28 Clinical Trials for Various Conditions
Antenatal nonstress tests (NSTs) are performed to assess fetal health and are used as a cost-effective test that can be widely administered. However, an NST is operator-dependent due to the nature of Doppler ultrasound and is primarily performed in a clinic and hospital setting. The ability to conduct a clinically valuable test at home would address access to care issues faced by numerous women in the United States and reduce the workload on healthcare clinicians facing a shortage of human resources. This pilot study aims to assess the feasibility and acceptability of home NST monitoring in order to determine whether femomTM could be utilized as an adjunct to routine prenatal care. Patients with high risk pregnancies who are recommended to undergo at least once weekly at 32 weeks testing by the obstetrician will be recruited for participation in this study. Participants will be asked to perform three 30 minute monitoring sessions weekly starting at 32 weeks for 6 weeks.
The objective of this study is to demonstrate the safety and performance of the M•care™ System for use in antenatal monitoring of pregnant women ≥ 32 weeks' gestation.
Bloomlife MFM-Pro is a non-invasive, wireless, external monitoring system used to measure fetal heart rate and maternal heart rate on pregnant women with a singleton pregnancy, starting from 32 weeks of gestation. The purpose of this study is to validate that the Bloomlife MFM-Pro is equivalent to clinical standard-of-care for fetal heart rate and maternal heart rate when performing antepartum fetal monitoring.
The primary objective of this study is to compare performance of nurses, midwives, and physicians working as individuals versus working as teams in electronic fetal monitoring (as assessed by differences in knowledge and judgment scores).
This study will be conducted on women in labor. Fetal heart rate monitoring will be conducting using the Novii Fetal ECG/EMG system and comparing it to current standard of care external fetal heart rate and tocometry. These approaches will be compared with the respect to need for additional monitoring, amount of nursing intervention, cost and satisfaction of patients and healthcare providers.
Non-stress tests (NSTs) are used to monitor the health of babies during pregnancy. These tests are currently conducted in clinics and hospitals. This requires travel to a clinic or hospital, sometimes multiple times per week, in order to receive these tests. Technology has been developed that now allows for NSTs to be done in other locations, including home or work. The Airstrip® Sense4Baby™ NST device has been FDA-approved for use by obstetricians in clinical and hospital settings. The investigators are evaluating the use of the Airstrip® Sense4Baby™ NST device in out-of-hospital settings. The investigators would like to know if this type of monitoring is feasible and acceptable to patients and physicians.
The Novii Patch is an accessory to the Novii+ Pod that connects directly to the Novii+ Pod and contains the surface electrodes that attach to the abdomen. The primary objective is to collect Data on Skin Integrity and Patch Adhesion Quality From the Patch After 18 Hours of Wear. The secondary objective is to evaluate fetal monitoring on adult pregnant females greater than 32 weeks gestation and non-pregnant females to collect data on electrical fetal, maternal, and uterine activity.
The goal of this clinical trial is to determine the effectiveness of remote nonstress test (NST) compared to in-clinic NSTs in improving fetal testing completion rates. Participants will be randomized to either in-clinic NSTs or use of an FDA-approved remote monitoring belt for their pregnancy monitoring.
Despite its limitations, fetal heart rate (FHR) tracing analysis is the best monitor of fetal well-being during labor or preparation for cesarean delivery. Current monitoring methods: transabdominal ultrasound (CTG: cardiotocograph) and fetal scalp electrodes (FSE) have limitations (tracing loss during fetal movement, potential to confuse maternal for fetal heart rate, inability to monitor during cesarean section or abdominal surgery) and, in the latter case, risks (infection, hematoma). A reliable, non-invasive monitor of the fetal heart rate that can be used during labor, non-obstetric and obstetric surgery during pregnancy is needed. Recent developments in use of maternal abdominal electrodes for extraction of the FHR and contraction information inform this study. LaborView®, developed by researchers at University of Florida (UF) College of Medicine and OBMedical, is an FDA-approved non-invasive labor monitoring device. Refinement of the extraction algorithms continues, and that work is most effectively performed at UF, where the primary researchers and OBMedical are located. LaborView monitoring will be recorded from up to150 subjects admitted to Labor and Delivery at UFHealth. Data will be simultaneously obtained from the standard labor monitor. These signals will then be analyzed off-line for comparison and refinement of algorithms.
This is a feasibility study for a new application for capturing fetal cardiac activity. The objective of this study is to determine if it is feasible to capture a fetal ECG signal using a Holter ECG device. As comparison we will use a standard Doppler Fetal Heart Rate (FHR) device.
Fetal heart rate \[FHR\] monitoring is used widely to assess the well-being of the baby in the delivery period. If it is determined that an urgent cesarean delivery is required because of fetal distress, FHR is discontinued once the mother is in the operating room in order to allow for surgical site preparation. From this point, there is no real-time monitoring that permits assessment of the well-being of the infant. The investigators are evaluating the feasibility of intraoperative FHR monitoring using fetal ECG placed on the mother's upper abdominal wall and the standard acoustic device routinely used. The investigators will compare these to the traditional well-being tests: umbilical arterial blood gas and Apgar score. The first 15 subjects will be recruited from pregnant women who have scheduled induction of labor. The subsequent 40 subjects will be recruited from pregnant women who have scheduled cesarean sections.
