Postpartum Hemorrhage Clinical Trial
Official title:
Effect of Adjunctive Misoprostol on Blood Loss at Vaginal Delivery
This document defines the Clinical Investigation Protocol for a study designed to determine whether blood loss after spontaneous vaginal delivery is altered by the addition of misoprostol administration to the standard use of intravenous oxytocin after delivery. The protocol is an open-label randomized prospective trial to be carried out at Queens Hospital Center. Blood loss will be measured indirectly by comparing the maternal hemoglobin and hematocrit levels on admission in labor to those obtained within 24 hours after delivery.
Some maternal blood loss normally occurs at the time of vaginal delivery. The best estimates indicate that a loss of approximately 500 mL is average, with a range of about 250-700 mL.[1,2] Some of this bleeding arises from birth canal lacerations or surgical incisions (i.e., episiotomy), but most derives from the vessels exposed in the uterine wall at the placental site once the placenta has separated. Under normal circumstances, shortly after placental separation intense myometrial contractions occur. These raise the pressure within the myometrial wall above that of the blood pressure in the vessels that traverse it, vessels that opened into the intervillous space. Flow in these vessels is thus mechanically attenuated by myometrial contraction, allowing for the formation of intravascular thrombi. This mechanism for controlling postpartum uterine blood loss works well most of the time. If, however, the uterus remains hypotonic or atonic after delivery, excessive blood loss can occur. In the worst cases, severe uterine hemorrhage ensues. Postpartum hemorrhage is, in fact, the leading cause of maternal mortality in the world, accounting for at least 100,000 deaths annually.[3] Even in the absence of frank hemorrhage, postpartum blood loss can result in maternal anemia. Recuperation of iron stores to recover from this blood loss takes time, and may not occur, especially in low socioeconomic areas where dietary iron consumption is often deficient, and pregnancies tend to occur in close succession. Postpartum anemia is a significant contributor to short- and long-term morbidity.[5-7] It increases the risk of infection and poor wound healing. Also, the associated fatigue may interfere with the mother's ability to administer child care and to bond appropriately with her infant. Anemic mothers tend to have more difficulty with nursing, and may produce iron-deficient milk. There is thus a strong rationale to minimize postpartum blood loss. In most US hospitals, parturients receive a high dose of intravenous or intramuscular oxytocin immediately after delivery. This approach has been shown in several studies to reduce the risk of postpartum hemorrhage, [8-11] and is practiced routinely at Queens Hospital Center. Investigators will employ an intravenous infusion of oxytocin (Pitocin®) at a rate of about 50-100 mU/minute. Despite this approach, there is still substantial blood loss at delivery, based on the investigator's preliminary observations shown below. This provides the rationale to determine whether use of an adjunctive drug, namely misoprostol 600 µg rectally, administered after delivery, might reduce blood loss further than does oxytocin alone, thus decreasing the risk of morbidity related to postpartum anemia. Preliminary Data The investigators examined the hemograms of a randomly chosen consecutive sample of 53 spontaneous vaginal deliveries performed at Queens Hospital Center . Among these patients, the admission hemoglobin concentration was 11.9±1.2 g/dL and that on the first postparutum day was 10.9±1.3. The mean fall was 1.02 (95% CI 0.74, 1.29), a statistically significant decrease (P<0.0001). Hematocrit levels fell in parallel, by an average of 7.8% of the predelivery value. The mean fall in hemoglobin and hematocrit levels after delivery (1.02 g/dL and 2.81%) is consistent with an average blood loss of about 500 mL. The consistency of these changes and the small associated variance indicate that the change in hemoglobin and hematocrit levels is a meaningful proxy for the assessment of blood lost during vaginal delivery. Sample size and analysis Of the expected 800 subjects in this two-treatment parallel design study, the probability is 90% that the study will detect a treatment difference at a two-sided 0.05 significance level if the difference in hemoglobin concentration between treatments is 0.3 g/dL. This analysis assumes that the standard deviation of the postpartum and intrapartum hemoglobin concentrations is not larger than 1.3 g/dL. Comparison of intrapartum and postpartum hemoglobin and hematocrit levels will be done using a paired t-test. A probability level of 0.05 will be used as the threshold for significance. Inclusion and exclusion criteria This study will include adult pregnant women regardless of age. Pregnant minors under the age of 18 will not be eligible. Patients who meet the inclusion criteria for the study will be identified during their prenatal clinical visits, in early latent-labor, or prior to induction of labor or active labor. Informed consent will be obtained by one of the investigators. Consent will be obtained prior to active labor. The informed consenting process will not be initiated among patients in active labor. It will be determined by the investigator whether the patient will receive oxytocin alone or oxytocin and misoprostol. Both drugs are on formulary and will be available on the Labor and Delivery Unit for immediate use. Randomization A computer-generated table of random numbers will be used to assign the recruited subject to a group. The patient will be assigned to the intervention group and will receive oxytocin and misoprostol or the patient will be assigned to "oxytocin only" group. Characteristics of Medication Nature of misoprostol Misoprostol is a synthetic prostaglandin E1 analog. It is marketed primarily as a drug to prevent the development of gastric ulcers associated with use of nonsteroidal anti-inflammatory drugs, and is part of the Queens Hospital Center formulary. Originally marketed as Cytotec®, misoprostol is available in a generic form as tablets containing contain either 100 µg or 200 µg. Misoprostol protects the gastric mucosa through several mechanisms. It also has the property of stimulating myometrial smooth muscle contraction.