The effects of a benzopyrone derivative in experimental brain edema due to cold in the rabbit

On this study, parenchymal changes during a cerebral edema caused by thermic injury (cool) on the rabbit, are analyzed. The work was based on the ultrastructural findings obtained by transmission electronic microscopy and on the effects produced by a benzopironic derived (F-117 Hydrosmina). The inju...

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Bibliographic Details
Published inAngiologia Vol. 45; no. 2; p. 59
Main Authors Góngora Castillo, C, Gómez de Segura, I A, López Bravo, A, de Miguel del Campo, E
Format Journal Article
LanguageSpanish
Published Spain 01.03.1993
Subjects
Animals
Brain - ultrastructure
Brain Edema - drug therapy
Brain Edema - etiology
Brain Edema - pathology
Cold Temperature - adverse effects
Diosmin - analogs & derivatives
Diosmin - therapeutic use
Disease Models, Animal
Drug Evaluation, Preclinical
Microscopy, Electron
Rabbits
Time Factors
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Summary:On this study, parenchymal changes during a cerebral edema caused by thermic injury (cool) on the rabbit, are analyzed. The work was based on the ultrastructural findings obtained by transmission electronic microscopy and on the effects produced by a benzopironic derived (F-117 Hydrosmina). The injury was produced with solid CO2, previous a craniectomy, on the dura mater of the left hemisphere. Forty rabbits were included into the study, the animals were distributed into five groups (n = 8): a control group and 4 treatment groups. One of the groups received treatment without previous cerebral injury. The group of rabbits with doses of 50 mg/Kg of weight showed focal and diffuse areas of edema alternating with less damaged areas, the edema was evident on the white substance. This group also showed a dissociation of the myelinic fibers and an intracytoplasmatic tumefaction into the glial cells. These findings contrast with the histopathological findings obtained from the rabbits (V), the extracellular edema was poor, the myelinic fiber disorganization was minimal with no vacuolar degeneration and no structural mitochondrial changes had been showed. The discontinuance of the hematoencephalic barrier caused by the cool could be a possible mechanism that causes the opening of the endothelial unions from the capillary vessels, changing their membranes and resulting in a free penetration of the molecule into the cerebral parenchyma.
ISSN:0003-3170