An open, multicentre study was performed to assess efficacy, safety and acceptability of the single-rod contraceptive implant Implanon. The study involved 635 young healthy women, who were sexually active and of childbearing potential. The women were followed up every 3 months over the entire study period. Originally the study was designed for 2 years, but was extended to 3 years in a group of 147 women from two centres. Altogether, 21 centres in nine different countries participated. The average age of the women was 29 years (range 18-42 years), of whom 83.5% had been pregnant in the past. No pregnancy occurred during treatment with Implanon, resulting in a Pearl Index of 0 (95% confidence interval: 0.0-0.2). In the first 2 years, 31% had discontinued the treatment. Of the 147 women in the study extension, nine discontinued (6%) treatment. Bleeding irregularities was the main reason for discontinuation during the first 2 years of use (17.2%) and adverse experiences in the third year (3.4%). Implant insertion and removal were fast and uncomplicated in the vast majority (97%) of cases. Return of fertility was prompt. In conclusion, Implanon has excellent contraceptive action during its lifetime of 3 years. The safety profile is acceptable and not essentially different from progestogens in general.
The metabolism of RU 486 was studied in female volunteers following a single oral administration of 100, 400, 600 or 800 mg of RU 486. The serum concentrations of RU 486 were generally not affected by the dose within the range examined and they stayed at micromolar concentrations during the 48 h studied. RU 486 was metabolized extensively in a dose-dependent manner by two-step demethylation, and by hydroxylation. Serum levels of the monodemethylated metabolite always exceeded those of RU 486. The concentrations of the didemethylated and hydroxylated metabolites equalled or exceeded those of RU 486 when the ingested dose was 400 mg or more. Monodemethylation and hydroxylation were rapid high-capacity reactions, whereas didemethylation was a lower-capacity reaction. In each group of different dosage, positive correlations were found between the individual mean alpha 1-acid glycoprotein (AAG) concentrations and the peak concentration of RU 486 measured at 1-2 h, versus the plateau concentration of RU 486 measured at 6 h. The in-vitro studies showed that the specific serum transport protein of RU 486, AAG, was saturated by RU 486 concentrations exceeding 2.5 microM. In serum at 40 nM and 2.5 microM RU 486 concentrations, 2.7% and 2.4%, respectively, of [3H]RU 486 was not protein bound. Purified AAG in phosphate buffer was able to bind [3H]RU 486 in a similar manner to that of serum. Thus our results suggest that AAG regulates in part the serum concentrations of RU 486, and RU 486 exceeding the specific serum transport capacity is effectively metabolized.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.