Excretion and metabolism of desogestrel in healthy postmenopausal women.

The metabolism of desogestrel (13-ethyl-11-methylene-18,19-dinor-17alpha-pregn-4-en-20-yn-17-ol), a progestagen used in oral contraceptives and hormone replacement therapy, was studied in vivo after a single oral administration of 150 microg [14C]-labeled desogestrel and 30 microg ethinylestradiol under steady state conditions to healthy postmenopausal women. After this oral administration, desogestrel was extensively metabolized. The dosed radioactivity was predominantly ( approximately 60%) excreted via urine, while about 35% was excreted via the feces. Desogestrel was metabolized mainly at the C3-, C5-, C6- and C13-CH(2)CH(3) positions. At the C3-position, the 3-keto moiety was found and in addition, 3beta-hydroxy and 3alpha-hydroxy groups were observed in combination with a reduced Delta(4)-double bond (5alpha-H). Hydroxy groups were introduced at the C6- (6beta-OH), the C13-ethyl (C13-CH(2)CH(2)OH) and possibly the C15- (15alpha-OH) position of desogestrel. Conjugation of the 3alpha-hydroxy moiety with sulfonic acid and conjugation with glucuronic acid were also major metabolic routes found for desogestrel in postmenopausal women. The 3-keto metabolite of desogestrel (the biologically active metabolite) was the major compound present in plasma at least up to 24 h after administration of the radioactive dose. Species comparison of the metabolic routes of desogestrel after oral administration indicates that in rats and dogs desogestrel is also mainly metabolized at the C3-position, similar to what is now found for postmenopausal women. Most other metabolic routes of desogestrel were found to differ between species. Finally, major metabolic routes found in the present study in postmenopausal women are in line with outcome of previous in vitro metabolism studies with human liver tissue (microsomes and postmitochondrial liver fractions) and intestinal mucosa.

Excretion balance and metabolism of the progestagen Org 30659 in healthy postmenopausal women.

Metabolism of Org 30659 ((17alpha)-17-hydroxy-11-methylene-19-norpregna-4, 15-dien-20-yn-3-one), a new potent progestagen currently under clinical development by NV Organon for use in oral contraception and hormone replacement therapy, was studied in vivo after oral administration to healthy postmenopausal women. After oral administration of [14C]-Org 30659 to postmenopausal women, the compound was extensively metabolized. The dosed radioactivity was predominantly excreted via urine. Org 30659 was to a large extent metabolized at the C3- and the C17-positions. Phase II metabolism, and in particular conjugation with glucuronic acid at the 17beta-hydroxy group, is the major metabolic route for Org 30659 in vivo. Not only phase II metabolism was observed for Org 30659 after oral administration to postmenopausal volunteers, but also metabolism in the A-ring occurred, especially reduction of the 3-keto-Delta(4) moiety to give 3alpha-hydroxy, 5alpha(beta)-dihydro and 3beta-hydroxy, 5alpha-dihydro derivatives. Oxidative metabolism (6beta-hydroxylation) observed in human liver preparations in vitro, was not observed to a significant extent in vivo. So, in vitro human metabolism is different from the in vivo metabolism, indicating that the in vitro-in vivo extrapolation is far from straightforward, at least when only liver preparations are used. The proper choice of the in vitro system (e.g., microsomes, hepatocytes, slices or individually expressed enzymes) and the substrate concentration can be very important determinative factors for the predictability of the in vitro system for the in vivo situation. Species comparison of the metabolic routes of Org 30659 after oral administration indicated that the monkey seems to be a better representative species than the rat for the metabolism of Org 30659 in humans.