[12] That effect has resulted in the drug's common use in obstetrics for termination of pregnancy, cervical ripening prior to induction of labor and, in large doses, for prevention and treatment of postpartum hemorrhage from uterine atony. [13-19] Misoprostol can be administered by oral, sublingual, vaginal or rectal routes. It is well absorbed with all these modes of administration, but detailed pharmacokinetic data exist primarily concerning its oral administration. It is rapidly absorbed, and undergoes prompt de-esterification to its free acid, which is responsible for its clinical activity. Peak plasma levels after oral administration occur after 10-15 min. The half-life is 20-40 minutes. The alpha side chain undergoes beta oxidation and the beta side chain undergoes omega oxidation followed by reduction of the ketone to give prostaglandin F analogs. Excretion is primarily in the urine. Very little misoprostol appears in breast milk. [20,21] After a single 600 µg oral dose of misoprostol to nursing mothers, misoprostol acid was excreted in breast milk. One hour after dosing, the milk concentration was about 67% of the maternal serum level; by five hours, the misoprostol concentrations in breast milk declined to < 1 pg/mL. While no specific data exist for misoprostol concentrations in colostrum, given the very small ingested volume over the first few hours of life, neonatal exposure to the drug in the investigator's study can be expected to be minimal. There are no published reports of adverse effects of misoprostol in breast-feeding infants of mothers taking misoprostol Misoprostol is classified by the FDA as a Pregnancy Category X drug. This label is related to its possible association with congenital anomalies when used in the first trimester, as well as its abortifacient properties. In the investigator's study, patients will no longer be pregnant when the participant receives the drug. It is unknown whether Misoprostol and/or Oytocin are excreted in human milk. There is an unconfirmed relation with Misoprostol and/or Oytocin causing digestive problems, such as diarrhea, and abdominal cramps in breast-fed newborns. Pariticipants will be advised to discard breast mild for the first 24 hours to possibly avoid occurrence. Study Procedure: All subjects will receive the standard dose of intravenous oxytocin, begun within one minute of delivery. Subjects in the study group who have not incurred any of the post-hoc exclusion criteria (episiotomy, major laceration, etc) will receive a dose of 600 µg of misoprostol in addition to their oxytocin. This will be administered in the form of six 100 µg tablets inserted approximately 2 cm into the anorectal canal by the obstetrician or midwife who has performed the delivery. The common method for administering Misoprostol for postpartum hemorrhaging is rectally for local absorption. Since this study is directed toward prevention instead of treatment, the dosage of 600mg is a lower dosage from the 1000mg administered, as standard practices, for treating postpartum hemorrhaging of more than 500cc estimated blood loss. The patient's vital signs will be recorded after delivery according to standard protocols of the obstetric service. The Data Collection forms will be filled out after the delivery by one of the investigators. The measurement of postpartum hemoglobin and hematocrit (H & H) is automatically ordered at 06:00am for all patients who have delivered the day prior, constituting this measurement at "Postpartum Day 1", which is at a minimum of 6 hours after delivery and is enough time for H & H levels to stabilize. Within 36 hours of delivery, additional information will be collected from the patient's record, including the postpartum hemogram and information about any symptoms or signs related to the misoprostol. Misoprostol is classified by the FDA as a Pregnancy Category X drug. This label is related to its possible association with congenital anomalies when used in the first trimester, as well as its abortifacient properties. In the investigator's study, patients will no longer be pregnant when the participant receives the drug. Data Collection elements: Age, Ethnicity/Race, Gestational age (in weeks), Number of previous deliveries, Number of Fetus, Body-Mass Index (BMI), Amniotic Fluid Index (AFI), Cephalic presentation, Fetal Heart Rate (FHR), Reported fetal Anomaly, Preeclampsia, Trial of Labor after Cesarean (TOLAC) After Delivery, Caesarean section (during delivery), Epidural, Oxytocin in labor (if yes, number of hours before delivery, Other medication used in labor, Episiotomy, Duration of stage 1, 2, and 3, Degree and place of laceration, Estimated Blood Loss (EBL), Transfusion, Placental Abruption, Birth weight Results - includes Follow-up Data, Hemoglobin and Hematocrit (H& H) on admission and on post- partum day #1, Reported Side effect by patient, Post partum temperature, Reports of shivering, Diagnosis of chorioamnionitis. Post- partum day #1- data collection Postpartum Day 1 is delineated as the first 12:01am clock time from the time of delivery. Post-partum measurements, such as postpartum hemoglobin and hematocrit (H & H), are taken automatically at 06:00am for all deliveries that occurred before midnight (at least 6 hours prior). ;
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