[Functional activity of blood and liver cells under formaldehyde intoxication via inhalation].

The influence of formaldehyde (of 5 and 10 mg/m3) on the state of the antioxidant system the blood and liver of rats, the activity of pentose phosphate pathway enzymes, and weight of immune organs was investigated. Formaldehyde intoxication led to activation of lipid peroxidation processes in red blood cells and hepatocytes. In the liver cells these changes were accompanied by activation of the antioxidant and detoxification systems. Formaldehyde depleted thiamine diphosphate in the liver, and this effect was not dose-dependent. The number of blood cells remained unchanged. Formaldehyde at the concentration of 10 mg/m3 exerted the negative effect on the thymus. This effect may be related to stimulation of lipid peroxidation.

LPO and ethanol biotransformation systems in the liver as markers of predisposition to ethanol hepatotoxicity.

An original experimental model for detecting organ-specific markers of predisposition to ethanol hepatotoxicity is proposed. A relationship between congenital activity of LPO processes in rat liver (before ethanol intoxication) and the type and severity of ethanol-induced damage to the liver was demonstrated using methods of mathematical modeling. It was proven that intact rats with genetically high MDA levels in the liver and more active systems of MDA generation in ascorbate- and NADPH-dependent reactions are prone to ethanol-induced damage to the liver.