Effect of subacute oral doses of nivalenol on immune and metabolic defence systems in mice.

Nivalenol (NIV) is a toxic Fusarium secondary trichothecene metabolite occurring naturally in cereal grains. In order to evaluate the no observed adverse effect level (NOAEL), we tested the effects of a large array of oral doses of this toxin for responses on plasma biochemistry, the immune system and hepatic drug metabolism in mice. C57Bl6 mice received oral doses of toxin (0.

Adipose tissue proadipogenic redox changes in obesity.

The role of inflammation and oxidative stress in the development of obesity and associated metabolic disorders is under debate. We investigated the redox metabolism in a non-diabetic obesity model, i.e.

Individual and combined effects of low oral doses of deoxynivalenol and nivalenol in mice.

Deoxynivalenol (DON) and nivalenol (NIV) are toxic Fusarium secondary trichothecene metabolites that often co-occur regularly in cereal grains. These compounds were compared for their toxicity towards C57BL/6 mice on several parameters including alteration in plasma biochemistry, immune system reactivity and hepatic drug metabolism capacity. Mice received individual or combined oral doses of each toxin: 0.

Reference range for micronutrients and nutritional marker proteins in cord blood of neonates appropriated for gestational ages.

Background: Reference values of numerous micronutrients at different gestational ages (GA) have not been yet reported based on large series.

Aims: This study aimed to establish the reference range for zinc, copper, selenium, vitamin A, vitamin E, retinol binding protein, transthyretin, albumin, transferrin and ceruloplasmin in neonates and to give the profiles according to gestational age.

Study Design: A total of 510 infants appropriate for gestational age were included in the study.

Biological validation of coenzyme Q redox state by HPLC-EC measurement: relationship between coenzyme Q redox state and coenzyme Q content in rat tissues.

The properties of coenzymes Q (CoQ9 and CoQ10) are closely linked to their redox state (CoQox/total CoQ) x 100. In this work, CoQ redox state was biologically validated by high performance liquid chromatography-electrochemical measurement after modulation of mitochondrial electron flow of cultured cells by molecules increasing (rotenone, carbonyl cyanide chlorophenylhydrazone) or decreasing (antimycin) CoQ oxidation. The tissue specificity of CoQ redox state and content were investigated in control and hypoxic rats.