Background: Makena (17-hydroxyprogesterone caproate) was FDA approved for prevention of recurrent spontaneous preterm birth in 2011 under the accelerated approval pathway but fundamental pharmacokinetic or pharmacodynamic (phase1 and phase 2) studies were not performed. At the time, there were no dose-response or concentration-response data. The therapeutic concentration was not known. The lack of such data questions whether the dosing regimen for 17-hydroxyprogesterone caproate was optimized.
Objective: The purpose of this study was to evaluate the dosing regimen for 17-hydroxyprogesterone by analyzing three data sets that evaluated 17-hydroxyprogesterone caproate pharmacology: the Maternal-Fetal Medicine Omega 3 study, the Obstetric-Fetal Pharmacology Research Units study and the Obstetrical-Fetal Pharmacology Research Centers study. If an inappropriate dosing regimen could be identified, such information could inform future studies of pharmacotherapy in pregnancy.
Study design: Data from the Omega 3 study were utilized to determine if plasma concentration was related to spontaneous preterm birth risk and if a threshold concentration could be identified. Data from the Obstetric-Fetal Pharmacology Research Units study were used to determine the half-life of 17-hydroxyprogesterone caproate and to develop a model to simulate drug concentrations with various dosing regimens. Data from the Obstetrical-Fetal Pharmacology Research Centers study were used to determine the relationship between dose and safety outcomes.
Results: Analysis of the Omega 3 dataset indicated that the risk of spontaneous preterm birth decreased as the log of 17-hydroxyprogesterone caproate increased [odds ratio (95%CI) 0.04 (0.00 - 0.90)]. A steady state concentration> 9 ng/ml (equivalent to > 8 ng/ml at 25-28 weeks) was associated with the lowest risk of spontaneous preterm birth [hazard ratio (95%CI) 0.52 (0.27-0.98, p=0.04)]; this concentration was not achieved in 25% of subjects receiving the 250 mg weekly dose. In the Obstetrical-Fetal Pharmacology Research Units study, the adjusted half-life (median and IQR) of 17-hydroxyprogesterone caproate was 14.0 (11.5-17.2) days. Simulations indicated that with the 250 mg weekly dose, > 5 weekly injections were required to reach the 9 ng/ml target; however, those with the shortest half-life (corresponding to higher clearance), never reached the targeted 9 ng/ml concentration. In 75% of subjects, a loading dose of 500 mg weekly for 2 weeks followed by 250 mg weekly achieved and maintained the 9 ng/ml concentration within two weeks but in those 25% with the shortest half-life, concentrations exceeded the 9 ng/ml target for only 3 weeks. In the Obstetrical-Fetal Pharmacology Research Centers study, all 65 subjects receiving a weekly dose of 500 mg exceeded the 9 ng/ml steady state.
Conclusions: The dosing regimen for 17-hydoxyprogesterone caproate was inadequate. There is a significant inverse relationship between drug concentration and spontaneous preterm birth. Risk is lowest when concentration exceeds 9 ng/ml but 25% of women receiving the 250 mg weekly dose will never reach and maintain this concentration. The drug's long half-life necessitates a loading dose to achieve therapeutic concentrations rapidly. The omission of basic pharmacologic studies to determine the proper dosing may have compromised the effectiveness of 17-hydroxyprogesterone caproate. Future pharmacotherapy trials in pregnancy must first complete fundamental pharmacology studies.
Keywords: 17-hydroxyprogesterone caproate; Makena; compounding; dose response; half-life; intramuscular; loading dose; pharmacodynamics; pharmacokinetics; pharmacology; plasma trough concentrations; pregnancy prolongation; preterm birth; preventative treatments; progestogens; steady state.
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