Spinal Cord Modular Organization and Rhythm Generation: An NMDA Iontophoretic Study in the Frog

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Spinal Cord Modular Organization and Rhythm Generation: An NMDA Iontophoretic Study in the Frog

Philippe Saltiel, Matthew C. Tresch, and Emilio Bizzi

Department of Brain and Cognitive Sciences, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139

Saltiel, Philippe, Matthew C. Tresch, and Emilio Bizzi. Spinal cord modular organization and rhythm generation: a NMDAiontophoretic study in the frog. J. Neurophysiol. 80: 2323-2339,1998. Previous work using electrical microstimulation has suggestedthe existence of modules subserving limb posture in the spinalcord. In this study, the question of modular organization wasreinvestigated with the more selective method of chemical microstimulation.N-methyl-D-aspartate (NMDA) iontophoresis was applied to 229 sitesof the lumbar spinal cord gray while monitoring the isometricforce output of the ipsilateral hindlimb at the ankle. A forceresponse was elicited from 69 sites. At 18 of these sites, tonicforces were generated and rhythmic forces at 44. In the case oftonic forces, their directions clustered along four orientations:lateral extension, rostral flexion, adduction, and caudal extension.For the entire set of forces (tonic and rhythmic), the same clustersof orientations were found with the addition of a cluster directedas a flexion toward the body. This distribution of force orientationswas quite comparable to that obtained with electrical stimulationat the same sites. The map of tonic responses revealed a topographicorganization; each type of force orientation was elicited fromsites that grouped together in zones at distinct rostrocaudaland depth locations. In the case of rhythmic sequences of forceorientations, some were distinctly more common, whereas otherswere rarely elicited by NMDA. Mapping of the most common rhythmsshowed that each was elicited from two or three regions of thecord. These regions were close in location to the tonic regionsthat produced those forces that represented components specificto that rhythm. There was an additional caudal region from whichthe different rhythms also could be elicited. Taken together,these results support the concept of a modular organization ofthe motor system in the frog's spinal cord and delineate the topographyof these modules. They also suggest that these modules are usedby the circuitry underlying rhythmic pattern generation by thespinal cord.

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