the individual ankle plantar flexors to support, forward progression and swing initiation during walking.
    Neptune RR, Kautz SA, Zajac FE.
    J Biomech; 2001 Nov; 34(11):1387-98. PubMed ID: 11672713
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  • 22. Improving the Energy Cost of Incline Walking and Stair Ascent With Ankle Exoskeleton Assistance in Cerebral Palsy.
    Fang Y, Orekhov G, Lerner ZF.
    IEEE Trans Biomed Eng; 2022 Jul; 69(7):2143-2152. PubMed ID: 34941495
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  • 23. Biomechanics and energetics of walking in powered ankle exoskeletons using myoelectric control versus mechanically intrinsic control.
    Koller JR, Remy CD, Ferris DP.
    J Neuroeng Rehabil; 2018 May 25; 15(1):42. PubMed ID: 29801451
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  • 24. Adaptive control for backward quadrupedal walking VI. metatarsophalangeal joint dynamics and motor patterns of digit muscles.
    Trank TV, Smith JL.
    J Neurophysiol; 1996 Feb 25; 75(2):678-9. PubMed ID: 8714644
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  • 25. Adaptation to walking with an exoskeleton that assists ankle extension.
    Galle S, Malcolm P, Derave W, De Clercq D.
    Gait Posture; 2013 Jul 25; 38(3):495-9. PubMed ID: 23465319
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  • 26. Comparing the effectiveness of robotic plantarflexion resistance and biofeedback between overground and treadmill walking.
    Bowersock CD, Lerner ZF.
    J Biomech; 2024 Oct 25; 175():112282. PubMed ID: 39182263
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  • 27. Mechanisms contributing to different joint moments observed during human walking.
    Simonsen EB, Dyhre-Poulsen P, Voigt M, Aagaard P, Fallentin N.
    Scand J Med Sci Sports; 1997 Feb 25; 7(1):1-13. PubMed ID: 9089898
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  • 28. Invariant hip moment pattern while walking with a robotic hip exoskeleton.
    Lewis CL, Ferris DP.
    J Biomech; 2011 Mar 15; 44(5):789-93. PubMed ID: 21333995
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  • 29. Reduced plantar cutaneous sensation modifies gait dynamics, lower-limb kinematics and muscle activity during walking.
    Höhne A, Ali S, Stark C, Brüggemann GP.
    Eur J Appl Physiol; 2012 Nov 15; 112(11):3829-38. PubMed ID: 22391682
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  • 32. Muscle, reflex and central components in the control of the ankle joint in healthy and spastic man.
    Sinkjaer T.
    Acta Neurol Scand Suppl; 1997 Nov 15; 170():1-28. PubMed ID: 9406617
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  • 33. A neuromechanics-based powered ankle exoskeleton to assist walking post-stroke: a feasibility study.
    Takahashi KZ, Lewek MD, Sawicki GS.
    J Neuroeng Rehabil; 2015 Feb 25; 12():23. PubMed ID: 25889283
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  • 34. Gait variability and motor control in people with knee osteoarthritis.
    Alkjaer T, Raffalt PC, Dalsgaard H, Simonsen EB, Petersen NC, Bliddal H, Henriksen M.
    Gait Posture; 2015 Oct 25; 42(4):479-84. PubMed ID: 26282046
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  • 35. Simulating the effect of ankle plantarflexion and inversion-eversion exoskeleton torques on center of mass kinematics during walking.
    Bianco NA, Collins SH, Liu K, Delp SL.
    PLoS Comput Biol; 2023 Aug 25; 19(8):e1010712. PubMed ID: 37549183
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  • 36. Medial gastrocnemius myoelectric control of a robotic ankle exoskeleton.
    Kinnaird CR, Ferris DP.
    IEEE Trans Neural Syst Rehabil Eng; 2009 Feb 25; 17(1):31-7. PubMed ID: 19211321
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