Optimal starting dosing regimen of intravenous oxytocin for labor induction based on the population kinetic‐pharmacodynamic model of uterine contraction frequency

Abstract

AbstractBackgroundIntravenous oxytocin is commonly used for labor induction. However, a consensus on the initial dosing regimen is lac with conflicting research findings and varying guidelines. This study aimed to develop a population kinetic‐pharmacodynamic (K‐PD) model for oxytocin‐induced uterine contractions considering real‐world data and relevant influencing factors to establish an optimal starting dosing regimen for intravenous oxytocin.MethodsThis retrospective study included pregnant women who underwent labor induction with intravenous oxytocin at Peking University Third Hospital in 2020. A  population K‐PD model was developed to depict the time course of uterine contraction frequency (UCF), and covariate screening identified significant factors affecting the pharmacokinetics and pharmacodynamics of oxytocin. Model‐based simulations were used to optimize the current starting regimen based on specific guidelines.ResultsData from 77 pregnant women with 1095 UCF observations were described well by the K‐PD model. Parity, cervical dilation, and membrane integrity are significant factors influencing the effectiveness of oxytocin. Based on the model‐based simulations, the current regimens showed prolonged onset times and high infusion rates. This study proposed a revised approach, beginning with a rapid infusion followed by a reduced infusion rate, enabling most women to achieve the target UCF within approximately 30 min with the lowest possible infusion rate.ConclusionThe K‐PD model of oxytocin effectively described the changes in UCF during labor induction. Furthermore, it revealed that parity, cervical dilation, and membrane integrity are key factors that influence the effectiveness of oxytocin. The optimal starting dosing regimens obtained through model simulations provide valuable clinical references for oxytocin treatment.