Disposition of irbesartan, an angiotensin II AT1-receptor antagonist, in mice, rats, rabbits, and macaques.

Metabolism and disposition of irbesartan, an angiotensin II AT(1) receptor antagonist, were investigated in mice, rats, rabbits, and macaques. In both rats and macaques, irbesartan was characterized by a rapid oral absorption, a large volume of distribution, a low plasma clearance, and a long terminal half-life. The oral bioavailability in macaques was notably higher than in rats. Irbesartan was highly protein bound in rats and macaques. A lower binding rate was found in mice and rabbits. In distribution studies performed in rats, mice, and rabbits, irbesartan was rapidly distributed into most organs and tissues including brain, intrauterine area, and milk. No retention of radioactivity in tissues other than liver and kidney was noted. Irbesartan was the main circulating compound in rats, rabbits, and macaques representing a maximum of 67, 68, and 80% of plasma radioactivity, respectively. The drug was metabolized mainly by glucuronidation (primarily on the tetrazole ring), hydroxylation, and additional oxidation. The overall pathways within the different species generated 18 metabolites identified from bile, urine, and feces samples. Irbesartan did not significantly induce or inhibit most of the isoenzymes commonly associated with drug metabolism in either rats or macaques after oral administration for 1 month. In most species irbesartan and its metabolites were mainly excreted in feces with more than 80% of a radioactive dose recovered within 24 or 48 h. Enterohepatic circulation was demonstrated in rats and macaques.

Determination of lansoprazole and its metabolites in plasma by high-performance liquid chromatography using a loop column.

A high-performance liquid chromatographic method for the simultaneous determination of lansoprazole, a new proton pump inhibitor, and its metabolites in human plasma is described. Lansoprazole, its metabolites and an internal standard were extracted with tert.-butyl methyl ether. Samples were injected using an automatic injector via a loop column, and separation was obtained using a reversed-phase column under isocratic conditions. The absorbance was monitored at 285 and 303 nm. The quantification limit was 2 ng/ml for lansoprazole and 3 or 5 ng/ml for the metabolites. No endogenous compounds were found to interfere. The mean overall recovery was between 75 and 95% for lansoprazole and its metabolites. This method is suitable for pharmacokinetic studies.

[Application of a method of analysis using high performance liquid chromatography of isoniazid and acetylisoniazid to determine the phenotype of acetylation]. / Application d'une méthode de dosage de l'isoniazide et de l'acétylisoniazide par chromatographie liquide haute performance à la détermination du phénotype d'acétylation.

The described method is adapted from Moulin to measure plasma levels of isoniazid (INH) and acetylisoniazid (AINH) after extraction, HPLC separation and UV detection (254 nm). INH and AINH plasma levels of 109 patients aged between four months to 87 years were measured, allowing dosage individualization. The ratio of AINH to INH (Rm) three hours after administration was calculated. Rm allows determination of the patient acetylation phenotype: in fast acetylators with INH half-life shorter than 1.8 h, Rm is greater than 0.77 and in slow acetylators with INH half-life longer than 1.8 h, Rm is less than 0.48.