Stumbling Corrective Reaction During Fictive Locomotion in the Cat

doi:10.1152/jn.00175.2005

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Stumbling Corrective Reaction During Fictive Locomotion in the Cat

Jorge Quevedo¹^,2, Katinka Stecina¹, Simon Gosgnach³ and David A. McCrea¹

¹Spinal Cord Research Centre and Department of Physiology, University of Manitoba, Winnipeg, Manitoba, Canada; ²Department of Physiology, Biophysics and Neuroscience, Centro de Investigacion y de Estudios Avanzados, Mexico City, Mexico; and ³The Salk Institute, San Diego, California

Submitted 18 February 2005; accepted in final form 21 May 2005

An obstacle contacting the dorsal surface of a cat’s hindfoot during the swing phase of locomotion evokes a reflex (thestumbling corrective reaction) that lifts the foot and extendsthe ankle to avoid falling. We show that the same sequence ofipsilateral hindlimb motoneuron activity can be evoked in decerebratecats during fictive locomotion. As recorded in the peripheralnerves, twice threshold intensity stimulation of the cutaneoussuperficial peroneal (SP) nerve during the flexion phase produceda very brief excitation of ankle flexors (e.g., tibialis anteriorand peroneus longus) that was followed by an inhibition forthe duration of the stimulus train (10–25 shocks, 200Hz). Extensor digitorum longus was always, and hip flexor (sartorius)activity was sometimes, inhibited during SP stimulation. Atthe same time, knee flexor and the normally quiescent ankleextensor motoneurons were recruited (mean latencies 4 and 16ms) with SP stimulation during fictive stumbling correction.After the stimulus train, ankle extensor activity fell silent,and there was an excitation of hip, knee, and ankle flexors.The ongoing flexion phase was often prolonged. Hip extensorswere also recruited in some fictive stumbling trials. Only theSP nerve was effective in evoking stumbling correction. Deliveredduring extension, SP stimulus trains increased ongoing extensormotoneuron activity as well as increasing ipsilateral hip, knee,and ankle hindlimb flexor activity in the subsequent step cycle.The fictive stumbling corrective reflex seems functionally similarto that evoked in intact, awake animals and involves a fixedpattern of short-latency reflexes as well as actions evokedthrough the lumbar circuitry responsible for the generationof rhythmic alternating locomotion.

Address for reprint requests and other correspondence: D. A. McCrea, Spinal Cord Research Ctr., Univ. of Manitoba, 730 William Ave., Winnipeg, Manitoba R3E3J7, Canada (E-mail: dave{at}scrc.umanitoba.ca)

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