View clinical trials related to Uterine Contraction.
Filter by:The aim of this study is to determine the influence of oxytocin on fetal well-being during labor in patients receiving epidural analgesia (ELA) with the use of cardiotocography (CTG) and doppler ultrasonography. CTG is a commonly used technique to monitor the fetal heartbeat and contractions of uterus during pregnancy and labor. The maternal-fetal doppler ultrasonography is a non-invasive method used for the pregnancy surveillance. Various psychological and psychosocial factors impact the perception of labor pain. Its intensity is described differently by each patient - some claim it to be the worst pain that they experienced during their lives. Usually, the labor pain is more severely experienced by the patients giving birth for the first time and those with induced labor. Nowadays, there are many non-pharmacological (e.g. acupuncture, massage, TENS) and pharmacological (anesthetic gas, opioids, ELA) methods of labor pain management. ELA is a regional anesthesia, in which the anesthetic drug is injected into the epidural space with the aim to block the pain experienced by the patient without impacting patients ability to move or push during labor. The safety of the procedure is well-discussed and documented in Cochrane review from 2018, which shows no adverse impact on the proportions of Caesarean section, long-term backache, or neonatal outcomes. It is considered to be a golden standard for labor pain management. Oxytocin is a well-known hormone used for the induction of labor and to stimulate the uterine contraction during labor. The impact of oxytocin alone on CTG pattern and maternal-fetal doppler ultrasonography is discussed in the literature. However, the cumulative effect of ELA and oxytocin remains unclear. Some researchers claim that ELA increases the frequency of uterine contractions and that the additional use of oxytocin leads to higher risk of uterine hyper-stimulation and unreassuring CTG patterns. Whereas the others state that ELA weakens the strength of uterine contractions leading to slow progression of labor and the need to use or increase the use of oxytocin. There are no data on how the cumulative use of oxytocin and ELA impacts the maternal-fetal flows during labor.
The investigators aim to evaluate the safety and efficacy of administering calcium carbonate to laboring participants undergoing labor inductions. The investigators hypothesize that calcium carbonate is a low-risk preventative measure to decrease oxytocin induction time and dosage, decrease the rate of labor dystocia, decrease the rate of cesarean deliveries, and demonstrate no differences in maternal or neonatal safety outcomes.
The original aspect of the methodology proposed for this study concerns the use of as many as 16 electrodes to study the propagation and coordination (or synchronization) of uterine contraction. Over the last two years, the Compiègne University of Technology and the University of Reykjavik (Iceland) teams have developed the tools required to obtain good quality signals during electrohysterography and have worked on filtering and mapping of uterine electrical activity derived from these signals.