Structure chimique et propriétés extrême-pression de sulfures et de polysulfures organiques

Les propriétés extrême-pression (E.P.) de quelques additifs organiques polysulfurés ont été étudiées dans différentes conditions de contacts lubrifiés : Machines 4 billes, Timken, à engrenages FZG. Les résultats obtenus montrent que les propriétés E.P. dépendent de la structure chimique des polysulfurés étudiés et des conditions mécaniques de la lubrification. Un modèle mathématique, s’appuyant sur les caractéristiques en spectrométrie de masse et sur les performances mécaniques mesurées pour quelques additifs, permet de prévoir les propriétés E.P. des additifs soufrés sur la machine 4 billes

Effects of a selenium deficient diet on thyroid function of normal and perchlorate treated rats

Pregnant rats were submitted to a selenium-deficient diet immediately after mating; it was continued for 4 weeks after delivery. The pups were sacrificed at 3 and 4 weeks of age. Perchlorate, an antithyroid agent inhibiting iodide trapping in the thyroid, was administered via the drinking water to half of the rats. Rats submitted to a normal laboratory diet and to the experimental diet supplemented with selenium were used as controls. The effects of selenium deficiency were an increase in the number of growth abnormalities, growth retardation, and decreased seleno-dependent glutathione peroxidase (GSH-Px) activity in plasma and in various organs. These effects were relieved by selenium supplementation in the diet. Perchlorate treatment induced the classic picture of primary hypothyroidism. Selenium deficiency increased thyroid hormone levels in perchlorate-treated rats and in controls drinking tap water. In the latter group, it also decreased TSH plasma concentration and thyroid weight. These effects were partially reversed by Se supplementation. In vitro experiments, performed on adult rats, revealed increased radioiodide uptake and organification in glands from the rats submitted to the selenium-free diet. Plasma T3 half-life was similar in control and Se-deficient rats. These data suggest a higher efficiency of thyroid hormone synthesis in the thyroids of selenium-deficient rats, despite a lower thyroid stimulation as evaluated by serum TSH. They are compatible with the hypothesis that decreased selenium supply, leading to a decreased GSH-Px in the thyroid, increases hydrogen peroxide steady state level and thus thyroid peroxidase activity and thyroid hormone synthesis.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe