Dynamics of Single Neuron Activity in Monkey Primary Motor Cortex Related to Sensorimotor Transformation

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Volume 17, Number 6, Issue of March 15, 1997 pp. 2227-2246
Copyright ©1997 Society for Neuroscience

Dynamics of Single Neuron Activity in Monkey Primary Motor Cortex Related to Sensorimotor Transformation

Received Aug. 28, 1996; revised Nov. 8, 1996; accepted Nov. 18, 1996.
Jun Zhang¹, Alexa Riehle², Jean Requin²^,, and Sylvan Kornblum³
¹ Department of Psychology, University of Michigan, Ann Arbor, Michigan 48109, ² Center for Research in Cognitive Neuroscience, Centre National de la Recherche Scientifique, 13402 Marseille Cedex 20, France, and ³ Mental Health Research Institute, University of Michigan, Ann Arbor, Michigan 48109
We investigated the dynamics of neuronal activity related to sensorimotor transformation during single experimental trialsof a given stimulus-response (S-R) association task. A monkeywas trained to perform wrist extension/flexion movements in thehorizontal plane to align a pointer with a visual target whilesingle unit activity in the primary motor cortex (MI) was beingrecorded. The stimulus was a colored light-emitting diode (LED)presented to either the left or right of a central reference point.The monkey had to point directly at the target ("compatible" S-Rmapping) or point to the opposite side of the target position("incompatible" S-R mapping), with the mapping rule specifiedby the color of the LED. Single neuron activities on the fourcorrect trials (left/right stimulus × compatible/incompatibleS-R mapping) were compared to determine whether such activitieswere more related to stimulus encoding and representation, toresponse preparation and execution, or to the "decision" processestranslating the stimulus representation into a response representation.A novel mathematical technique, called LOCUS ANALYSIS, has beendeveloped to quantitatively analyze and visualize the contributionof neuronal activity toward the sensory, motor, or sensorimotor(i.e., decisional) aspects of the task. Our data show that asa trial evolves, neuronal activity in MI, at a population level,is first correlated with the representation of the specific stimulus(the side of LED), then with the representation of the S-R mappingrule (the color of LED) as well as trial-specific S-R association(the conjunction of stimulus side and stimulus color), and finallywith the representation of the behavioral response (extensionor flexion wrist movement). Immediately after the issuance ofthe movement command, the populational activity in MI remainscorrelated with the trial-specific stimulus-response conjunctions,i.e., the context of the motor decision that the monkey has justmade. Cells recorded successively in a single penetration tendto resemble each other in their pattern of firing on the fourcorrect trials, suggesting a modular organization of neurons basedon their functional role in the processing of the S-R associationtask. Our results indicate that MI belongs to a distributed networksuch that its neuronal activity reflects the underlying networkdynamics that translate a stimulus representation into a responserepresentation via the activation and application of appropriateS-R mapping rule.

Key words: sensorimotor transformation; decision; primary motor cortex; compatibility; LOCUS ANALYSIS; wrist extension/flexion

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