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The influence of interhemispheric connections on ongoing and evoked orientation preference maps and spiking activity in the cat primary visual cortexAltavini, Tiago Siebert 29 January 2016 (has links)
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Previous issue date: 2016-01-29 / A atividade cerebral espont?nea exibe padr?es que lembram o de coativa??o de conjuntos neuronais em resposta a est?mulos ou tarefas. Estes padr?es tem sido atribu?dos a arquitetura funcional do c?rebro, e.g. conex?es de longo alcance em patches (manchas, fragmentos). N?s investigamos diretamente a contribui??o destas conex?es em patches entre hemisf?rios para mapas espont?neos e evocados na ?rea 18 pr?xima a borda 17/18 de gatos. Registramos mapas com imageamento por votage-sensitive dye (VSD) e atividade despiking enquanto manipulamos o input interhemisf?rico pela desativa??o revers?vel das ?reas correspondentes contralaterais. Durante a desativa??o os mapas espont?neos continuaram sendo gerados com frequ?ncia e qualidade semelhante ao da rede intacta, mas um vi?s de orienta??es cardinais desapareceu. Neur?nios com prefer?ncia por orienta??es horizontais (HN) ou verticais (VN), ao contr?rio dos de prefer?ncia obl?qua, diminuiram sua atividade de repouso, no entanto, HN tiveram a atividade diminu?da mesmo quando estimulados visualmente. Conclu?mos que mapas espont?neos estruturados s?o primariamente gerados por conex?es t?lamo- e/ou intracorticais. Entretanto, conex?es de longo alcance pelo corpo caloso - como um prolongamento da rede de longo alcance intracortical - contribui para um vi?s cardinal, possivelmente porque estas conex?es s?o mais fortes ou mais frequentes entre neur?nios preferindo orienta??es horizontais e/ou cardinais. Estes contornos s?o mais f?ceis de perceber e aparecem com mais frequ?ncia no ambiente natural, cone x?es de longo alcance podem prover o c?rtex visual com um grid de opera??es probabil?sticas de agrupamento em uma cena visual maior. / In the primary visual cortex, neurons with similar physiological features are clustered together in columns extending through all six cortical layers. These columns form modular orientation preference maps. Long-range lateral fibers are associated to the structure of orientation maps since they do not connect columns randomly; they rather cluster in regular intervals and interconnect predominantly columns of neurons responding to similar stimulus features. Single orientation preference maps ? the joint activation of domains preferring the same orientation - were observed to emerge spontaneously and it was speculated whether this structured ongoing activation could be caused by the underlying patchy lateral connectivity. Since long-range lateral connections share many features, i.e. clustering, orientation selectivity, with visual inter-hemispheric connections (VIC) through the corpus callosum we used the latter as a model for long-range lateral connectivity. In order to address the question of how the lateral connectivity contributes to spontaneously generated maps of one hemisphere we investigated how these maps react to the deactivation of VICs originating from the contralateral hemisphere. To this end, we performed experiments in eight adult cats. We recorded voltage-sensitive dye (VSD) imaging and electrophysiological spiking activity in one brain hemisphere while reversible deactivating the other hemisphere with a cooling technique. In order to compare ongoing activity with evoked activity patterns we first presented oriented gratings as visual stimuli. Gratings had 8 different orientations distributed equally between 0? and 180?. VSD imaged frames obtained during ongoing activity conditions were then compared to the averaged evoked single orientation maps in three different states: baseline, cooling and recovery. Kohonen self-organizing maps were also used as a means of analysis without prior assumption (like the averaged single condition maps) on ongoing activity. We also evaluated if cooling had a differential effect on evoked and ongoing spiking activity of single units.
We found that deactivating VICs caused no spatial disruption on the structure of either evoked or ongoing activity maps. The frequency with which a cardinally preferring (0? or 90?) map would emerge, however, decreased significantly for ongoing but not for evoked activity. The same result was found by training self-organizing maps with recorded data as input. Spiking activity of cardinally preferring units also decreased significantly for ongoing when compared to evoked activity. Based on our results we came to the following conclusions: 1) VICs are not a determinant factor of ongoing map structure. Maps continued to be spontaneously generated with the same quality, probably by a combination of ongoing activity from local recurrent connections, thalamocortical loop and feedback connections. 2) VICs account for a cardinal bias in the temporal sequence of ongoing activity patterns, i.e. deactivating VIC decreases the probability of cardinal maps to emerge spontaneously. 3) Inter- and intrahemispheric long-range connections might serve as a grid preparing primary visual cortex for likely junctions in a larger visual environment encompassing the two hemifields.
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