Materials and Methods

The study protocol was developed by investigators in the department of obstetrics and gynecology and approved by the institutional review board (IRB) of the University of Texas Southwestern Medical Center at Dallas. A stipulation of the IRB approval of this study required submission of outcome data after completion of each dose regimen for IRB review and approval prior to enrollment of any women in subsequent regimens. Therefore, an extended amount of time was required to complete this study. From July 1, 2007, through September 16, 2008, healthy, nulliparous women diagnosed with arrest of dilation were evaluated for participation in this study at Parkland Hospital, Dallas, TX. In order to be considered for enrollment, women had to be healthy (no medical or pregnancy-related illnesses), between 36-42 weeks’ gestation, with a cephalic singleton pregnancy in spontaneous active labor.

Active labor was diagnosed when cervical dilation had reached 4 cm. If such a woman had achieved at least 4 cm cervical dilation and subsequently did not further dilate over 2-4 hours, an amniotomy was performed to augment her labor if her membranes were not already ruptured. At the same time an intrauterine pressure catheter was placed to determine if her contractions were adequate. A woman with no further change in dilation 2-4 hours after amniotomy with <200 Montevideo units (MVU) of uterine activity was diagnosed to have arrest of dilation due to inadequate uterine contractions. Our standard of care in such women was stimulation of labor with intravenous oxytocin according to a dosage schedule previously reported. It was at this point that we offered participation in this study in lieu of oxytocin infusion.

Women were excluded from participation if they had any of the following: (1) >200 MVU when measured using an intrauterine pressure catheter, (2) a nonreassuring fetal heart rate tracing, (3) meconium-stained amnionic fluid, (4) previous uterine incision, (5) maternal fever or other evidence of clinical chorioamnionitis, (6) pregnancy-induced hypertension or any other pregnancy-related complications, (7) known fetal anomalies, (8) estimated fetal weight of ≥4500 g, or (9) a prior delivery of a fetus ≥20 weeks’ gestation.

A standard dose-finding design for phase I trials was utilized wherein the dose was doubled until excessive side effects were encountered. Women were enrolled in cohorts of 10 at a time, starting from a lower dose and proceeding to higher dosing regimens until hyperstimulation occurred. It was decided a priori that a dosage regimen would be deemed safe if 3 conditions were met: (1) ≤3 women developed uterine tachysystole (≥6 contractions in a 10-minute period) or hypertonus (≥1 contractions lasting >120 seconds) with or without associated abnormal fetal heart rate patterns, (2) no woman developed uterine tachysystole or hypertonus requiring an emergent cesarean delivery, and (3) no women delivered a baby with poor neonatal outcome measures (defined as a 5-minute Apgar score of ≤4 or an umbilical artery pH of <7.0). On the other hand, if at least 9 of 10 women at a given dosage level achieved adequate uterine activity defined as >200 MVU, the drug was deemed effective for labor augmentation at that dose. In that case, there would be no need to escalate the dosing and the study would be completed.

These safety and efficacy criteria were developed utilizing the known side-effect profile and efficacy of the oxytocin regimen employed in our institution. Specifically, oxytocin is administered starting at a low dose and increasing the dose every 40 minutes with a goal of 200-250 MVU. Using this regimen, uterine tachysystole or hypertonus (as defined in the previous paragraph) is encountered in 31% of patients. Thus, the safety criteria reflect the tolerance of these side effects in up to 3 of the 10 women enrolled in a given regimen cohort, as long as maternal and fetal well-being is not impacted. This oxytocin regimen produces at least 200 MVU in 90% of patients. Therefore, optimal efficacy was defined as 9 of the 10 women in a cohort achieving adequate MVU.

Written informed consent was obtained in the woman’s primary language. Specifically, women were counseled regarding the risks of failure of the medication to augment labor, prolonged labor, infection during labor, excessive uterine contractions, and fetal distress potentially leading to cesarean delivery and/or poor neonatal outcome, as well as nausea, vomiting, and diarrhea as side effects of the medication. After enrollment, baseline fetal heart rate and maternal contraction patterns were recorded for 30 minutes prior to administration of the study drug. Fetal heart rate and maternal contractions were then recorded continuously for the remainder of the woman’s labor and delivery course, and stored in a computer database for analysis.

A total of 3 successive cohorts of 10 women each were planned, beginning with a 25-μg misoprostol dose given orally at a 4-hour interval up to a maximum of 2 doses. We used the standard dose-finding design wherein the dose was doubled until reaching 100 μg, which was the oral dosage we previously found effective for labor induction. That is, regimen 1 consisted of a 25-μg dose, regimen 2 a 50-μg dose, and regimen 3 a 100-μg dose. If at any time uterine hyperstimulation or an abnormal fetal heart rate tracing was encountered, no further doses of misoprostol were administered. If the second dose of misoprostol was held due to hyperstimulation, the women were eligible to be given oxytocin. Hyperstimulation was treated by placing the woman in a lateral position and oxygen (10 L/min) was given by face mask. Terbutaline or other tocolytic agents were not administered. If misoprostol was found to be ineffective, ie, MVU were <200 and there was lack of normal progress of labor, oxytocin infusion was initiated as soon as 1 hour following the second dose of misoprostol. Cervical examinations were performed as deemed necessary by the attending clinicians. Labor epidural analgesia was offered and provided upon request. The diagnosis of chorioamnionitis was made in women who developed a fever of ≥38.0°C.

A total of 5 dosage regimens were ultimately studied. This extended the initially planned 3 cohorts where the misoprostol dosage escalated from 25 μg to 50 μg to 100 μg every 4 hours (regimens 1, 2, and 3, respectively). Regimens 4 and 5 were studied because the 100-μg dose produced unacceptable hyperstimulation and we sought to evaluate intermediate regimens by changing the dosage or interval. Regimen 4 utilized 50 μg given every 2 hours rather than every 4 hours. The shorter dosage interval was evaluated in light of the known pharmacokinetics of orally administered misoprostol, ie, the plasma concentration at 2 hours is nearly undetectable, and is identical to the plasma concentration at 4 hours. Regimen 5 evaluated 75 μg given every 4 hours, an intermediate dose between the 50-μg dose (regimen 2) and the 100-μg dose (regimen 3).

Study medication was prepared by the Parkland Hospital Investigational Drug Service. Generic misoprostol 100-μg tablets were halved and quartered using a special pill-cutting device and only intact segments were used. This was an open-label study. After consultation with the Food and Drug Administration, it was determined that an Investigational New Drug designation was not required for this trial, as the use of misoprostol for labor stimulation has been extensively studied in other settings.

Due to the small numbers in each cohort, statistically significant differences were expected to be difficult to determine in this phase I trial. Nonetheless, labor outcomes of each regimen were compared using analysis of variance. Uterine activity measured in MVU at baseline and peak following administration of misoprostol was compared using Student t test. Analysis of frequency data was accomplished using the Pearson χ ² . When comparing the effect of each regimen over time, a linear effect of the dose upon uterine activity was assumed. Regimens were compared using a random effects model for repeated measures. For all analyses a P value of < .05 was considered significant.