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Labor Pain clinical trials

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NCT ID: NCT04020042 Terminated - Labor Pain Clinical Trials

Epidural Placement Using Handheld Ultrasound Device vs. Traditional Landmark Palpation

Start date: August 28, 2019
Phase: N/A
Study type: Interventional

Ultrasound is widely in uses for vascular, nerve block and sometimes neuraxial block. The purpose of the study is to evaluate the impact of a handheld ultrasound device on the time to complete labor epidural placement and success rate of epidural analgesia in parturients with a wide range of body mass indexes (BMIs). A handheld ultrasound device (Accuro, Rhivanna Medical, Charlottesville, VA) may eliminate the time for equipment setup due to its portability and instant power-up. In addition, it provides a simulated diagram to aid in identifying bone and lumbar spaces. These unique features may be helpful in laboring women with a particular BMI range. We aim to define the usefulness of guidance with a handheld ultrasound in completing labor epidural analgesia in various BMIs. The primary outcome: The time needed to complete epidural placements. Secondary outcomes: - The number of needle insertion attempts, - The rate of success measured by the need to replacements during the labor course for vaginal or cesarean delivery.

NCT ID: NCT04011098 Terminated - Labor Pain Clinical Trials

Improving Labour Induction Analgesia: Epidural Fentanyl Bolus at Epidural Initiation for Induction of Labour

Start date: July 1, 2019
Phase: Phase 1
Study type: Interventional

Labour pain can be intensified for labour inductions and women undergoing inductions often have earlier and more frequent requests for analgesia. Current evidence suggests that epidural analgesia effectively manages pain in labour, but may give rise to adverse effects for both the mother and neonate. Opioids are often added to epidurals to improve the quality of analgesia. Despite reassuring findings regarding epidural opioids, other investigators have found an association between epidural opioids and neonatal respiratory distress, lower Neurological and Adaptive Capacity scores, and reduced rates of breastfeeding. Given the heightened implications for the mother and neonate in situations requiring induction of labour, the desire for a positive outcome whilst still providing adequate maternal analgesia is paramount. This study thus aims to investigate whether a preliminary epidural Fentanyl bolus at the initiation of the epidural may help to improve analgesia for women undergoing labour inductions for post-term pregnancy in a safe manner. Importantly, the main rationale of this proposed practice being that by achieving adequate epidural analgesia earlier in the labour induction, this may lead to better pain control overall and less overall requirements for epidural PCEA boluses and epidural "top-ups" as the induction progresses.

NCT ID: NCT03566342 Terminated - LABOR PAIN Clinical Trials

Optimal Regimen of Patient-controlled Epidural Analgesia in Laboring Patients

PCEA
Start date: August 2007
Phase:
Study type: Observational [Patient Registry]

To test the efficacy of different recipes of epidural infusions used for providing pain relief during labor in parturients.

NCT ID: NCT03553576 Terminated - Pain Clinical Trials

Drug Concentration and Volume on Adequate Labor Analgesia With PIEB

CADD2
Start date: January 9, 2020
Phase: Phase 4
Study type: Interventional

Neuraxial labor analgesia is performed by the administration of a local anesthetic/opioid mixture in the epidural space. The delivery method is a combination of continuous infusion, provider-administered boluses and patient-administered boluses (patient controlled epidural analgesia [PCEA]) via epidural catheter. Pain during the first stage of labor is primarily due to lower uterine segment and cervical stretching. The pain signals enter the spinal cord through sensory nerves at the T10 through L1 dermatomes. Pain signals from the late first state and second stage of labor also arise from the vagina and perineum. These signals travel with the pudendal nerve and enter the spinal cord at S2-S4. Thus, the anesthetic solution administered through the lumbar epidural catheter must spread cephalad in the epidural space to reach the T10 nerve roots and spinal cord, and must spread caudad to reach the caudal nerve roots in the epidural space. The optimal method for maintaining labor analgesia is unknown. Several studies have demonstrated that PIEB, in combination with PCEA, provide superior maintenance of labor analgesia (less need and longer time to provider intervention, lower local anesthetic consumption, less motor block, and improved patient satisfaction scores) than maintenance with a continuous infusion with PCEA.The mechanism for this difference is not known; however, one suggested mechanism is improved spread of the local anesthetic within the epidural space. Kaynar et al. injected methylene blue dye through a multi-orifice catheter using either a continuous infusion or intermittent bolus and the area of diffusion was measured on a piece of paper. The authors found that intermittent boluses were associated with a greater surface area of diffusion than continuous infusion. In a cadaver study, dye was injected into the lumbar epidural space, and cryomicrotome sections were taken.Dye flowed in rivulets through small channels in the epidural space, as opposed to moving as a unified front. The authors found dye injected at high pressures had more uniform spread through the epidural space, supporting the concept of intermittent epidural injection providing superior analgesia. Epidural infusion pumps capable of delivering PIEB of local anesthetic with PCEA have become commercially available and many studies have attempted to assess the optimal parameter settings (including volume of programmed bolus, bolus interval, rate of bolus administration) to provide superior labor analgesia. Recently we completed a double-blinded randomized control trial evaluating two bolus delivery rates, hypothesizing that those patients randomized to receive higher bolus delivery rates would have improved labor analgesia. However, no difference was found between groups.What is more, both groups had a mean cephalad sensory level to cold of T6. This sensory level is higher than the traditional goal of T10 (upper dermatome level of uterine innervation), but despite the adequate sensory level, a large number of patients required supplemental physician-delivered boluses of local anesthetic during labor. Forty percent of the women in the high-rate group and 36% of the low-rate group required a manual re-dose during labor. This suggests that either a higher volume, or higher concentration of local anesthetic (i.e., higher dose) is needed to maintain adequate labor analgesia. Traditionally higher concentration local anesthetic solutions have been associated with increased motor blockade leading to a higher incidence of instrumental vaginal delivery. Several local anesthetic solutions with varying drug concentrations are available for labor analgesia and are used clinically in the United States. We plan to perform a randomized, controlled, double-blind study to test the hypothesis that patients whose labor analgesia is maintained using PIEB with low-volume bolus (6.25 mL) of a higher local anesthetic concentration solution (0.1% bupivacaine with fentanyl 2.0 mcg/mL) will require less supplemental analgesia (manual provider re-doses) than patients whose PIEB is delivered with a high-volume bolus (10 mL) of lower density local anesthetic solution (0.0625% bupivacaine with fentanyl 2.0 mcg/mL). The aim of this study is to evaluate the association between bolus volume and concentration of local anesthetic during maintenance of labor analgesia with programmed intermittent epidural bolus (PIEB) analgesia. The hypothesis of this study is: patients whose labor analgesia is maintained using PIEB with low-volume bolus (6.25 mL) of higher local anesthetic concentration solution (0.1% bupivacaine with fentanyl 2.0 mcg/mL) will have a longer duration of adequate analgesia (time to first manual re-dose request) than patients whose PIEB is delivered with a high-volume bolus (10 mL) of lower concentration local anesthetic solution (0.0625% bupivacaine with fentanyl 2.0 mcg/mL).

