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General principles of cerebellar organization: correlating anatomy, physiology and biochemistry in the pigeon vestibulocerebellumPakan, Janelle Unknown Date
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General principles of cerebellar organization: correlating anatomy, physiology and biochemistry in the pigeon vestibulocerebellumPakan, Janelle 11 1900 (has links)
The cerebellum has historically been implicated solely in motor coordination. However, we now know it is a major associative center for sensory input. For example, the vestibulocerebellum (VbC) receives a large projection from retinal recipient nuclei in the Accessory Optic System and pretectum; these nuclei analyze visual optic flow information during self-motion and ultimately function in gaze stabilization. In birds, these nuclei project to the cerebellum directly, as mossy fibres, and indirectly as climbing fibres via the inferior olive. Therefore, there are parallel pathways carrying visual information to the cerebellum; these pathways show a remarkable modular organization. In fact, the pattern of cerebellar afferent and efferent connections, the physiological response properties of Purkinje cells, and a variety of molecular markers, all provide abundant evidence that the vertebrate cerebellum is organized into parasagittal zones. This modular organization exists across several different vertebrate species, suggesting that this basic principle of organization has been evolutionarily conserved and is necessary for fundamental information processing in the cerebellum. Although recent advances have increased our understanding of cerebellar organization, the relationship between these parasagittal patterns and the functional behavior of the cerebellum remains unknown. This dissertation seeks to tie together various features of the zonal organization of the cerebellum, using molecular, electrophysiological and neuroanatomical techniques, and to relate this organization to visual motion processing in the VbC. To investigate the parasagittal biochemical organization we use the molecular marker, zebrin (aldolase C), which is expressed by a subset of Purkinje cells, creating a striped appearance in the cerebellar cortex. We provide the first evidence of the zebrin parasagittal expression pattern in an avian species and then further elucidated the relationship between zebrin stripes and the visual afferent climbing fibre input, mossy fibre input, and the physiological zones in the VbC. There is a substantial, and growing, body of evidence that now suggests a more fundamental cerebellar architecture is built around arrays of parasagittal modules. By understanding the basic principles underlying this organization, we gain insights that may lead to a better understanding of the principles of modular organization in the central nervous system in general. / Neuroscience
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Centros subcorticais dos sistemas visual prim?rio e ?ptico acess?rio no moc? (kerodon rupestris): caracteriza??o pela proje??o retiniana e citoarquitetura.Silva, Sebasti?o Franco da 08 September 2009 (has links)
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Previous issue date: 2009-09-08 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The primary and accessory optic systems comprise two set of retinorecipient neural clusters. In this study, these visual related centers in the rock cavy were evaluated by using the retinal innervations pattern and Nissl staining cytoarchigtecture. After unilateral intraocular injection of cholera toxin B subunit and immunohistochemical reaction of coronal and sagittal sections from the diencephalon and midbrain region of rock cavy. Three subcortical centres of primary visual system were identified, superior colliculus, lateral geniculate complex and pretectal complex. The lateral geniculate complex is formed by a series of nuclei receiving direct visual information from the retina, dorsal lateral geniculate nucleus, intergeniculate leaflet and ventral lateral geniculate nucleus. The pretectal complex is formed by series of pretectal nuclei, medial pretectal nucleus, olivary pretectal nucleus, posterior pretectal nucleus, nucleus of the optic tract and anterior pretectal nucleus. In the accessory optic system, retinal terminals were observed in the dorsal terminal, lateral terminal and medial terminal nuclei as well as in the interstitial nucleus of the superior fasciculus, posterior fibres. All retinorecipient nuclei received bilateral input, with a contralateral predominance. This is the first study of this
nature in the rock cavy and the results are compared with the data obtained for other species. The investigation represents a contribution to the knowledge regarding the organization of visual optic systems in relation to the biology of species. / Os sistemas visual prim?rio e ?ptico acess?rio compreendem dois conjuntos de grupamentos neurais, que recebem proje??o direta da retina. Nesse estudo, estes dois sistemas foram avaliados com rela??o a citoarquitetura e padr?o de inerva??o retiniana, usando como tra?ador neural anter?grado, a subunidade B da toxina col?rica revelada por imunoistoqu?mica para detectar este tra?ador em terminais sobre grupamentos neuronais (alvos) no enc?falo do moc? (Kerodon rupestris), um roedor nativo do Nordeste Brasileiro. Os resultados permitiram identificar os componentes do sistema visual prim?rio o complexo geniculado lateral, o complexo pr?-tectal e o col?culo superior. O complexo geniculado lateral cont?m o n?cleo geniculado lateral dorsal, o n?cleo geniculado lateral ventral e o folheto intergeniculado. Todos recebem fibras da retina com predomin?ncia contralateral, menos intensa para o folheto intergeniculado. O complexo pr?-tectal cont?m os n?cleos pr?-tectal anterior, pr?-tectal medial, pr?-tectal posterior, olivar pr?-tectal e n?cleo do trato ?ptico, os quais recebem proje??o retiniana predominantemente contralateral. Do mesmo modo, o col?culo superior recebe fibras da retina contralateral nas camadas superficiais. Tamb?m foi identificado o sistema ?ptico acess?rio completo no moc?, constitu?do pelos n?cleos terminal medial, terminal lateral, terminal dorsal e intersticial do fasc?culo superior posterior. Esses n?cleos recebem inerva??o retiniana com forte predomin?ncia contralateral, sendo que o n?cleo terminal medial, embora preserve a predomin?ncia contralateral, exibe uma evidente inerva??o ipsolateral.
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