Plasticity of Spinal Cord Reflexes After a Complete Transection in Adult Rats: Relationship to Stepping Ability

doi:10.1152/jn.00325.2006

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Plasticity of Spinal Cord Reflexes After a Complete Transection in Adult Rats: Relationship to Stepping Ability

Igor Lavrov¹, Yury P. Gerasimenko¹^,3, Ronaldo M. Ichiyama¹, Gregoire Courtine¹, Hui Zhong¹, Roland R. Roy¹^,2 and V. Reggie Edgerton¹^,2

¹Department of Physiological Science and ²Brain Research Institute, University of California, Los Angeles, California; and ³Pavlov Institute of Physiology, St. Petersburg, Russia

Submitted 28 March 2006; accepted in final form 27 June 2006

Changes in epidurally induced (S1) spinal cord reflexes werestudied as a function of the level of restoration of steppingability after spinal cord transection (ST). Three types of responseswere observed. The early response (ER) had a latency of 2.5to 3 ms and resulted from direct stimulation of motor fibersor motoneurons. The middle response (MR) had a latency of 5to 7 ms and was monosynaptic. The late response (LR) had a latencyof 9 to 11 ms and was polysynaptic. After a complete midthoracicST, the LR was abolished, whereas the MR was facilitated andprogressively increased. The LR reappeared about 3 wk afterST and increased during the following weeks. Restoration ofstepping induced by epidural stimulation at 40 Hz coincidedwith changes in the LR. During the first 2 wk post-ST, ratswere unable to step and electrophysiological assessment failedto show any LR. Three weeks post-ST, epidural stimulation resultedin a few steps and these coincided with reappearance of theLR. The ability of rats to step progressively improved fromwk 3 to wk 6 post-ST. There was a continuously improved modulationof rhythmic EMG bursts that was correlated with restorationof the LR. These results suggest that restoration of polysynapticspinal cord reflexes after complete ST coincides with restorationof stepping function when facilitated by epidural stimulation.Combined, these findings support the view that restoration ofpolysynaptic spinal cord reflexes induced epidurally may providea measure of functional restoration of spinal cord locomotornetworks after ST.

Address for reprint requests and other correspondence: V. R. Edgerton, Department of Physiological Science, University of California, Los Angeles, 621 Charles E. Young Drive, Los Angeles, CA 90095-1527 (E-mail: vre{at}ucla.edu)

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