Ten biochemical parameters total protein, albumin, glucose, cholesterol, urea, creatinine, total bilirubin, ALT, AST, APh were determined during long-term light mode changes in serum of rats. Changing the light mode, a number of parameters revealed unreliable 24-hour rhythms. An ultradian 12-hour reliable rhythm has been for serum total protein of rats exposed to constant darkness during 1 month. The light-modified model can be used to study the effects of the chemical factor in combination with the physical factor of the external environment, as well as in preclinical toxicity tests of medicinal substances in different light modes.
We experimentally studied the possibility of using a peptide extract from the pituitary gland of a reindeer (Rangifer tarandus) to correct the functional state of the body under the combined effect of acute severe poisoning with sodium thiopental in rats, at a dose of LD50 under long-term light desynchronosis. The research was conducted using the statistical method of two-factor analysis of variance. It was found that, under constant light, a peptide extract from the pituitary gland of a reindeer affects such parameters as diene conjugates concentration, the activity of glutathione-S-transferase and glucose-6-phosphate dehydrogenase. Under prolonged darkness, the extract under study affected the activity of glutathione-S-transferase, glutathione peroxidase and glucose-6-phosphate dehydrogenase.
This research was aimed at creating novel domestic medical preparations with a modified release of active peptide substances obtained from renewable sources of biological materials. These preparations can be used for the purposes of pharmacological correction of desynchronosis by the action of biologically active substances on the processes of lipid peroxidation and antioxidant protection of cells in order to increase the body's resistance to the negative effects of various stress factors. The conducted studies have confirmed the efficacy of modified-release peptide extracts when correcting the body's oxidative status in various types of desynchronosis.
In the course of improving the pilot-scale technology for manufacturing a liposomal substance of biologically active substances (BAS) isolated from the gland secretion of musk deer, the authors established operations and modes to ensure the production of liposomes with the specified stability parameters (shape, hydrodynamic diameter, charge, and polydispersity index) in full compliance with GMP requirements and the maximum inclusion of BAS from deer musk into liposomes with the preservation of the initial biological activity of its most important components. The established modes provide for a two-fold reduction in the technological cycle duration with the substance yield of more than 90%. The improved technology ensures the production of at least 80% of liposomes with the main liposome fraction in experimental samples in the range of 200+50 nm and 250+100 nm for the final substance (before lyophilization) and after its recovery (rehydration), respectively, which is considered optimal for transmucosal drug administration. The polydispersity index was less than 0.3, and the zeta (Z)-potential was less than -35 mV. The quality indicators characterizing the dispersity of the resulting liposomal substance were studied by conventional analytical methods (dynamic light scattering, electron microscopy). On the basis of the obtained results, a draft specification for a liposomal substance (powder) containing a complex of BAS isolated from deer musk was finalized.
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