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Journal Abstract Search

518 related items for PubMed ID: 16430369

  • 21. Diffusion tensor imaging at 3 hours after traumatic spinal cord injury predicts long-term locomotor recovery.
    Kim JH, Loy DN, Wang Q, Budde MD, Schmidt RE, Trinkaus K, Song SK.
    J Neurotrauma; 2010 Mar; 27(3):587-98. PubMed ID: 20001686
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  • 22. Ipsilesional Motor Cortex Plasticity Participates in Spontaneous Hindlimb Recovery after Lateral Hemisection of the Thoracic Spinal Cord in the Rat.
    Brown AR, Martinez M.
    J Neurosci; 2018 Nov 14; 38(46):9977-9988. PubMed ID: 30301755
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  • 23. Rapid functional recovery after spinal cord injury in young rats.
    Brown KM, Wolfe BB, Wrathall JR.
    J Neurotrauma; 2005 May 14; 22(5):559-74. PubMed ID: 15892601
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  • 26. Skeletal muscle adaptations following spinal cord contusion injury in rat and the relationship to locomotor function: a time course study.
    Hutchinson KJ, Linderman JK, Basso DM.
    J Neurotrauma; 2001 Oct 14; 18(10):1075-89. PubMed ID: 11686494
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  • 30. Back seat driving: hindlimb corticospinal neurons assume forelimb control following ischaemic stroke.
    Starkey ML, Bleul C, Zörner B, Lindau NT, Mueggler T, Rudin M, Schwab ME.
    Brain; 2012 Nov 14; 135(Pt 11):3265-81. PubMed ID: 23169918
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  • 33. Electromyographic activity associated with spontaneous functional recovery after spinal cord injury in rats.
    Kaegi S, Schwab ME, Dietz V, Fouad K.
    Eur J Neurosci; 2002 Jul 14; 16(2):249-58. PubMed ID: 12169107
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  • 36. Transplantation of porous tubes following spinal cord transection improves hindlimb function in the rat.
    Reynolds LF, Bren MC, Wilson BC, Gibson GD, Shoichet MS, Murphy RJ.
    Spinal Cord; 2008 Jan 14; 46(1):58-64. PubMed ID: 17420773
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  • 38. Nicotine attenuates morphological deficits in a contusion model of spinal cord injury.
    Ravikumar R, Fugaccia I, Scheff SW, Geddes JW, Srinivasan C, Toborek M.
    J Neurotrauma; 2005 Feb 14; 22(2):240-51. PubMed ID: 15716630
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