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Вплив кріоконсервованої сироватки кордової крові на репаративні процеси у тканині мозку щурів із гострою фокальною церебральною ішемією

Вплив кріоконсервованої сироватки кордової крові на репаративні процеси у тканині мозку щурів із гострою фокальною церебральною ішемією

The research was performed to investigate the possibility of stimulating reparative processes in rats with acute focal cerebral ischemia (AFCI) by  administering the cryopreserved cord blood serum (CCBS) of human. A comparative morphometric analysis of the structural components of the cerebral cort...

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Bibliographic Details
Main Authors: Lychko, Volodymyr S., Malakhov, Volodymyr O., Sukach, Oleksandr M.
Format: Article
Language:English
Published: Publishing House ‘Akademperiodyka’ of the National Academy of Sciences of Ukraine; Institute for Problems of Cryobiology and Cryomedicine 2019
Subjects:
гостра фокальна церебральна ішемія
некроз
репарація
кріоконсервована сироватка кордової крові
Online Access:https://cryo.org.ua/journal/index.php/probl-cryobiol-cryomed/article/view/1554
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Summary:The research was performed to investigate the possibility of stimulating reparative processes in rats with acute focal cerebral ischemia (AFCI) by  administering the cryopreserved cord blood serum (CCBS) of human. A comparative morphometric analysis of the structural components of the cerebral cortex sensor-motor area  was conducted in dynamics of treatment. The development of a potent neurotoxic effect during the AFCI was confirmed by qualitative and quantitative indices, in particular by the 4.57 times increase of  alterational and  in 3.62 times of the perineural satellite indices relative to the control. Degenerative processes were accompanied with powerful microcirculatory changes associated with the brain tissue swelling, as evidenced by a  rise in  average area of perivascular spaces by 45 times versus intact animals and pronounced secondary spasm of the vessels. The use of CCBS stimulated reparative processes in the necrotic zone by increasing the capillary density by 21.8% if compared to intact animals and prevented  the development of the blood-brain barrier and  membrane-receptor complex dysfunction. Probl Cryobiol Cryomed 2019; 29(3): 277–290.

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