Distribution of visual callosal projection neurons in the siamese cat: an HRP study.

F. Tremblay; M. Ptito; F. Lepore; D. Miceli; J. P. Guillemot

Distribution of visual callosal projection neurons in the siamese cat: an HRP study.

F. Tremblay, M. Ptito, F. Lepore, D. Miceli, J. P. Guillemot

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Résumé

In this experiment we studied the distribution of callosal cells in various visual cortical areas of both common and siamese cats using the HRP method. The results showed that the most notable difference between the two strains concerned the primary visual areas. Indeed, labeling in areas 17 and 18 was significantly lower in siamese cats and only a few scattered cells were encountered at the 17/18 border. In general, the number of callosal cells forming interhemispheric connections within areas 17, 18 and the 17/18 border was dramatically reduced in the siamese. For all other visual areas (19, lateral suprasylvian subdivisions, 20 a, b and 21 a, b) the distribution was comparable for both species. A study of the laminar distribution indicated that, for common and siamese cats, medium and large pyramidal cells were mainly concentrated in layers III and IV whereas in deeper layers we found a mixture of small pyramidal and fusiform neurons.

Langue d'origine	English
Pages (de-à)	491-503
Nombre de pages	13
Journal	Journal für Hirnforschung
Volume	28
Numéro de publication	5
Statut de publication	Published - 1987
Publié à l'externe	Oui

ASJC Scopus Subject Areas

General Neuroscience

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title = "Distribution of visual callosal projection neurons in the siamese cat: an HRP study.",

abstract = "In this experiment we studied the distribution of callosal cells in various visual cortical areas of both common and siamese cats using the HRP method. The results showed that the most notable difference between the two strains concerned the primary visual areas. Indeed, labeling in areas 17 and 18 was significantly lower in siamese cats and only a few scattered cells were encountered at the 17/18 border. In general, the number of callosal cells forming interhemispheric connections within areas 17, 18 and the 17/18 border was dramatically reduced in the siamese. For all other visual areas (19, lateral suprasylvian subdivisions, 20 a, b and 21 a, b) the distribution was comparable for both species. A study of the laminar distribution indicated that, for common and siamese cats, medium and large pyramidal cells were mainly concentrated in layers III and IV whereas in deeper layers we found a mixture of small pyramidal and fusiform neurons.",

author = "F. Tremblay and M. Ptito and F. Lepore and D. Miceli and Guillemot, {J. P.}",

year = "1987",

language = "English",

volume = "28",

pages = "491--503",

journal = "Journal f{\"u}r Hirnforschung",

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TY - JOUR

T1 - Distribution of visual callosal projection neurons in the siamese cat

T2 - an HRP study.

AU - Tremblay, F.

AU - Ptito, M.

AU - Lepore, F.

AU - Miceli, D.

AU - Guillemot, J. P.

PY - 1987

Y1 - 1987

N2 - In this experiment we studied the distribution of callosal cells in various visual cortical areas of both common and siamese cats using the HRP method. The results showed that the most notable difference between the two strains concerned the primary visual areas. Indeed, labeling in areas 17 and 18 was significantly lower in siamese cats and only a few scattered cells were encountered at the 17/18 border. In general, the number of callosal cells forming interhemispheric connections within areas 17, 18 and the 17/18 border was dramatically reduced in the siamese. For all other visual areas (19, lateral suprasylvian subdivisions, 20 a, b and 21 a, b) the distribution was comparable for both species. A study of the laminar distribution indicated that, for common and siamese cats, medium and large pyramidal cells were mainly concentrated in layers III and IV whereas in deeper layers we found a mixture of small pyramidal and fusiform neurons.

AB - In this experiment we studied the distribution of callosal cells in various visual cortical areas of both common and siamese cats using the HRP method. The results showed that the most notable difference between the two strains concerned the primary visual areas. Indeed, labeling in areas 17 and 18 was significantly lower in siamese cats and only a few scattered cells were encountered at the 17/18 border. In general, the number of callosal cells forming interhemispheric connections within areas 17, 18 and the 17/18 border was dramatically reduced in the siamese. For all other visual areas (19, lateral suprasylvian subdivisions, 20 a, b and 21 a, b) the distribution was comparable for both species. A study of the laminar distribution indicated that, for common and siamese cats, medium and large pyramidal cells were mainly concentrated in layers III and IV whereas in deeper layers we found a mixture of small pyramidal and fusiform neurons.

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Distribution of visual callosal projection neurons in the siamese cat: an HRP study.

Résumé

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