Participation of Free-Radical Processes in Structural and Metabolic Disturbances in the Lung Tissues Caused by Exposure to Coal-Rock Dust and their Adaptogenic Correction.

Adaptive correction of structural and metabolic disturbances in the lungs caused by longterm exposure to coal-rock dust were studied in experiments on rats. It was shown that the complex antioxidant preparation containing dihydroquercetin compensated disturbances in the redox balance in the lung tissue, prevented the formation of dust granulomas, and reduced the severity of degenerative changes in the bronchopulmonary system.

Correction of Abnormalities Provoked by Long-Term Alcoholization with Hypoxic-Hyperoxic Training.

Free radical oxidation in the liver and skeletal muscles as well as stress behavior were examined in rats subjected to a gradual long-term alcoholization with elevated ethanol content from 10 to 40% followed by correction of alcohol-induced disturbances with hypoxic-hyperoxic training. The elevated plus-maze test revealed increased anxiety and appearance of risky behavior in alcoholized rats in the absence of changes in motor and orientation activity. In the liver and skeletal muscles of alcoholized rats, free radical oxidation processes were decompensated despite activation of antioxidant enzymes.

Addition of Hyperoxic Component to Adaptation to Hypoxia Prevents Impairments Induced by Low Doses of Toxicants (Free Radical Oxidation and Proteins of HSP Family).

We studied the possibility of preventing disturbances caused by administration of low doses of toxicants by adaptation to interval hypoxia and hyperoxia. The preventive protective effect of adaptation to hypoxia-hyperoxia manifested in suppression of free radical oxidation, decrease in the levels of HIF-1α and inducible HOx-1, and improvement of tolerance to physical exercises.

[MAXIMUM SINGLE DOSE OF COLLOIDAL SILVER NEGATIVELY AFFECTS ERYTHROPOIESIS IN VITRO].

Erythroblastic islets (EI) of rat bone marrow were cultured for 24 h in the presence of silver nanoparticles (1.07 · 10(-4) mg/ml; 1.07 · 10(-3) mg/ml; and 1.

Effects of fullerenol C₆₀(OH)₂₄ on erythropoiesis in vitro.

The effects of fullerenol C60(OH)24 in doses of 0.1-100 μg/ml on erythropoiesis were studied in the culture of erythroblastic islets of the bone marrow. Fullerenol in concentrations of 10 and 100 μg/ml had negative effects on the development of erythroid tissue: it inhibits proliferation of erythroid cells, delays erythroblast maturation, decelerates recruitment of erythroid CFU to differentiation, and suppresses repeated involvement of macrophages in erythroblastic islets.