Maternal oxygen administration for concerning fetal heart rate tracing (FHT) patterns is common practice on Labor and Delivery units in the United States. Despite the broad use of oxygen, it is unclear if this practice is beneficial for the fetus. The purpose of this study is to compare oxygen to room air in patients with Category II fetal heart tracings with regard to neonatal acid-base status, subsequent tracings, and production of reactive oxygen species
The research will find out if using portable ultrasound devices by nurses can make it quicker to get babies from 24 to 32 weeks on the doppler monitor.
The goal of this clinical trial is to evaluate the potential benefit to patients and providers from using the remote fetal-monitoring system NUVO along with its app to allow for pregnant patients requiring weekly non-stress testing to do so from their homes. The main questions the investigators are looking to answer are: What effect does the NUVO remote fetal monitoring system have on patient/provider satisfaction? What is the cost savings (both direct and indirect) from using a remote fetal monitoring system as opposed to in-person testing for both the patient and the provider? Researchers will compare the survey responses by both patients and providers for pre and post implementation of the NUVO fetal monitoring system to the survey responses of patients and providers who used the traditional in-clinic method to evaluate satisfaction and cost savings. Participants will: Answer pre-implementation surveys before undergoing the trial Be randomly assigned to do either fetal testing at-home or in-clinic once or twice weekly as up to the provider Before hospital discharge or within the last office visit participants will be given a post-implementation survey
This clinical study will evaluate the safety of PregSense™ and Comparative Performance of PregSense™ versus CTG in Prenatal Monitoring of Pregnant subjects.
Three non-invasive, trans-abdominal fetal oximetry probes will be tested on pregnant human subjects, in order to obtain fetal heart rate. We want to determine if this device can accurately measure a baby's oxygen level when placed on your abdomen. Current technology to measure a baby's oxygen levels requires a probe to be inserted into the vagina.
This is a prospective clinical trial involving the use of the FDA-cleared Fetal ECG tracing in labor with the AN24 (Fetal Monitoring device marketed by Monica Healthcare) to the Novii (a newer device also created by Monica Healthcare) using the same technology with different monitor placement.
The specific goal of the proposed research is to develop a reliable, non-invasive fetal and maternal heart rate and contraction monitor that is unaffected by obesity and requires less nursing intervention than the tocodynamometer and Doppler ultrasound.
The purpose of this research is to test a new instrument, called a fetal STAN monitor, that may be used during labor to monitor the electrical activity of the baby's heart. This new instrument is designed to help the doctor determine how well the baby is doing during labor. It will be used along with the existing electronic fetal monitor used to measure the baby's heart rate and the mother's contractions during birth. The specific purpose of this research study is to see if this new instrument (fetal STAN monitor) will have an impact on newborn health.
The purpose of this study is to determine if the information provided to the physician by a fetal pulse oximeter during labor will reduce the chances of a cesarean delivery.
The purpose of the study is to find out the best way to help pregnant women keep track of their baby's movements. During pregnancy, feeling your baby's movements is normal. A decrease in movement can indicate potential problems with your baby's well-being. This study will see if daily electronic reminders and kick count charts help women to better track their baby's movements over the last weeks of pregnancy.
The specific goal of the proposed research is to develop a reliable, non-invasive fetal and maternal heart rate and contraction monitor that is unaffected by obesity and requires less nursing intervention than the tocodynamometer and Doppler ultrasound.
In this research project the investigators want to figure out whether ultrasound (a non-invasive method) can be used to assess how the fetus is doing during labor.
A clinical study designed to validate the safety and performance of the TrueLabor™ device in monitoring labor vs. current standard of care.
The EUM (electrical uterine myography) (OB Tools, Israel) was tested and found to be reliable as a non-invasive method for evaluating uterine contractions and the fetal heart rate. It is safe and effective in monitoring uterine contractions. The investigators propose to perform a study to validate the accuracy and clinical usefulness of the EUM device by simultaneously monitoring obese patients with current method of external tocodynamometry with the EUM device. Providers will be blinded to the results of the EUM device. Caregivers will continue care as per current guidelines using the information obtained from the current monitoring methods. Information obtained from the EUM devices will not be used to determine the clinical course of action.
Clinical Investigation Protocol for a study designed to determine the equivalence of the Monica AN24 monitor to Philips 50XM for fetal heart rate (FHR) and uterine contraction (UC) monitoring during labor. The study will be carried out on subjects in the first and second stages of labor.
This study will compare the performance of a contraction monitor (tocometer) device developed by Fetal Life with standard tocometer devices. The study aims to test a uterine contraction monitor that can be applied by the patient to her abdomen and connected to her smart device to detect the frequency and duration of uterine contractions. Phase 1 will collect data for calibration of the monitor and for a noninferiority study comparing the Fetal Life uterine contraction monitor (tocometer) with standard tocometry devices. Phase 2 will be a feasibility study in which patients will position the monitor, connect to the corresponding Fetal Life app and measure their own uterine contraction activity. The study's hypothesis is that after calibration, the new monitor will reliably detect at least 95% of the number and duration of contractions detected by the standard monitor, and that the device will perform comparably whether applied by the patient or by research staff.
This study will utilize continuous glucose monitoring in women with A2 gestational diabetes. Women will be randomized to continuous glucose monitoring or routine care with fingersticks to check their blood glucose four times daily. It is hypothesized that women in the continuous glucose monitoring arm will have a lower incidence of the composite primary outcome, which includes the following variables: perinatal death, shoulder dystocia, birth weight greater than 4,000 grams, NICU admission for treatment of hypoglycemia (blood glucose level \<40mg/dL) and birth trauma, including fracture or nerve palsy.