EMG for Uterotonic Efficiency Estimation

Summary

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RATIONALE Postpartum hemorrhage is the leading cause of maternal mortality worldwide. In the Western world the estimated risk of life threatening postpartum hemorrhage is 2 on 1000 births. Most frequently (up to 90% of cases of postpartum hemorrhage) it is a consequence of uterine atony or inappropr...

RATIONALE Postpartum hemorrhage is the leading cause of maternal mortality worldwide. In the Western world the estimated risk of life threatening postpartum hemorrhage is 2 on 1000 births. Most frequently (up to 90% of cases of postpartum hemorrhage) it is a consequence of uterine atony or inappropriate uterine contraction. In clinical practice preventing postpartum hemorrhage is key and routinely, different prophylactic uterotonic drugs are used. The first-line recommended drug for postpartum hemorrhage prevention is oxytocin. However, a recent Cochrane meta-analysis concluded that the most effective drugs (compared to oxytocin) to prevent postpartum hemorrhage of 500 ml or more are ergometrine with oxytocin, misoprostol with oxytocin and carbetocin. Carbetocin is a synthetic heat-stable analogue of oxytocin, with a longer half-life. It shares the same mechanism of action and the same side-effects as oxytocin. The recommended dose of carbetocin is 100 ?g, which is equivalent to 10 ?g (5 IU) of oxytocin. In the WHO carbetocin multicenter, double-blind, randomized trial, the intramuscular administration of 100 ?g of heat-stable carbetocin was discovered to be noninferior to the administration of 10 IU of oxytocin for the prevention of postpartum hemorrhage after vaginal birth. Some studies have found carbetocin to be an effective prophylactic agent with a favourable side effect profile for the third stage of labour in caesarean sections, reducing the use of additional uterotonic agents, blood and recovery time. Moreover, carbetocin was found to be effective in reducing the need for additional uterotonic use and postpartum blood transfusion in women at increased risk of postpartum hemorrhage undergoing cesarean delivery. In one study, carbetocin was also found to be more effective than oxytocin in preventing postpartum hemorrhage in twin pregnancies delivered by cesarean section. Uterine contractions in pregnancy, labour and postpartum can be detected using electromyography. Myometrial contractility can be objectively and non-invasively assessed in vivo by monitoring uterine electromyography (EMG), as uterine contractions are the result of the electrical activity generated and propagated in the myometrium. To our knowledge, no study has reported oxytocin or carbetocin effects using postpartum electromyography. OBJECTIVE The objective of the study is to compare efficacy and objectively quantify the effect of carbetocin (Pabal ®) with electromyography compared to the standard uterotonic oxytocin (Syntocinon ®) for postpartum hemorrhage prevention. METHODS Single-center, randomized, open-label trial. After signed informed consent, the cesarean section will be performed. All the patients will receive 5 IU of oxytocin bolus and a single oxytocin infusion (10 IU). Subsequently patients will be transferred to high dependency unit and allocated randomly into one of two groups: Carbetocin group Patients will receive a single dose of carbetocin 100 mcg (Pabal ®). An electromyogram of the uterus will be performed and a blood sample will be obtained. After 2-3 hours another electromyogram will follow, as well as a visual and quantified estimation of blood loss. Oxytocin group Patients will receive 5 IU of oxytocin (Syntocinon ®) as a 250 ml 0.9% NaCl infusion. An electromyogram of the uterus will be performed and a blood sample will be obtained. After 2-3 hours another electromyogram will follow, as well as a visual and quantified estimation of blood loss. Another blood sample will be routinely obtained 24 hours after the caesarean section. Statistical analysis From previous EMG studies, there has been reported difference in means of EMG PS peak frequency in labor vs. non-labor patients of (0.56 - 0.44 = 0.12 Hz), and a standard deviation of 0.15 Hz. Using power of 0.80, and an ? - 0.05, with t-test, gives a desired sample size of 26 per group minimum. All data will be analyzed according to a pre-established statistical plan. Statistical analyses will be performed with SPSS software (version 24.0; IBM Corporation, Armonk, New York). Data will be entered as numerical or categorical, as appropriate. Shapiro-Wilk test will be used to assess normality of distribution. Parametric statistics will be carried out for normally distributed variables; for non-normal distribution, nonparametric statistics will be used. Data with normal distribution will be described using minimum, maximum and mean with standard deviation. Data with non-normal distribution will be shown using minimum, maximum, median, and interquartile range (IQR). Comparisons will be carried out between the study groups using independent Student's t test or Mann-Whitney U test for continuous and with Chi-square test for categorical variables.

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