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The Journal of Neurophysiology Vol. 85 No. 2 February 2001, pp. 998-1004
Copyright ©2001 by the American Physiological Society
RAPID COMMUNICATION
1Department of Physiology and 2Department of Radiology, Northwestern University Medical School, Chicago 60611; and 3Department of Neurology, Evanston Hospital, Evanston, Illinois 60201
Gdowski, Martha J.,
Lee E. Miller,
Todd Parrish,
Emmanuel K. Nenonene, and
James C. Houk.
Context Dependency in the Globus Pallidus Internal
Segment During Targeted Arm Movements. J. Neurophysiol. 85: 998-1004, 2001. Extracellular discharges from single
neurons in the internal segment of the globus pallidus (GPi) were
recorded and analyzed for rate changes associated with visually guided
forearm rotations to four different targets. We sought to examine how
GPi neurons contribute to movement preparation and execution. Unit
discharge from 108 GPi neurons recorded in 35 electrode penetrations
was aligned to the time of various behavioral events, including the onset of cued and return movements. In total, 39 of 108 GPi neurons (36%) were task-modulated, demonstrating statistically significant changes in discharge rate at various times between the presentation of
visual cues and movement generation. Most often, strong modulation in
discharge rate occurred selectively during either the cued (n = 32) or return (n = 2) phases of
the task, although a few neurons (n = 5) were
well-modulated during both movement phases. Of the 34 neurons that were
modulated exclusively during cued or return movements, 50%
(n = 17) were modulated similarly in association with
movements to any target. The remaining 17 neurons exhibited
considerable diversity in their discharge properties associated with
movements to each target. Cued phases of behavior were always rewarded
if executed correctly, whereas return phases were never rewarded.
Overall, these data reveal that many GPi neurons discharged in a
context-dependent manner, being modulated during cued, rewarded
movements, but not during similar self-paced, unrewarded movements.
When considered in the light of other observations, the
context-dependence we have observed seems likely to be influenced by
the animal's expectation of reward.
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