Three exercise paradigms differentially improve sensory recovery after spinal cord contusion in rats

doi:10.1093/brain/awh160

Brain Advance Access published online on April 6, 2004
Brain, doi:10.1093/brain/awh160
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Article

Three exercise paradigms differentially improve sensory recovery after spinal cord contusion in rats

Karen J. Hutchinson ¹, Fernando Gómez-Pinilla ², Maria J. Crowe ³, Zhe Ying ², and D. Michele Basso ⁴^*

¹ Department of Physical Therapy, Northeastern University, USA
² Department of Physiological Science, University of California, Los Angeles, USA
³ Department of Neurosurgery, Medical College of Wisconsin, USA
⁴ Division of Physical Therapy, School of Allied Medical Professions, The Ohio State University, Columbus, USA

^* Corresponding author. E-mail: basso.2{at}osu.edu.

Received 16 October 2003 ; revised 26 January 2004 ; accepted 8 February 2004

Abstract

Spinal cord injury (SCI) induces incapacitating neuropathicpain in the form of allodynia--a painful response to normallynon-noxious stimuli. Unfortunately, the underlying mechanismsof these sensory changes are not well understood, and effectivetreatments for allodynia have proven elusive. We examined whetherphysical exercise can improve sensory function after experimentalSCI by promoting neurotrophin expression in the spinal cordand periphery, which modulates synaptic transmission and function.Female rats with moderate spinal cord contusion participatedin treadmill training, swim training, stand training or wereuntrained. Exercise training began 4 days post surgery,lasted 20-25 min per day, 5 days a week for 7 weeks.Allodynia, as measured using von Frey hairs of different bendingforces to the plantar hind paw, developed in the untrained group3 weeks after SCI. Treadmill training ameliorated allodyniaand restored normal sensation by 5 weeks. Swim traininghad a transient beneficial effect, but allodynia returned by7 weeks. Stand training had no effect. Resolution of allodyniaafter treadmill training was associated with normal mRNA levelsof brain-derived neurotrophic factor (BDNF) in both the lumbarspinal cord and soleus muscle. No other exercise paradigm restoredBDNF centrally and peripherally. Greater recovery from allodyniacorrelated significantly with the degree of normalization ofcentral and peripheral BDNF levels. These findings suggest thatrhythmic, weight-bearing exercise may be an effective interventionto counter SCI-induced allodynia.

Keywords: neurotrophins; brain-derived neurotrophic factor (BDNF); allodynia; hyperalgesia; treadmill
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