Cerebellar neuronal activity related to whole-arm reaching movements in the monkey

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Cerebellar neuronal activity related to whole-arm reaching movements in the monkey

P. A. Fortier, J. F. Kalaska and A. M. Smith
Department de Physiologie, Universite de Montreal, Quebec, Canada.

1. Three monkeys were trained to make whole-arm reaching movements from a common central starting position toward eight radially arranged targets disposed at 45 degrees intervals. A sample of 312 cerebellar neurons with proximal-arm receptive fields or discharge related to shoulder or elbow movements was studied in the task. The sample included 69 Purkinje cells, 115 unidentified cortical cells, 65 interpositus neurons, and 63 dentate units. 2. The reaching task was divided into three movement-related epochs: a reaction time, a movement time, and holding over the target. All neurons demonstrated significant changes in discharge during one or more of these three epochs. Almost all of the cells (95%) showed a significant change in activity during the movement, whereas 68-69% of the cells showed significant changes from premovement activity during the reaction time and holding periods. 3. During the combined reaction time-movement period, 231/312 cells were strongly active in the task. Of these, 151 cells (65.4%) demonstrated unimodal directional responses. Sixty-three had a reciprocal relation to movement direction, whereas 88 showed only graded increases or decreases in activity. A further 37 cells (16.0%) were nondirectional, with statistically uniform changes in discharge in all eight directions. The remaining 43 cells (18.6%) showed significant differences in activity for different directions of movement, but their response patterns were not readily classifiable. 4. The proportion of directional versus nondirectional cells was consistent across the four cell populations. However, graded response patterns were more common and reciprocal responses less common among Purkinje and dentate neurons than among unidentified cortical cells and interpositus neurons. 5. The distribution of preferred directions of the population of cerebellar neurons covered all possible movement directions away from the common central starting position in the horizontal plane. When the preferred direction of each cell in the sample population was aligned, the mean direction-related activity of the cerebellar population formed a bell-shaped tuning curve for the activity recorded during both the reaction time and the movement, as well as during the time the arm maintained a fixed posture over the targets. A vector representation also showed that the overall activity of the cerebellar population during normal reaching arm movements generated a signal that varied with movement direction. 6. These results demonstrate that the cerebellum generates a signal that varies with the direction of movement of the proximal arm during normal aimed reaching movements and is consistent with a role in the control of the activity of muscles or muscle groups generating these movements.

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				C. R. Mason, C. M. Hendrix, and T. J. Ebner Purkinje Cells Signal Hand Shape and Grasp Force During Reach-to-Grasp in the Monkey J Neurophysiol, January 1, 2006; 95(1): 144 - 158. [Abstract] [Full Text] [PDF]

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				A. V. Roitman, S. Pasalar, M. T. V. Johnson, and T. J. Ebner Position, Direction of Movement, and Speed Tuning of Cerebellar Purkinje Cells during Circular Manual Tracking in Monkey J. Neurosci., October 5, 2005; 25(40): 9244 - 9257. [Abstract] [Full Text] [PDF]

				R. N. Holdefer, J. C. Houk, and L. E. Miller Movement-Related Discharge in the Cerebellar Nuclei Persists After Local Injections of GABAA Antagonists J Neurophysiol, January 1, 2005; 93(1): 35 - 43. [Abstract] [Full Text] [PDF]

				G. Paradiso, D. Cunic, J. A. Saint-Cyr, T. Hoque, A. M. Lozano, A. E. Lang, and R. Chen Involvement of human thalamus in the preparation of self-paced movement Brain, December 1, 2004; 127(12): 2717 - 2731. [Abstract] [Full Text] [PDF]

				B. Greger, S. A. Norris, and W. T. Thach Spike Firing in the Lateral Cerebellar Cortex Correlated With Movement and Motor Parameters Irrespective of the Effector Limb J Neurophysiol, January 1, 2004; 91(1): 576 - 582. [Abstract] [Full Text]

				D. J. Reinkensmeyer, M. G. Iobbi, L. E. Kahn, D. G. Kamper, and C. D. Takahashi Modeling Reaching Impairment After Stroke Using a Population Vector Model of Movement Control That Incorporates Neural Firing-Rate Variability Neural Comput., November 1, 2003; 15(11): 2619 - 2642. [Abstract] [Full Text] [PDF]

