Dynamic Sensorimotor Interactions in Locomotion

doi:10.1152/physrev.00028.2005

Dynamic Sensorimotor Interactions in Locomotion

Serge Rossignol, Réjean Dubuc and Jean-Pierre Gossard

Centre for Research in Neurological Sciences, CIHR Group in Neurological Sciences, Department of Physiology, Université de Montréal, Montreal, Canada

Locomotion results from intricate dynamic interactions betweena central program and feedback mechanisms. The central programrelies fundamentally on a genetically determined spinal circuitry(central pattern generator) capable of generating the basiclocomotor pattern and on various descending pathways that cantrigger, stop, and steer locomotion. The feedback originatesfrom muscles and skin afferents as well as from special senses(vision, audition, vestibular) and dynamically adapts the locomotorpattern to the requirements of the environment. The dynamicinteractions are ensured by modulating transmission in locomotorpathways in a state- and phase-dependent manner. For instance,proprioceptive inputs from extensors can, during stance, adjustthe timing and amplitude of muscle activities of the limbs tothe speed of locomotion but be silenced during the oppositephase of the cycle. Similarly, skin afferents participate predominantlyin the correction of limb and foot placement during stance onuneven terrain, but skin stimuli can evoke different types ofresponses depending on when they occur within the step cycle.Similarly, stimulation of descending pathways may affect thelocomotor pattern in only certain phases of the step cycle.Section II reviews dynamic sensorimotor interactions mainlythrough spinal pathways. Section III describes how similar sensoryinputs from the spinal or supraspinal levels can modify locomotionthrough descending pathways. The sensorimotor interactions occurobviously at several levels of the nervous system. Section IVsummarizes presynaptic, interneuronal, and motoneuronal mechanismsthat are common at these various levels. Together these mechanismscontribute to the continuous dynamic adjustment of sensorimotorinteractions, ensuring that the central program and feedbackmechanisms are congruous during locomotion.

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				A. Frigon and S. Rossignol Short-Latency Crossed Inhibitory Responses in Extensor Muscles During Locomotion in the Cat J Neurophysiol, February 1, 2008; 99(2): 989 - 998. [Abstract] [Full Text] [PDF]

				J. P. Gabriel, R. Mahmood, A. M. Walter, A. Kyriakatos, G. Hauptmann, R. L. Calabrese, and A. El Manira Locomotor Pattern in the Adult Zebrafish Spinal Cord In Vitro J Neurophysiol, January 1, 2008; 99(1): 37 - 48. [Abstract] [Full Text] [PDF]

				M. P. Beenhakker, M. S. Kirby, and M. P. Nusbaum Mechanosensory Gating of Proprioceptor Input to Modulatory Projection Neurons J. Neurosci., December 26, 2007; 27(52): 14308 - 14316. [Abstract] [Full Text] [PDF]

				S. Rossignol, M. Schwab, M. Schwartz, and M. G. Fehlings Spinal Cord Injury: Time to Move? J. Neurosci., October 31, 2007; 27(44): 11782 - 11792. [Abstract] [Full Text] [PDF]

				J.-s. Wu, M. R. Due, K. Sasaki, A. Proekt, J. Jing, and K. R. Weiss State Dependence of Spike Timing and Neuronal Function in a Motor Pattern Generating Network J. Neurosci., October 3, 2007; 27(40): 10818 - 10831. [Abstract] [Full Text] [PDF]

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