| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| D Jaarsma, A I Levey, A Frostholm, A Rotter, J Voog. Light-microscopic distribution and parasagittal organisation of muscarinic receptors in rabbit cerebellar cortex. Journal of chemical neuroanatomy. vol 9. issue 4. 1996-09-25. PMID:8719274. |
the parasagittal band of labeled purkinje cell dendrites were most prominent in the anterior lobe (lobules i-v), in crus 1 and 2, in the flocculus, the ventral paraflocculus and the rostral folium of the nodulus. |
1996-09-25 |
2023-08-12 |
rabbit |
| J Tan, A H Epema, J Voog. Zonal organization of the flocculovestibular nucleus projection in the rabbit: a combined axonal tracing and acetylcholinesterase histochemical study. The Journal of comparative neurology. vol 356. issue 1. 1995-09-07. PMID:7629309. |
5:279-283) that purkinje cells of the rabbit flocculus projecting to the medial vestibular nucleus are located in two discrete zones, fzii and fziv, that alternate with two other purkinje cell zones, fzi and fziii, projecting to the superior vestibular nucleus. |
1995-09-07 |
2023-08-12 |
rabbit |
| J Tan, A H Epema, J Voog. Zonal organization of the flocculovestibular nucleus projection in the rabbit: a combined axonal tracing and acetylcholinesterase histochemical study. The Journal of comparative neurology. vol 356. issue 1. 1995-09-07. PMID:7629309. |
anterograde tracing from small injections of wheat germ agglutin-horseradish peroxidase in single purkinje cell zones of the flocculus showed that purkinje cell axons of fzii travel in fc2 to terminate in the medial vestibular nucleus. |
1995-09-07 |
2023-08-12 |
rabbit |
| M Yamano, M Tohyam. Distribution of corticotropin-releasing factor and calcitonin gene-related peptide in the developing mouse cerebellum. Neuroscience research. vol 19. issue 4. 1994-10-20. PMID:8090368. |
in addition, crf-ir dense fiber plexuses were detected from postnatal day (pd) 2 to 9, in the developing purkinje cell layer of the vermal lobules, paraflocculus, flocculus and crus 1 ansiform lobule, gradually forming a pericellular nest around the purkinje cell somata. |
1994-10-20 |
2023-08-12 |
mouse |
| M It. Neurophysiology of the nodulofloccular system. Revue neurologique. vol 149. issue 11. 1994-10-20. PMID:8091081. |
the nodulus is divided into 6 zones and the flocculus into 7 zones, each of which receives ascending fiber projections from a small region of the inferior olive and which projects purkinje cell axons to a small group of cerebellar or vestibular nuclear neurons. |
1994-10-20 |
2023-08-12 |
Not clear |
| C Pierrot-Deseilligny, B Gaymar. Smooth pursuit disorders. Bailliere's clinical neurology. vol 1. issue 2. 1994-04-26. PMID:1344078. |
these anatomical and physiological characteristics of lateral smooth pursuit pathways, in addition to the results of lesion studies, suggest that, besides the floccular inhibitory purkinje cell, there is another inhibitory neurone in the circuitry preceding this cell, perhaps within the flocculus itself. |
1994-04-26 |
2023-08-11 |
Not clear |
| M Kano, M S Kano, K Maekaw. Optokinetic response of simple spikes of Purkinje cells in the cerebellar flocculus and nodulus of the pigmented rabbit. Experimental brain research. vol 87. issue 3. 1992-03-13. PMID:1783019. |
under anesthesia with n2o (70%) and halothane (2-4%), purkinje cell activities were extracellularly recorded in the flocculus and nodulus of immobilized pigmented rabbits. |
1992-03-13 |
2023-08-11 |
rabbit |
| Y Sato, T Kawasak. Operational unit responsible for plane-specific control of eye movement by cerebellar flocculus in cat. Journal of neurophysiology. vol 64. issue 2. 1990-11-16. PMID:2213132. |
main findings in our previous studies are as follows: 1) there are three purkinje cell zones running perpendicular to the long axis of the folia in the cat flocculus, 2) the caudal zone controls activity of the superior rectus (sr) and inferior oblique (io) extraocular muscles via the y-group and oculomotor nucleus (omn) neurons, and 3) the middle zone controls activity of the lateral (lr) and medial rectus (mr) muscles via the medial vestibular (mv) and abducens nucleus (abn) neurons. |
1990-11-16 |
2023-08-11 |
cat |
| D B Belknap, H Nod. Eye movements evoked by microstimulation in the flocculus of the alert macaque. Experimental brain research. vol 67. issue 2. 1987-10-13. PMID:3622694. |
by restricting current spread to specific layers of the flocculus, evidence was obtained that phase i was caused by the activation of molecular layer elements; it appeared to reflect the suppression of purkinje cell activity. |
1987-10-13 |
2023-08-11 |
monkey |
| J L Demer, D A Echelman, D A Robinso. Effects of electrical stimulation and reversible lesions of the olivocerebellar pathway on Purkinje cell activity in the flocculus of the cat. Brain research. vol 346. issue 1. 1985-12-16. PMID:3876867. |
effects of electrical stimulation and reversible lesions of the olivocerebellar pathway on purkinje cell activity in the flocculus of the cat. |
