Comparison of the Discharge Characteristics of Brain Stem Omnipause Neurons and Superior Colliculus Fixation Neurons in Monkey: Implications for Control of Fixation and Saccade Behavior

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Comparison of the Discharge Characteristics of Brain Stem Omnipause Neurons and Superior Colliculus Fixation Neurons in Monkey: Implications for Control of Fixation and Saccade Behavior

Stefan Everling, Martin Paré, Michael C. Dorris, and Douglas P. Munoz

Department of Physiology, Medical Research Council Group in Sensory-Motor Neuroscience, Queen's University, Kingston, Ontario K7L 3N6, Canada

Everling, Stefan, Martin Paré, Michael C. Dorris, and Douglas P. Munoz. Comparison of the discharge characteristicsof brain stem omnipause neurons and superior colliculus fixationneurons in monkey: implications for control of fixation and saccadebehavior. J. Neurophysiol. 79: 511-528, 1998. Fixation neurons(SCFNs) in the rostral pole of the superior colliculus (SC) andomnipause neurons (OPNs) in the nucleus raphe interpositus (rip)in the pons share similar discharge properties. Both types ofneurons discharge tonically during periods of visual fixationand pause for saccadic eye movements, and their activation byelectrical stimulation suppresses saccade generation. On the basisof these similarities and the projection from the rostral SC tothe rip, it was hypothesized that SCFNs provide a major excitatoryinput to OPNs. We investigated the role and relationship of SCFNsand OPNs with respect to both fixation behavior and saccade generationby comparing their activity recorded in the same monkeys performinga gap saccade task. In this task, the central fixation point wasextinguished 200 ms before the presentation of an eccentric saccadictarget, and the discharges of OPNs and SCFNs were contrasted duringvisual fixation, nonvisual (gap) fixation, and saccade generation.During visual fixation, the mean discharge rate of OPNs was higherand more regular than that of SCFNs. During the gap period, SCFNsdecreased their discharge rate before target appearance, whereasno change in discharge rate was observed in OPNs. For both SCFNsand OPNs, the activity level before target appearance was notcorrelated to saccadic reaction time. In contrast to SCFNs, severalOPNs responded with a transient phasic increase in discharge immediatelyafter the target presentation. Before their saccade-related pause,there was a gradual reduction in the activity of SCFNs, whereasOPNs had an abrupt cessation of discharge. SCFNs paused earlierthan OPNs, but the OPN pause onset was better synchronized tosaccade onset than the SCFN pause onset. OPNs resumed firing aftertheir pause in activity earlier than SCFNs, and the OPN pauseend was better synchronized to saccade end than the SCFN pauseend. These physiological data reveal differences in the dischargeproperties of SCFNs and OPNs that are irreconcilable with thehypothesis that the discharge pattern of OPNs reflects simplythe excitatory input from SCFNs. It is most likely that additionalinputs to OPNs compensate for the reduction in discharge of SCFNsduring these periods.

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				A. H. Bell, S. Everling, and D. P. Munoz Influence of Stimulus Eccentricity and Direction on Characteristics of Pro- and Antisaccades in Non-Human Primates J Neurophysiol, November 1, 2000; 84(5): 2595 - 2604. [Abstract] [Full Text] [PDF]

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				N. J. Gandhi and E. L. Keller Activity of the Brain Stem Omnipause Neurons During Saccades Perturbed by Stimulation of the Primate Superior Colliculus J Neurophysiol, December 1, 1999; 82(6): 3254 - 3267. [Abstract] [Full Text] [PDF]

				K. Yoshida, Y. Iwamoto, S. Chimoto, and H. Shimazu Saccade-Related Inhibitory Input to Pontine Omnipause Neurons: An Intracellular Study in Alert Cats J Neurophysiol, September 1, 1999; 82(3): 1198 - 1208. [Abstract] [Full Text] [PDF]

				B. D. Corneil and D. P. Munoz Human Eye-Head Gaze Shifts in a Distractor Task. II. Reduced Threshold for Initiation of Early Head Movements J Neurophysiol, September 1, 1999; 82(3): 1406 - 1421. [Abstract] [Full Text] [PDF]

				C. Quaia, P. Lefevre, and L. M. Optican Model of the Control of Saccades by Superior Colliculus and Cerebellum J Neurophysiol, August 1, 1999; 82(2): 999 - 1018. [Abstract] [Full Text] [PDF]

				S. Everling, M. C. Dorris, R. M. Klein, and D. P. Munoz Role of Primate Superior Colliculus in Preparation and Execution of Anti-Saccades and Pro-Saccades J. Neurosci., April 1, 1999; 19(7): 2740 - 2754. [Abstract] [Full Text] [PDF]