Galagdyna A. The morphofunctional condition of the tissues of the oral cavity and their hemocirculatory channels in case of a combined action of an experimental diabetes and of ischemic and reperfusion damage of the brain.

Українська версія

Thesis for the degree of Candidate of Sciences (CSc)

State registration number

0413U005337

Applicant for

Specialization

  • 14.03.04 - Патологічна фізіологія

28-08-2013

Specialized Academic Board

К 76.600.02

Essay

Object -streptozotocyn-induced diabetes with the ischemic and reperfusion damage of the brain; the purpose - to establish pathobiochemical features of infringement of a condition various parts a mucous membrane of a mouth and big salivary glands, their vessels hemocirculation channels at complication experimental diabetes ischemia with reperfusion of different duration; methods - physiopathologycal, biochemical, mathematicaland the results -the thesis has studied the effect of the streptozotocyn-induced diabetes and global ischemia of the brain and subsequent reperfusion periods of a diverse duration; It has been demonstrated that the level of nitric oxide metabolites increases under the conditions of 20-minute ischemia and 1- and 24-hour reperfusion. The introduction of L-arginine is conducive to a still larger increase of these indices which reach maximum values under 24-hour reperfusion in all the fields of the hippocampus. A stimulation of the synthesis of nitric oxide augments the tissue fibrinolytic activity in all the hippocampal fields both in case of ischemia and during reperfusion periods. As to the tissue proteolytic activity there occurs an augmentation of the lysis of low- and high molecular weight proteins under the conditions of introducing L-arginine. The donor of nitric oxide diminishes the degree of an increase of the products of lipid peroxidation during both reperfusion periods. L-arginine does not influence on the activity of the antioxidant enzymes of superoxide dismutase and catalase, whereas it enhances the activity of glutathione peroxidase. Nitric oxide stimulates the pentose phosphate pathway of the glucose exchange under the conditions of ischemia-reperfusion via an activation of its key enzyme - glucose-6-phosphate dehydrogenase.

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