Loss of the neural integrator of the oculomotor system from brain stem lesions in monkey

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Loss of the neural integrator of the oculomotor system from brain stem lesions in monkey

S. C. Cannon and D. A. Robinson

Eye movement were recorded from four juvenile rhesus monkeys (Macaca mulatta) before and after the injection of neurotoxins (kainate or ibotenate) in the region of the medial vestibular and prepositus hypoglossi nuclei, an area hypothesized to be the locus of the neural integrator for horizontal eye movement commands. Eye movements were measured in the head-restrained animal by the magnetic field/eye-coil method. The monkeys were trained to follow visual targets. A chamber implanted over a trephine hole in the skull permitted recordings to be made in the brain stem with metal microelectrodes. The abducens nuclei were located and used as a reference point for subsequent neurotoxin injections through cannulas. The effects of these lesions on fixation, vestibuloocular and optokinetic responses, and smooth pursuit were compared with predicted oculomotor anomalies caused by a loss of the neural integrator. Kainate and ibotenate did not create permanent lesions in this region of the brain stem. All the eye movements returned toward normal over the course of a few days to 2 wk. Histological examination revealed that the cannula tips were mainly located between the vestibular and prepositus hypoglossi nuclei, in their rostral 2 mm, bordered rostrally by the abducens nuclei. Dense gliosis clearly demarcated the cannula tracks, but for most injections there were no surrounding regions of neuronal loss. Thus the eye movement disorders were due to a reversible, not a permanent, lesion. The time constant for the neural integrator was determined from the velocity of the centripetal drift of the eyes just after an eccentric saccade in total darkness. For intact animals this time constant was greater than 20 s. Shortly after bilateral injections of neurotoxin, the time constant began to decrease and reached a minimum of 200 ms; every horizontal saccade was followed by a rapid centripetal drift with a time constant of approximately 200 ms. For vertical eye movements, in this acute phase, the time constant was approximately 2.5 s. The vestibuloocular reflex (VOR) was drastically changed by the lesions. A step of constant head velocity in total darkness evoked a step change in eye position rather than in velocity. In the absence of the neural integrator, the step velocity command from the canal afferents was not integrated to produce a ramp of eye position (normal slow phases); rather this signal was relayed directly to the motoneurons and caused a step in eye position. The per- and postrotatory decay of the head velocity signal was decreased to 5-6 s indicating that vestibular velocity storage was also impaired.(ABSTRACT TRUNCATED AT 400 WORDS)

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				J. S. Stahl, R. A. James, B. S. Oommen, F. E. Hoebeek, and C. I. De Zeeuw Eye Movements of the Murine P/Q Calcium Channel Mutant Tottering, and the Impact of Aging J Neurophysiol, March 1, 2006; 95(3): 1588 - 1607. [Abstract] [Full Text] [PDF]

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				E. Aksay, R. Baker, H. S. Seung, and D. W. Tank Correlated Discharge among Cell Pairs within the Oculomotor Horizontal Velocity-to-Position Integrator J. Neurosci., November 26, 2003; 23(34): 10852 - 10858. [Abstract] [Full Text] [PDF]

ARTICLES

Loss of the neural integrator of the oculomotor system from brain stem lesions in monkey

				A. M. Green and D. E. Angelaki Resolution of Sensory Ambiguities for Gaze Stabilization Requires a Second Neural Integrator J. Neurosci., October 15, 2003; 23(28): 9265 - 9275. [Abstract] [Full Text] [PDF]

				D. E. Angelaki and J. D. Dickman Premotor Neurons Encode Torsional Eye Velocity during Smooth-Pursuit Eye Movements J. Neurosci., April 1, 2003; 23(7): 2971 - 2979. [Abstract] [Full Text] [PDF]

				S. Glasauer, M. Hoshi, U. Kempermann, T. Eggert, and U. Buttner Three-Dimensional Eye Position and Slow Phase Velocity in Humans With Downbeat Nystagmus J Neurophysiol, January 1, 2003; 89(1): 338 - 354. [Abstract] [Full Text] [PDF]

				C. Helmchen, H. Rambold, U. Kempermann, J.A. Buttner-Ennever, and U. Buttner Localizing value of torsional nystagmus in small midbrain lesions Neurology, December 24, 2002; 59(12): 1956 - 1964. [Abstract] [Full Text] [PDF]

				S. Musallam and R. D. Tomlinson Asymmetric Integration Recorded From Vestibular-Only Cells in Response to Position Transients J Neurophysiol, October 1, 2002; 88(4): 2104 - 2113. [Abstract] [Full Text] [PDF]

				M. S. Goldman, C. R. S. Kaneko, G. Major, E. Aksay, D. W. Tank, and H. S. Seung Linear Regression of Eye Velocity on Eye Position and Head Velocity Suggests a Common Oculomotor Neural Integrator J Neurophysiol, August 1, 2002; 88(2): 659 - 665. [Abstract] [Full Text] [PDF]

				E. M. Klier, H. Wang, A. G. Constantin, and J. D. Crawford Midbrain Control of Three-Dimensional Head Orientation Science, February 15, 2002; 295(5558): 1314 - 1316. [Abstract] [Full Text] [PDF]

				D. E. Angelaki, A. M. Green, and J. D. Dickman Differential Sensorimotor Processing of Vestibulo-Ocular Signals during Rotation and Translation J. Neurosci., June 1, 2001; 21(11): 3968 - 3985. [Abstract] [Full Text] [PDF]

				R. Bhidayasiri, G. T. Plant, and R. J. Leigh A hypothetical scheme for the brainstem control of vertical gaze Neurology, May 23, 2000; 54(10): 1985 - 1993. [Abstract] [Full Text] [PDF]

				K. Nakamagoe, Y. Iwamoto, and K. Yoshida Evidence for Brainstem Structures Participating in Oculomotor Integration Science, May 5, 2000; 288(5467): 857 - 859. [Abstract] [Full Text]