SINGLE UNIT ANALYSIS OF THE HUMAN VENTRAL THALAMIC NUCLEAR GROUP: ACTIVITY CORRELATED WITH MOVEMENT

doi:10.1093/brain/113.6.1795

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Brain, Vol. 113, No. 6, 1795-1821, 1990
© 1990 Guarantors of Brain

research-article

SINGLE UNIT ANALYSIS OF THE HUMAN VENTRAL THALAMIC NUCLEAR GROUP

ACTIVITY CORRELATED WITH MOVEMENT

F. A. LENZ, H. C. KWAN, J. O. DOSTROVSKY, R. R. TASKER, J. T. MURPHY and Y. E. LENZ

Department of Neurosurgery, Johns Hopkins University Baltimore, USA Departments of Physiology, Engineering and Surgery, University of Toront Toronto, Canada

Correspondence to: Correspondence to: Dr F. A. Lenz, Department of Neurosurgery, 7-113 Meyer Wing, The Johns Hopkins Hospital, 600 North Wolfe Street, Baltimore, MD 21205, USA.

During neurosurgical operations for the relief of movement disorders,single thalamic neurons (n = 107) were identified with activitywhich was related to verbally cued active movements (movement-relatedcells). The activity of each neuron was examined during differentcontralateral movements in order to determine the movement whichwas associated with the most consistent and pronounced changein firing rate (the optimal response). The optimal responsewas determined by analysis of histograms of neuronal activitywhich were constructed by using the onset of EMG activity tosynchronize successive repetitions of the active movement.

Movement-related cells exhibited optimal responses associatedwith such movements as making a fist, extension or flexion ofthe wrist, flexing or extending the elbow, pointing with theentire upper extremity, extending the tongue and lifting theleg. Most movement-related cells recorded in a single parasagittalplane in an individual patient had optimal responses relatedto movements involving the same part of the body. Movement-relatedcells were classified into those that were activated in responseto somatosensory stimulation (combined cells, n = 20) and thosewhich were not (voluntary cells, n = 87). Combined cells wereactivated in advance of EMG activity during active movementand so could be distinguished from cells responding only tosensory stimulation (sensory cells). Movement-related cells(combined and voluntary cell types) were located anterior tosensory cells and tended to show a mediolateral somatotopicorganization parallel to that of sensory cells with cutaneousreceptive fields. Combined cells responded to somatosensorystimulation of the same part of the body as that involved inthe active movement related to the optimal response of the cell.Combined cells responding to passive movements of a joint alwayshad their optimal response during active movement about thesame joint. The activity of combined cells during parkinsoniantremor may clarify the role of sensory feedback in tremor.

Received May 23, 1988. Revised December 8, 1989. Accepted December 19, 1989.

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