Locomotor Training After Human Spinal Cord Injury: A Series of Case Studies

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Spinal Cord Injury Special Series

Locomotor Training After Human Spinal Cord Injury: A Series of Case Studies

Andrea L Behrman and Susan J Harkema

AL Behrman, PT, PhD, is Assistant Professor, Department of Physical Therapy and University of Florida Brain Institute, University of Florida, Box 100154, Gainesville, FL 32510-0154 (USA) (abehrman{at}hp.ufl.edu). Address all correspondence to Dr Behrman
SJ Harkema, PhD, is Assistant Professor, Department of Neurology and Brain Research Institute, University of California at Los Angeles, Los Angeles, Calif

Many individuals with spinal cord injury (SCI) do not regaintheir ability to walk, even though it is a primary goal of rehabilitation.Mammals with thoracic spinal cord transection can relearn tostep with their hind limbs on a treadmill when trained withsensory input associated with stepping. If humans have similarneural mechanisms for locomotion, then providing comparabletraining may promote locomotor recovery after SCI. We used locomotortraining designed to provide sensory information associatedwith locomotion to improve stepping and walking in adults afterSCI. Four adults with SCIs, with a mean postinjury time of 6months, received locomotor training. Based on the American SpinalInjury Association (ASIA) Impairment Scale and neurologicalclassification standards, subject 1 had a T5 injury classifiedas ASIA A, subject 2 had a T5 injury classified as ASIA C, subject3 had a C6 injury classified as ASIA D, and subject 4 had aT9 injury classified as ASIA D. All subjects improved theirstepping on a treadmill. One subject achieved overground walking,and 2 subjects improved their overground walking. Locomotortraining using the response of the human spinal cord to sensoryinformation related to locomotion may improve the potentialrecovery of walking after SCI.

Key Words: Locomotion • Recovery • Spinal cord injury

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				T. G. Hornby, D. D. Campbell, J. H. Kahn, T. Demott, J. L. Moore, and H. R. Roth Enhanced Gait-Related Improvements After Therapist- Versus Robotic-Assisted Locomotor Training in Subjects With Chronic Stroke: A Randomized Controlled Study Stroke, June 1, 2008; 39(6): 1786 - 1792. [Abstract] [Full Text] [PDF]

				A. L Behrman, P. M Nair, M. G Bowden, R. C Dauser, B. R Herget, J. B Martin, C. P Phadke, P. J Reier, C. R Senesac, F. J Thompson, et al. Locomotor Training Restores Walking in a Nonambulatory Child With Chronic, Severe, Incomplete Cervical Spinal Cord Injury Physical Therapy, May 1, 2008; 88(5): 580 - 590. [Abstract] [Full Text] [PDF]

				E. W Miller, S. A Combs, C. Fish, B. Bense, A. Owens, and A. Burch Running Training After Stroke: A Single-Subject Report Physical Therapy, April 1, 2008; 88(4): 511 - 522. [Abstract] [Full Text] [PDF]

				D. V. Vaz, R. d. C. Schettino, T. R. Rolla de Castro, V. R. Teixeira, S. R. Cavalcanti Furtado, and E. de Mello Figueiredo Treadmill training for ataxic patients: a single-subject experimental design Clinical Rehabilitation, March 1, 2008; 22(3): 234 - 241. [Abstract] [PDF]

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				N. P. Lapointe, R.-V. Ung, and P. A. Guertin Plasticity in Sublesionally Located Neurons Following Spinal Cord Injury J Neurophysiol, November 1, 2007; 98(5): 2497 - 2500. [Abstract] [Full Text] [PDF]

				L. A Prosser Locomotor Training Within an Inpatient Rehabilitation Program After Pediatric Incomplete Spinal Cord Injury Physical Therapy, September 1, 2007; 87(9): 1224 - 1232. [Abstract] [Full Text] [PDF]

				P. Plummer, A. L. Behrman, P. W. Duncan, P. Spigel, D. Saracino, J. Martin, E. Fox, M. Thigpen, and S. A. Kautz Effects of Stroke Severity and Training Duration on Locomotor Recovery After Stroke: A Pilot Study Neurorehabil Neural Repair, March 1, 2007; 21(2): 137 - 151. [Abstract] [PDF]

				E. P. Zehr Training-induced adaptive plasticity in human somatosensory reflex pathways J Appl Physiol, December 1, 2006; 101(6): 1783 - 1794. [Abstract] [Full Text] [PDF]

