Abstract

ABSTRACT With over 30 years of use, levonorgestrel-releasing intrauterine systems (LNG-IUSs) have proven to be highly effective methods of contraceptives. The active ingredient in LNG-IUS, levonorgestrel (LNG), is released directly into the uterine cavity, which causes suppression of endometrial maturation and thickened cervical mucus. A variety of LNG-IUS options exhibit well-established safety profiles and efficacy, providing anywhere between 2 and 18 times lower systemic exposure when compared with LNG-containing pills or implants. Patient-centered decision-making regarding product choice may be encouraged through standardized comparisons of LNG release and exposure during the time of their respective usage periods. Evaluation of the efficacy, safety, and PK of extended Mirena use from beyond 5 years to the conclusion of 8 years was designed in the Mirena Extension Trial (MET), thereby facilitating comparisons with LNG-IUS 19.5 mg and LNG-IUS 13.5 mg. Using validated liquid chromatography-tandem mass spectrometry methods and SHBG concentrations, the authors determined concentrations of plasma LNG levels. Dichloromethane was used for extracting residual LNG from the elastomer material from removed IUS devices, which was then quantified via liquid chromatography and external calibration on a reversed-phase column. Although previous models used measured LNG and SHBG (serum) concentrations, the population pharmacokinetics (popPK) allows for a uniform method of comparison among different pharmacologic studies. The popPK approach allows for a reliable estimates of in vivo LNG exposure and release during the entirety of the 8-year use period. The MET enrolled premenopausal women aged 18–35 years for a multicenter, single-arm study regarding patients who had used LNG-IUS 52 mg for the last 4.5–5 years for up to 8 years. The study took place from December 22, 2016 to May 28, 2021 throughout 54 US centers, with the primary outcome of contraceptive efficacy and failure rate. Participants each provided written, informed consent. Study strengths of the popPK approach included its robust methodology, its ability to provide in vivo release rate estimates, a stepwise demo of model suitability from use years 6 to 8, model-based estimation of unbound LNG, and the ability to provide estimates for both population and individual PK profiles from sparse available sampling. Limitations include the possibility of findings being group effects possibly inapplicable to all LNG-IUS users. In addition, the data fail to provide local endometrial and cervical LNG concentrations due to the systemic nature of the LNG exposure. Finally, the popPK Mondale should not be used for theoretical question addressing (such as creating rate release estimates outside of available data sets). In conclusion, a broad data set indicates that reliable LNG exposure is delivered by 8-year popPK and release models for up to 7 years of LNG-IUs 52 mg use. Efficacy is data-supported for 6–8 years of use, with constant LNG release throughout this time frame. Systemic LNG exposure from LNG-IUD 52 mg proved both comparable to other LNG-IUS devices and significantly lower than oral and implanted LNG-containing contraceptives.

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