Movement-Related Neuronal Activity Reflecting the Transformation of Coordinates in the Ventral Premotor Cortex of Monkeys

doi:10.1152/jn.00070.2002

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Movement-Related Neuronal Activity Reflecting the Transformation of Coordinates in the Ventral Premotor Cortex of Monkeys

Kiyoshi Kurata¹ and Eiji Hoshi²

¹Department of Physiology, Hirosaki University School of Medicine, Hirosaki 036-8562; and ²Department of Physiology, Tohoku University School of Medicine, Sendai 980-8575 Japan

Kurata, Kiyoshi and Eiji Hoshi. Movement-Related Neuronal Activity Reflecting the Transformation of Coordinates in the Ventral Premotor Cortex of Monkeys. J. Neurophysiol. 88: 3118-3132, 2002. We examined how the transformation of coordinates from visual to motor space is reflected by neuronal activity in the ventralpremotor cortex (PMv) of monkeys. Three monkeys were trained toreach with their right hand for a target that appeared on a screen.While performing the task, the monkeys wore prisms that shiftedthe image of the target 10°, left or right, or wore no prisms,for a block of 200 trials. The nine targets were located in thesame positions in visual space regardless of whether the prismswere present. Wearing the prisms required the monkeys to initiatea movement in a direction that was different from the apparenttarget location. Thus using the prisms, we could dissociate visualspace from motor space. While the monkey performed the behavioraltask, we recorded neuronal activity in the left PMv and primarymotor cortex (MI), and various kinds of task-related neuronalactivity were found in the motor areas. These included neuronsthat changed their activity during a reaction time (RT) period(the period between target presentation and movement onset), whichwere called "movement-related neurons" and selected for analysis.In these neurons, activity during a movement time (MT) periodwas also compared. Using general linear models for our statisticalanalysis, the neurons were then classified into four types: thosewhose activity was consistently dependent on location of targetsin the visual coordinates regardless of whether the prisms werepresent or absent (V type); those that were consistently dependenton target location in the motor coordinates only; those that haddifferent activity for both of the motor and visual coordinates;and those that had nondifferential activity for the two typesof coordinates. The proportion of the four types of the neuronsdiffered significantly between the PMv and MI. Most remarkably,neurons with V-type activity were almost exclusively recordedin the PMv and were almost exclusively found during the RT period.Such activity was never observed in an electromyogram of the workingforelimb. Based on these observations, we postulate that the Vand other types may represent the various intermediate stagesof the transformation of coordinates and that the PMv plays acrucial role in transforming coordinates from visual to motorspace.

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