A population pharmacokinetic model for sertraline in women during the perinatal period-A contribution from the ConcePTION project.
Options
Description
Alice Panchaud and Monia Guidi contributed equally to this work.
BORIS DOI
Date of Publication
July 19, 2024
Publication Type
article
Division/Institute
Contributor
Monfort, Anaëlle | |
Cardoso, Evelina | |
Eap, Chin B | |
Ansermot, Nicolas | |
Crettol, Severine | |
Fischer Fumeaux, Céline J | |
Graz, Myriam Bickle | |
Harari, Mathilde Morisod | |
Weisskopf, Etienne | |
Gandia, Peggy | |
Allegaert, Karel | |
Annaert, Pieter | |
Nordeng, Hedvig | |
Hascoët, Jean-Michel | |
Claris, Olivier | |
Epiney, Manuella | |
Ferreira, Ema | |
Leclair, Grégoire | |
Csajka, Chantal | |
Panchaud Monnat, Alice Elke Martine | Berner Institut für Hausarztmedizin (BIHAM) - Grundversorgung Pharmazie |
Berner Institut für Hausarztmedizin (BIHAM) | |
Guidi, Monia |
Series
British journal of clinical pharmacology
ISSN or ISBN (if monograph)
1365-2125
Publisher
Wiley
Language
English
Publisher DOI
PubMed ID
39030897
Uncontrolled Keywords
Description
AIMS
Sertraline is frequently prescribed for mental health conditions in both pregnant and breastfeeding women. According to the limited available data, only small amounts of sertraline are transferred into human milk, yet with a large amount of unexplained interindividual variability. This study aimed to develop a population pharmacokinetic (popPK) model to describe the pharmacokinetics of sertraline during the perinatal period and explain interindividual variability.
METHODS
Pregnant women treated with sertraline were enrolled in the multicenter prospective cohort SSRI-Breast Milk study. A popPK model for sertraline maternal plasma and breast milk concentrations was developed and allowed estimating the milk-to-plasma ratio (MPR). An additional fetal compartment allowed cord blood concentrations to be described. Several covariates were tested for significance. Ultimately, model-based simulations allowed infant drug exposure through placenta and breast milk under various conditions to be predicted.
RESULTS
Thirty-eight women treated with sertraline were included in the study and provided 89 maternal plasma, 29 cord blood and 107 breast milk samples. Sertraline clearance was reduced by 42% in CYP2C19 poor metabolizers compared to other phenotypes. Doubling milk fat content increased the MPR by 95%. Simulations suggested a median daily infant dosage of 6.9 μg kg-1 after a 50 mg maternal daily dose, representing 0.95% of the weight-adjusted maternal dose. Median cord blood concentrations could range from 3.29 to 33.23 ng mL-1 after maternal daily doses between 25 and 150 mg.
CONCLUSIONS
Infant exposure to sertraline, influenced by CYP2C19 phenotype and breast milk fat content, remains low, providing reassurance regarding the use of sertraline during pregnancy and breastfeeding.
Sertraline is frequently prescribed for mental health conditions in both pregnant and breastfeeding women. According to the limited available data, only small amounts of sertraline are transferred into human milk, yet with a large amount of unexplained interindividual variability. This study aimed to develop a population pharmacokinetic (popPK) model to describe the pharmacokinetics of sertraline during the perinatal period and explain interindividual variability.
METHODS
Pregnant women treated with sertraline were enrolled in the multicenter prospective cohort SSRI-Breast Milk study. A popPK model for sertraline maternal plasma and breast milk concentrations was developed and allowed estimating the milk-to-plasma ratio (MPR). An additional fetal compartment allowed cord blood concentrations to be described. Several covariates were tested for significance. Ultimately, model-based simulations allowed infant drug exposure through placenta and breast milk under various conditions to be predicted.
RESULTS
Thirty-eight women treated with sertraline were included in the study and provided 89 maternal plasma, 29 cord blood and 107 breast milk samples. Sertraline clearance was reduced by 42% in CYP2C19 poor metabolizers compared to other phenotypes. Doubling milk fat content increased the MPR by 95%. Simulations suggested a median daily infant dosage of 6.9 μg kg-1 after a 50 mg maternal daily dose, representing 0.95% of the weight-adjusted maternal dose. Median cord blood concentrations could range from 3.29 to 33.23 ng mL-1 after maternal daily doses between 25 and 150 mg.
CONCLUSIONS
Infant exposure to sertraline, influenced by CYP2C19 phenotype and breast milk fat content, remains low, providing reassurance regarding the use of sertraline during pregnancy and breastfeeding.
File(s)
| File | File Type | Format | Size | License | Publisher/Copright statement | Content | |
|---|---|---|---|---|---|---|---|
| Monfort BrJClinPharmacol 2024.pdf | text | Adobe PDF | 1.13 MB | Attribution-NonCommercial-NoDerivatives (CC BY-NC-ND 4.0) | published | ||
| Brit_J_Clinical_Pharma_-_2024_-_Monfort_-_A_population_pharmacokinetic_model_for_sertraline_in_women_during_the_perinatal.pdf | Adobe PDF | 1.84 MB | Attribution-NonCommercial-NoDerivatives (CC BY-NC-ND 4.0) | published |