				J. F Israel, D. D Campbell, J. H Kahn, and T G. Hornby Metabolic Costs and Muscle Activity Patterns During Robotic- and Therapist-Assisted Treadmill Walking in Individuals With Incomplete Spinal Cord Injury Physical Therapy, November 1, 2006; 86(11): 1466 - 1478. [Abstract] [Full Text] [PDF]

				A. L Behrman, M. G Bowden, and P. M Nair Neuroplasticity After Spinal Cord Injury and Training: An Emerging Paradigm Shift in Rehabilitation and Walking Recovery Physical Therapy, October 1, 2006; 86(10): 1406 - 1425. [Abstract] [Full Text] [PDF]

				A. L Behrman Editorial Board Response Physical Therapy, October 1, 2006; 86(10): 1445 - 1447. [Full Text] [PDF]

				S. Rossignol Plasticity of connections underlying locomotor recovery after central and/or peripheral lesions in the adult mammals Phil Trans R Soc B, September 29, 2006; 361(1473): 1647 - 1671. [Abstract] [Full Text] [PDF]

				B. Dobkin, D. Apple, H. Barbeau, M. Basso, A. Behrman, D. Deforge, J. Ditunno, G. Dudley, R. Elashoff, L. Fugate, et al. Weight-supported treadmill vs over-ground training for walking after acute incomplete SCI Neurology, February 28, 2006; 66(4): 484 - 493. [Abstract] [Full Text] [PDF]

				P. Winchester, R. McColl, R. Querry, N. Foreman, J. Mosby, K. Tansey, and J. Williamson Changes in Supraspinal Activation Patterns following Robotic Locomotor Therapy in Motor-Incomplete Spinal Cord Injury Neurorehabil Neural Repair, December 1, 2005; 19(4): 313 - 324. [Abstract] [PDF]

				A. L Behrman, A. R Lawless-Dixon, S. B Davis, M. G Bowden, P. Nair, C. Phadke, E. M Hannold, P. Plummer, and S. J Harkema Locomotor Training Progression and Outcomes After Incomplete Spinal Cord Injury Physical Therapy, December 1, 2005; 85(12): 1356 - 1371. [Abstract] [Full Text] [PDF]

				T G. Hornby, D. H Zemon, and D. Campbell Robotic-Assisted, Body-Weight-Supported Treadmill Training in Individuals Following Motor Incomplete Spinal Cord Injury Physical Therapy, January 1, 2005; 85(1): 52 - 66. [Abstract] [Full Text] [PDF]

				H. J. Huang and D. P. Ferris Neural coupling between upper and lower limbs during recumbent stepping J Appl Physiol, October 1, 2004; 97(4): 1299 - 1308. [Abstract] [Full Text] [PDF]

				V. Dietz and S. J. Harkema Locomotor activity in spinal cord-injured persons J Appl Physiol, May 1, 2004; 96(5): 1954 - 1960. [Abstract] [Full Text] [PDF]

				B. H. Dobkin, D. Apple, H. Barbeau, M. Basso, A. Behrman, D. Deforge, J. Ditunno, G. Dudley, R. Elashoff, L. Fugate, et al. Methods for a Randomized Trial of Weight-Supported Treadmill Training Versus Conventional Training for Walking During Inpatient Rehabilitation after Incomplete Traumatic Spinal Cord Injury Neurorehabil Neural Repair, September 1, 2003; 17(3): 153 - 167. [Abstract] [PDF]

				H. Barbeau Locomotor Training in Neurorehabilitation: Emerging Rehabilitation Concepts Neurorehabil Neural Repair, March 1, 2003; 17(1): 3 - 11. [PDF]

				M. Suteerawattananon, B. MacNeill, and E. J Protas Supported Treadmill Training for Gait and Balance in a Patient With Progressive Supranuclear Palsy Physical Therapy, May 1, 2002; 82(5): 485 - 495. [Abstract] [Full Text] [PDF]

				R. D de Leon, R. R Roy, and V R. Edgerton Is the Recovery of Stepping Following Spinal Cord Injury Mediated by Modifying Existing Neural Pathways or by Generating New Pathways? A Perspective Physical Therapy, December 1, 2001; 81(12): 1904 - 1911. [Abstract] [Full Text] [PDF]

				S. J. Harkema Neural Plasticity after Human Spinal Cord Injury: Application of Locomotor Training to the Rehabilitation of Walking Neuroscientist, October 1, 2001; 7(5): 455 - 468. [Abstract] [PDF]

				D M. Basso Neuroanatomical Substrates of Functional Recovery After Experimental Spinal Cord Injury: Implications of Basic Science Research for Human Spinal Cord Injury Physical Therapy, August 1, 2000; 80(8): 808 - 817. [Abstract] [Full Text] [PDF]