NCT ID: NCT03437031 Terminated - Labor Pain Clinical Trials

Virtual Reality in Labor and Delivery for Reduction in Pain

Start date: March 1, 2018
Phase: N/A
Study type: Interventional

The purpose of this study is to identify whether use of virtual reality devices can improve the pain management of women in labor and delivery. The investigators will perform a randomized controlled trial of patients in labor at Cedars-Sinai Medical Center.

NCT ID: NCT02762149 Terminated - Labor Pain Clinical Trials

The Response Patterns to the Electrical Stimulation of Epidural Catheters With Varying Pulse Widths in Term Pregnant Women

Start date: May 2016
Phase: N/A
Study type: Interventional

Epidural analgesia is commonly used for labor pain relief due to its safety and effectiveness. Despite a very high success rate, the epidural technique remains a somewhat blind technique and failures continue to occur. Unfortunately, there are no imaging techniques that can be used at the bedside to determine the proper positioning of the epidural catheter. The trans-catheter electric stimulation test (TCEST) has been successfully used for this purpose. This test is occasionally performed in situations where the immediate confirmation of the proper epidural catheter location is deemed necessary. The test helps to predict which epidurals might fail so that appropriate measures could be immediately implemented. There has been one duration of electrical stimulus (0.2 milliseconds) that has been used in the majority of studies and in clinical practice. With this duration of stimulation, the vast majority of cases show a unilateral motor response of the lower limbs during the TCEST. Studies on the stimulation of peripheral nerves (nerves in the arms and legs) have shown that an electrical stimulus with a longer duration is able to stimulate nerves which are farther away. Since nerves in the epidural space are similar in composition to peripheral nerves, the investigators expect to see a higher rate of bilateral response with the longer duration of stimulus. The investigators also hope to show that this bilateral response is predictive of a better functioning epidural. The investigators hypothesize that the incidence of a bilateral response to the TCEST will be higher with the 1.0 ms pulse width compared to 0.1 ms pulse width. Furthermore, the investigators hypothesize that a bilateral motor response associated with the 1.0 ms pulse width will be predictive of symmetry of sensory and motor block and of lower consumption of local anesthetic.

NCT ID: NCT02710877 Terminated - Labor Pain Clinical Trials

Intermittent Automated Devices for Labor Analgesia in Emilia Romagna

PA-RER
Start date: December 23, 2014
Phase: N/A
Study type: Interventional

The study aims to determine whether the use of automated intermittent devices for labor analgesia could prevent the increase of instrumental deliveries, with same analgesia. Moreover it will evaluate if automated devices can allow a reduction of health-care burden.

NCT ID: NCT02212210 Terminated - Labor Pain Clinical Trials

Maternal Epidural Steroids and Hyperthemia

Start date: February 2012
Phase: Early Phase 1
Study type: Interventional

The purpose of this study is to look to see if adding steroids to an epidural reduces the chances of having a fever in labor, and protects the baby from exposure to inflammation.

NCT ID: NCT02121184 Terminated - Pregnancy Clinical Trials

Association Between Fluid Administration, Oxytocin Administration, and Fetal Heart Rate Changes

Start date: April 2014
Phase: N/A
Study type: Interventional

Fetal heart rate patterns are an important parameter in the diagnosis of non-reassuring fetal status. Combined-spinal epidural analgesia is a method of initiating labor analgesia used by approximately 90% of the parturients at Prentice Women's Hospital. Optimizing the variables which could affect fetal heart rate patterns at the time of initiation of analgesia, such as fluid administration and oxytocin management, could help us provide better care for our patients and their fetuses. Hypotheses: Patients who receive a 1000 mL fluid bolus and lower rates of oxytocin administration will have fewer non-reassuring fetal heart rate (FHR) changes.

NCT ID: NCT01738672 Terminated - Labor Pain Clinical Trials

Inhaled Nitrous Oxide and Labor Analgesia

Start date: February 2012
Phase: Phase 2
Study type: Interventional

Hypothesis: The administration of nitrous oxide for labor analgesia will decrease the labor epidural anesthesia rate by 15%. Specific Aim: To determine if nitrous oxide can be an effective alternative technique for the provision of labor analgesia at Magee-Womens Hospital.