				T. J. EBNER, M. T. V. JOHNSON, A. ROITMAN, and Q. FU What Do Complex Spikes Signal about Limb Movements? Ann. N.Y. Acad. Sci., December 1, 2002; 978(1): 205 - 218. [Abstract] [Full Text] [PDF]

				S. Lavoie and T. Drew Discharge Characteristics of Neurons in the Red Nucleus During Voluntary Gait Modifications: A Comparison with the Motor Cortex J Neurophysiol, October 1, 2002; 88(4): 1791 - 1814. [Abstract] [Full Text] [PDF]

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				G. Bosco and R. E. Poppele Proprioception From a Spinocerebellar Perspective Physiol Rev, April 1, 2001; 81(2): 539 - 568. [Abstract] [Full Text] [PDF]

				D. J. Crammond and J. F. Kalaska Prior Information in Motor and Premotor Cortex: Activity During the Delay Period and Effect on Pre-Movement Activity J Neurophysiol, August 1, 2000; 84(2): 986 - 1005. [Abstract] [Full Text] [PDF]

				P. van Donkelaar, J. F. Stein, R. E. Passingham, and R. C. Miall Temporary Inactivation in the Primate Motor Thalamus During Visually Triggered and Internally Generated Limb Movements J Neurophysiol, May 1, 2000; 83(5): 2780 - 2790. [Abstract] [Full Text] [PDF]

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				A. B. Schwartz and D. W. Moran Motor Cortical Activity During Drawing Movements: Population Representation During Lemniscate Tracing J Neurophysiol, November 1, 1999; 82(5): 2705 - 2718. [Abstract] [Full Text] [PDF]

				K. Zhang and T. J. Sejnowski A Theory of Geometric Constraints on Neural Activity for Natural Three-Dimensional Movement J. Neurosci., April 15, 1999; 19(8): 3122 - 3145. [Abstract] [Full Text] [PDF]

				J. D. Coltz, M. T.�V. Johnson, and T. J. Ebner Cerebellar Purkinje Cell Simple Spike Discharge Encodes Movement Velocity in Primates during Visuomotor Arm Tracking J. Neurosci., March 1, 1999; 19(5): 1782 - 1803. [Abstract] [Full Text] [PDF]

ARTICLES

Cerebellar neuronal activity related to whole-arm reaching movements in the monkey

				R. B. Bhat and J. N. Sanes Cognitive Channels Computing Action Distance and Direction J. Neurosci., September 15, 1998; 18(18): 7566 - 7580. [Abstract] [Full Text] [PDF]

				S. M.�P. Verschueren, P. J. Cordo, and S. P. Swinnen Representation of Wrist Joint Kinematics by the Ensemble of Muscle Spindles From Synergistic Muscles J Neurophysiol, May 1, 1998; 79(5): 2265 - 2276. [Abstract] [Full Text] [PDF]

				C. R. Mason, L. E. Miller, J. F. Baker, and J. C. Houk Organization of Reaching and Grasping Movements in the Primate Cerebellar Nuclei as Revealed by Focal Muscimol Inactivations J Neurophysiol, February 1, 1998; 79(2): 537 - 554. [Abstract] [Full Text] [PDF]

				Q.-G. Fu, D. Flament, J. D. Coltz, and T. J. Ebner Relationship of Cerebellar Purkinje Cell Simple Spike Discharge to Movement Kinematics in the Monkey J Neurophysiol, July 1, 1997; 78(1): 478 - 491. [Abstract] [Full Text] [PDF]

				S. Kitazawa, T. Kimura, and T. Uka Prism Adaptation of Reaching Movements: Specificity for the Velocity of Reaching J. Neurosci., February 15, 1997; 17(4): 1481 - 1492. [Abstract] [Full Text] [PDF]

				L. L. Chen and S. P. Wise Evolution of Directional Preferences in the Supplementary Eye Field during Acquisition of Conditional Oculomotor Associations J. Neurosci., May 1, 1996; 16(9): 3067 - 3081. [Abstract] [Full Text] [PDF]

				A. Georgopoulos, M Taira, and A Lukashin Cognitive neurophysiology of the motor cortex Science, April 2, 1993; 260(5104): 47 - 52. [Abstract] [PDF]

				A. Georgopoulos and S Grillner Visuomotor coordination in reaching and locomotion Science, September 15, 1989; 245(4923): 1209 - 1210. [Abstract] [PDF]