Abstract
Pregnancy is a period of significant change that impacts physiological and metabolic status leading to alterations in the disposition of drugs. Uncertainty in drug dosing in pregnancy can lead to suboptimal therapy, which can contribute to disease exacerbation. A few studies show there are increased dosing requirements for antidepressants in late pregnancy; however, the quantitative data to guide dose adjustments are sparse. We aimed to develop a physiologically based pharmacokinetic (PBPK) model that allows gestational-age dependent prediction of sertraline dosing in pregnancy. A minimal physiological model with defined gut, liver, plasma, and lumped placental-fetal compartments was constructed using the ordinary differential equation solver package, ‘mrgsolve’, in R. We extracted data from the literature to parameterize the model, including sertraline physicochemical properties, in vitro metabolism studies, disposition in nonpregnant women, and physiological changes during pregnancy. The model predicted the pharmacokinetic parameters from a clinical study with eight subjects for the second trimester and six subjects for the third trimester. Based on the model, gestational-dependent changes in physiology and metabolism account for increased clearance of sertraline (up to 143% at 40 weeks gestational age), potentially leading to under-dosing of pregnant women when nonpregnancy doses are used. The PBPK model was converted to a prototype web-based interactive dosing tool to demonstrate how the output of a PBPK model may translate into optimal sertraline dosing in pregnancy. Quantitative prediction of drug exposure using PBPK modeling in pregnancy will support clinically appropriate dosing and increase the therapeutic benefit for pregnant women.
Highlights
Studies have indicated that 64% of pregnant women take at least one medication for the treatment of serious clinical conditions for which cessation of medication in pregnancy is inappropriate[1]
Physiologically based pharmacokinetic (PBPK) modeling has been a valuable tool for regulatory science and can become a powerful tool in the hands of clinicians
The scarcity of user-friendly tools for modeling has limited the widespread utility of PBPK
Summary
Studies have indicated that 64% of pregnant women take at least one medication for the treatment of serious clinical conditions for which cessation of medication in pregnancy is inappropriate[1]. Uncertainty in drug dosing in pregnancy can lead to suboptimal therapy, which can contribute to disease exacerbation during pregnancy. Scientific or legal matters constraint enrollment of pregnant women in clinical trials. In the past five years, only one drug has been approved by the US Food and Drug Administration (FDA) for pregnancy-related indications[2]. Drugs are often prescribed without the necessary clinical knowledge about dose, pharmacokinetics (PK), and safety or efficacy in pregnant women. Without PK data to guide proper dosing, prescribers may use sub-therapeutic doses for pregnant women
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