1985-12-16 |
2023-08-11 |
cat |
| W Waespe, D Rudinger, M Wolfensberge. Purkinje cell activity in the flocculus of vestibular neurectomized and normal monkeys during optokinetic nystagmus (OKN) and smooth pursuit eye movements. Experimental brain research. vol 60. issue 2. 1985-12-13. PMID:4054269. |
purkinje cell activity in the flocculus of vestibular neurectomized and normal monkeys during optokinetic nystagmus (okn) and smooth pursuit eye movements. |
1985-12-13 |
2023-08-11 |
monkey |
| Y Miyashita, S Naga. Analysis of signal content of Purkinje cell responses to optokinetic stimuli in the rabbit cerebellar flocculus by selective lesions of brainstem pathways. Neuroscience research. vol 1. issue 4. 1985-09-25. PMID:6536897. |
analysis of signal content of purkinje cell responses to optokinetic stimuli in the rabbit cerebellar flocculus by selective lesions of brainstem pathways. |
1985-09-25 |
2023-08-12 |
rabbit |
| G C Bangma, H J ten Donkelaa. Cerebellar efferents in the lizard Varanus exanthematicus. I. Corticonuclear projections. The Journal of comparative neurology. vol 228. issue 3. 1984-11-19. PMID:6480921. |
after hrp slow-release gels were implanted in the cerebellar nuclei or various parts of the vestibular nuclear complex, the following longitudinally oriented zones of labeled purkinje cells could be distinguished: a medial zone projecting to the medial cerebellar nucleus; an intermediate zone projecting to the vestibular nuclear complex, especially the ventrolateral vestibular nucleus, but probably also the dorsolateral vestibular nucleus; a caudolaterally located area of the cerebellar cortex projecting to the lateral cerebellar nucleus; and the flocculus and the adjacent lateral part of the purkinje cell layer with projections to the middle and caudal parts of the vestibular nuclear complex, i.e., the descending and ventromedial vestibular nuclei. |
1984-11-19 |
2023-08-12 |
Not clear |
| U Büttner, W Waesp. Purkinje cell activity in the primate flocculus during optokinetic stimulation, smooth pursuit eye movements and VOR-suppression. Experimental brain research. vol 55. issue 1. 1984-08-31. PMID:6745359. |
purkinje cell activity in the primate flocculus during optokinetic stimulation, smooth pursuit eye movements and vor-suppression. |
1984-08-31 |
2023-08-12 |
monkey |
| U Büttner, W Waesp. Purkinje cell activity in the primate flocculus during optokinetic stimulation, smooth pursuit eye movements and VOR-suppression. Experimental brain research. vol 55. issue 1. 1984-08-31. PMID:6745359. |
purkinje cell (pc) activity in the flocculus of trained monkeys was recorded during: 1) vestibular stimulation in darkness. |
1984-08-31 |
2023-08-12 |
monkey |
| Y Sato, F Yamamoto, H Shojaku, T Kawasak. Neuronal pathway from floccular caudal zone contributing to vertical eye movements in cats--role of group y nucleus of vestibular nuclei. Brain research. vol 294. issue 2. 1984-05-24. PMID:6704737. |
these data support the interpretation that purkinje cell activity in the caudal zone of the flocculus can evoke vertical eye movements by inhibiting the activity of neurons of the group y nucleus. |
1984-05-24 |
2023-08-12 |
Not clear |
| M Ito, I Orlov, M Yamamot. Topographical representation of vestibulo-ocular reflexes in rabbit cerebellar flocculus. Neuroscience. vol 7. issue 7. 1982-12-02. PMID:7121830. |
the effects of microstimulation of the flocculus purkinje cell layer on vestibular nerve-evoked reflexes to ipsilateral medial rectus, ipsilateral superior rectus and contralateral inferior oblique muscles were explored by recording electromyographically. |
1982-12-02 |
2023-08-12 |
rabbit |
| V Chan-Palay, G Nilaver, S L Palay, M C Beinfeld, E A Zimmerman, J Y Wu, T L O'Donohu. Chemical heterogeneity in cerebellar Purkinje cells: existence and coexistence of glutamic acid decarboxylase-like and motilin-like immunoreactivities. Proceedings of the National Academy of Sciences of the United States of America. vol 78. issue 12. 1982-05-21. PMID:7038682. |
the significant motilin representation in the flocculus, paraflocculus, and vermis suggests that it may be the purkinje cell mediative chemical in the vestibular parts of the cerebellum. |
1982-05-21 |
2023-08-12 |
mouse |
| C D Balaban, M Ito, E Watanab. Demonstration of zonal projections from the cerebellar flocculus to vestibular nuclei in monkeys (Macaca fuscata). Neuroscience letters. vol 27. issue 2. 1982-03-22. PMID:6172751. |
these three bands cover about one-half of the total area of the purkinje cell layer of flocculus. |
1982-03-22 |
2023-08-12 |
monkey |
| H Noda, D A Suzuk. The role of the flocculus of the monkey in saccadic eye movements. The Journal of physiology. vol 294. 1980-02-28. PMID:117100. |
purkinje cell discharges were recorded from the flocculus of monkeys either spontaneously making saccadic eye movements (saccades) or trained to fixate a small visual target presented on a tangent screen. |
1980-02-28 |
2023-08-11 |
monkey |