The pharmacokinetics of E-6087, a newly developed cyclooxygenase-2 inhibitor, was studied in rats and dogs after single oral and intravenous doses. In both animal species, E-6087 was characterized by a long elimination half-life (20-35 h), a low plasma clearance (0.10-0.22 l h(-1) kg(-1)) and a relatively large volume of distribution (2-6 l kg(-1)). Oral bioavailability was lower in dogs than in rats whereas a faster elimination was found in rats. Multiple peaks were present regardless of administration route and animal species, suggesting the existence of enterohepatic circulation. Gender effect on the pharmacokinetics of E-6087 was only found in rats, with greater exposure and longer elimination in females than in males. Food intake reduced the bioavailability (approximately 22%) with no apparent changes in the absorption rate. After oral dosing of 1, 5 and 25 mg kg(-1) to rats, linearity was lost at the highest dose due to the low aqueous solubility of E-6087. Drug absorption was improved by micronization. E-6087 and E-6132, (a pharmacologically active metabolite), showed different pharmacokinetics. The higher percentage of E-6087 at early times suggests that E-6087 is the main compound responsible for in vivo activity, although E-6132 would contribute to the activity at later times.
1. The pharmacokinetics of cizolirtine citrate, a new analgesic compound, were studied in the rat and dog following single oral and intravenous doses. 2. Absorption of radioactivity was fast and complete regardless of the species, and no dose and food-related differences were found. However, the elimination half-life of unchanged cizolirtine was shorter in rat than in dog. 3. Tissue distribution of total radioactivity in rat differed widely and a high affinity for liver, kidney, gastrointestinal and pigmented tissues was observed. In blood and almost all tissues the highest concentrations were reached at 20 min; beyond that time the decline of radioactivity in most tissues was parallel to that in blood. 4. The percentage of radioactivity excreted in the rat was 68% in urine and 21% in faeces, the latter being apparently due to drug enterohepatic circulation. In the dog, 92 and 4% of the radioactivity was found in urine and faeces respectively. The contribution of renal excretion to cizolirtine elimination was <5% in rat and 20% in dog. Twelve metabolites were detected in rat and six in the dog by radio-hplc analysis of urine.
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