Vestibulo‐ocular reflex, optokinetic response and their interactions in the cerebellectomized cat.

The effects of total ablation of the cerebellum on eye movements were studied in alert adult cats. The normal cat could easily hold a steady eye position after a saccadic movement in the dark. The cerebellectomized animal could not: after a saccade the eye position shifted towards a more central position. Vision reduced this 'post‐saccadic drift'. The sinusoidal vestibulo‐ocular reflex (v.o.r.) was strongly affected by total cerebellectomy. In darkness the v.o.r. gain remained stable at high frequencies (0.5 and 1 Hz) but decreased markedly at lower frequencies to as low as 0.18 at 0.05 Hz. A phase advance (up to 65 degrees at 0.05 Hz) paralleled this gain depression. Velocity characteristics of optokinetic nystagmus (o.k.n.) and optokinetic after‐nystagmus (o.k.a.n.) induced by constant‐velocity full‐field rotation of 60 deg/s amplitude and 60 s duration were studied. The features of o.k.n. (initial velocity, maximal velocity and time constant) were only mildly affected by cerebellectomy. On cessation of visual stimulation when the animal was plunged into darkness, the velocity of the eyes decreased progressively (o.k.a.n.). The time constant of o.k.a.n. was 12.5 s in the normal cat and 4.2 s in the cerebellectomized cat. Furthermore cerebellectomy abolished the secondary o.k.a.n. Optokinetic response was also tested by a set of sinusoidal (0.05‐1 Hz; 3‐20 degrees) full‐field stimuli. The o.k.n. was not abolished but dramatically decreased, especially at higher frequencies. No response could be detected above 0.15 Hz. Visual suppression of inappropriate vestibulo‐ocular reflex was still possible but was mildly impaired after cerebellectomy. Visual suppression could only be detected with stimuli below 0.25 Hz. Visual suppression of caloric nystagmus was studied in the normal cat. A clear dependence of the effectiveness of visual suppression on the velocity of the nystagmus was demonstrated. In the cerebellectomized cat, the visual suppression of caloric nystagmus was lost when tested on nystagmus velocities above 20 deg/s but remained when tested on nystagmus velocities below 20 deg/s. The relationship between cerebellectomy and the loss of visual suppression of caloric nystagmus was found to be at least partially indirect: cerebellectomy increased the velocity of caloric nystagmus, and visual suppression was usually less effective at higher velocities.

[1]  P Crenna,et al.  Alterations of ocular motility in cerebellar pathology. An electro-oculographic study. , 1979, Archives of neurology.

[2]  A. A. Skavenski,et al.  Role of abducens neurons in vestibuloocular reflex. , 1973, Journal of neurophysiology.

[3]  A. Fuchs,et al.  Saccadic, smooth pursuit, and optokinetic eye movements of the trained cat. , 1978, The Journal of physiology.

[4]  D G Cogan,et al.  Ocular motor abnormalities in hereditary cerebellar ataxia. , 1976, Brain : a journal of neurology.

[5]  W. Precht,et al.  Visual-vestibular responses in vestibular nuclear neurons in the intact and cerebellectomized, alert cat , 1979, Neuroscience.

[6]  R. Carpenter,et al.  Cerebellectomy and the transfer function of the vestibulo-ocular reflex in the decerebrate cat , 1972, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[7]  A. Fuchs,et al.  Activity of brain stem neurons during eye movements of alert monkeys. , 1972, Journal of neurophysiology.

[8]  V Honrubia,et al.  Vestibulo‐ocular function in patients with cerebellar atrophy , 1975, Neurology.

[9]  J. Stahle,et al.  Nystagmography; recording of nystagmus in clinical neuro-otological examinations. , 1956, Acta oto-laryngologica. Supplementum.

[10]  B. Cohen,et al.  Quantitative analysis of the velocity characteristics of optokinetic nystagmus and optokinetic after‐nystagmus , 1977, The Journal of physiology.

[11]  H Collewijn,et al.  Vestibulo‐ocular and optokinetic reactions to rotation and their interaction in the rabbit , 1974, The Journal of physiology.

[12]  D. Robinson,et al.  The effect of cerebellectomy on the cat's bestibulo-ocular integrator. , 1974, Brain research.

[13]  Meiry Jl,et al.  The vestibular system and human dynamic space orientation. NASA CR-628. , 1966 .

[14]  Laurence R. Young,et al.  Visual-vestibular interaction , 1994 .

[15]  T. Shiida,et al.  Visual influence on rabbit horizontal vestibulo-ocular reflex presumably effected via the cerebellar flocculus. , 1974, Brain research.

[16]  L. Ritchie Effects of cerebellar lesions on saccadic eye movements. , 1976, Journal of neurophysiology.

[17]  J. Kimm,et al.  Dynamic analysis of the vestibulo-ocular reflex in the normal and flocculectomized chinchilla , 1978, Experimental Neurology.

[18]  Ocular Motor , 1975 .

[19]  V. Honrubia,et al.  Effect of bilateral ablation of the vestibular cerebellum on visual-vestibular interaction , 1981, Experimental Neurology.

[20]  D. Zee,et al.  Effects of ablation of flocculus and paraflocculus of eye movements in primate. , 1981, Journal of neurophysiology.

[21]  S Takemori,et al.  Loss of visual suppression of vestibular nystagmus after flocculus lesions. , 1974, Brain research.

[22]  S. Takemori Visual Suppression of Vestibular Nystagmus after Cerebellar Lesions , 1975, The Annals of otology, rhinology, and laryngology.

[23]  M. Carpenter The Brain Stem of the Cat , 1969, Neurology.

[24]  J. Corvera,et al.  Effects of cerebellectomy on eye movements in man. , 1979, Archives of neurology.

[25]  S Takemori,et al.  Visual suppression of vestibular nystagmus in rhesus monkeys. , 1974, Brain research.

[26]  B. Cohen,et al.  Eye movements induced by stimulation of the pontine reticular formation: evidence for integration in oculomotor pathways. , 1972, Experimental neurology.

[27]  H. Collewijn An analog model of the rabbit's optokinetic system. , 1972, Brain research.

[28]  E. Keller Participation of medial pontine reticular formation in eye movement generation in monkey. , 1974, Journal of neurophysiology.