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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

264 related items for PubMed ID: 16328304

  • 1. Adaptation to unilateral change in lower limb mechanical properties during human walking.
    Noble JW, Prentice SD.
    Exp Brain Res; 2006 Mar; 169(4):482-95. PubMed ID: 16328304
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  • 2. Contributions to the understanding of gait control.
    Simonsen EB.
    Dan Med J; 2014 Apr; 61(4):B4823. PubMed ID: 24814597
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  • 3. Impact of altered lower limb proprioception produced by tendon vibration on adaptation to split-belt treadmill walking.
    Layne CS, Chelette AM, Pourmoghaddam A.
    Somatosens Mot Res; 2015 Apr; 32(1):31-8. PubMed ID: 25162146
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  • 5. Influence of the amount of body weight support on lower limb joints' kinematics during treadmill walking at different gait speeds: Reference data on healthy adults to define trajectories for robot assistance.
    Ferrarin M, Rabuffetti M, Geda E, Sirolli S, Marzegan A, Bruno V, Sacco K.
    Proc Inst Mech Eng H; 2018 Jun; 232(6):619-627. PubMed ID: 29890931
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  • 6. Changes in intersegmental dynamics over time due to increased leg inertia.
    Smith JD, Villa S, Heise GD.
    Hum Mov Sci; 2013 Dec; 32(6):1443-55. PubMed ID: 24080448
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  • 7. Characterization of speed adaptation while walking on an omnidirectional treadmill.
    Soni S, Lamontagne A.
    J Neuroeng Rehabil; 2020 Nov 23; 17(1):153. PubMed ID: 33228761
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  • 8. Functional roles of lower-limb joint moments while walking in water.
    Miyoshi T, Shirota T, Yamamoto S, Nakazawa K, Akai M.
    Clin Biomech (Bristol); 2005 Feb 23; 20(2):194-201. PubMed ID: 15621325
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  • 9. Effect of walking on sand on gait kinematics in individuals with multiple sclerosis.
    van den Berg MEL, Barr CJ, McLoughlin JV, Crotty M.
    Mult Scler Relat Disord; 2017 Aug 23; 16():15-21. PubMed ID: 28755679
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  • 14. Compensations in lower limb joint work during walking in response to unilateral calf muscle weakness.
    Waterval NFJ, Brehm MA, Ploeger HE, Nollet F, Harlaar J.
    Gait Posture; 2018 Oct 23; 66():38-44. PubMed ID: 30145473
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  • 15. The influence of energy storage and return foot stiffness on walking mechanics and muscle activity in below-knee amputees.
    Fey NP, Klute GK, Neptune RR.
    Clin Biomech (Bristol); 2011 Dec 23; 26(10):1025-32. PubMed ID: 21777999
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  • 16. Altering attention to split-belt walking increases the generalization of motor memories across walking contexts.
    Mariscal DM, Iturralde PA, Torres-Oviedo G.
    J Neurophysiol; 2020 May 01; 123(5):1838-1848. PubMed ID: 32233897
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  • 17. Longitudinal kinematic and kinetic adaptations to obstacle crossing in recent lower limb amputees.
    Barnett CT, Polman RC, Vanicek N.
    Prosthet Orthot Int; 2014 Dec 01; 38(6):437-46. PubMed ID: 24150931
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  • 18. Gait parameters associated with responsiveness to treadmill training with body-weight support after stroke: an exploratory study.
    Mulroy SJ, Klassen T, Gronley JK, Eberly VJ, Brown DA, Sullivan KJ.
    Phys Ther; 2010 Feb 01; 90(2):209-23. PubMed ID: 20022996
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  • 19. Manipulating post-stroke gait: Exploiting aberrant kinematics.
    Reissman ME, Gordon KE, Dhaher YY.
    J Biomech; 2018 Jan 23; 67():129-136. PubMed ID: 29248191
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  • 20. Visual guidance of landing behaviour when stepping down to a new level.
    Buckley JG, MacLellan MJ, Tucker MW, Scally AJ, Bennett SJ.
    Exp Brain Res; 2008 Jan 23; 184(2):223-32. PubMed ID: 17726604
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