View clinical trials related to Fetal Growth Retardation.
Filter by:The aim of our study is to evaluate the effect of PE and FGR on fetal cardiac function. Pregnancies with preeclampsia and FGR, and preeclampsia with normal fetal growth are evaluated by echocardiography and compared with uncomplicated pregnancies.
The purpose of this research study is to study the use of an ultrasound measurement system (USCOM) for patients with newly diagnosed fetal growth restriction (FGR). This system uses a technology to measure how much blood is being pumped in and out of the heart, which is important for understanding the heart's function in relation to pregnancy.
An essential part of clinical research is the availability and accessibility of human biospecimens for the identification of biomarkers, new treatments and measurement of response to therapy. Proteins, RNA and DNA can be extracted and studied as well. This is a critical first step in performing many fundamental molecular biology experiments. A variety of biospecimens are utilized for research including but not limited to normal and malignant tissues, blood, and other body fluids. In order to obtain high-quality biospecimens, they must be acquired serially, stored according to current standards, and matched with clinical information for maximum value. As such, the investigators would like to create a repository of biospecimens collected from pregnant patients who are seen at Mount Sinai Hospital and other research hospitals in Toronto. Mount Sinai provides personnel and infrastructure to serve the largest (7500 births/year) and highest complex Maternity program in Ontario. Of the 7500 patients a year, at least 2500 are considered high risk pregnancies, where there's a possibility of preeclampsia, placenta accreta and a host of other complications. For this study, biological specimens - blood, cervical and placental samples - will be collected from these high-risk groups in order to better understand the causes of the underlying conditions.
Fetal cells are not easily obtained from pregnant patients; this curtails testing to assess the health of the fetus and the mother. Currently, the only way of diagnosing fetal genetic or chromosomal abnormalities is by invasive techniques, such as chorionic villous sampling (CVS) and amniocentesis performed at 10 to 13 weeks and after 15 weeks of gestation, respectively. Although small, there is a risk for fetal loss with these procedures. Transcervical cell sampling (TCS), similar to a Pap smear, is a platform that meets the requirements for prenatal genetic testing (genetic testing with fetal cells obtained before birth), as well as diagnosis of maternal pregnancy complication, at a very early stage of pregnancy (as early as 5 weeks) and carries low risk for the mother and the developing fetus. This study will examine cervical fluid collected using various noninvasive methods for TCS in pregnant women. The number of placental cells will be assessed against similarly obtained samples from nonpregnant women of reproductive age who lack cells derived from a placenta. Participating volunteers will provide written informed consent. Only standard medical procedures and approved devices will be used for collection of cervical fluid, minimizing risk to the participants and their fetuses. No test results or other benefits will be available to the participants.
This study serves as a supplemental investigation to the randomized controlled SCAN-AID study (NCT0632187). This study will evaluate and compare the fetal growth estimation outcomes of AI-supported groups, expert sonographers, and control groups using a secondary AI predictive model.
The goal of this clinical trial is to learn more about how the food and nutrition babies receive while in the Neonatal Intensive Care Unit (NICU) influences their ability to gain weight and fat-free mass, and their future growth and development. Participants will: - have body growth measurements collected using the PEAPOD device - have nutritional information collected, and - be followed for neurodevelopmental outcomes Participants can expect to be in the study for 36 months.
This stepped wedge cluster randomized clinical trial investigates whether in pregnant women with severe, early-onset fetal growth restriction, the use of STV analysis in fetal monitoring improves the chances of perinatal survival, compared with visual evaluation of the cardiotocography.
The purpose of this study is to compare the composite neonatal adverse outcomes (CNAO) among pregnancies complicated by fetal growth restriction (FGR) managed using the Society of Maternal-Fetal Medicine (SMFM) versus International Society of Ultrasound in Obstetrics and Gynecology (ISUOG) antepartum ultrasound guidelines, to measure the rate of the individual components of CNAO, to record the rate of cesarean delivery during labor, to tabulate the rate of deviation from the management protocol assigned at the time of evaluation, to record neonatal intensive care unit (NICU) admission rates and to measure the rate of the composite maternal adverse outcome (CMAO).
Chronic histiocytic intervillositis (CHI) is a rare condition with an incidence of 5 in 10,000 pregnancies. This rare condition is associated with placental inflammatory lesions leading to severe and recurrent obstetrical complications: intrauterine growth retardation (IUGR), fetal death in utero and miscarriage. The pathophysiological mechanisms of CHI are poorly understood, while the empirical treatments prescribed to prevent recurrence are cumbersome and of poor efficacy. Recent findings suggest that an alloimmune response may play a role. In a recent work, the investigators have demonstrated the role of maternal alloantibodies directed against fetal HLA antigens in two patients followed for recurrent IUGR associated with CHI. Their work suggests that a humoral alloimmune response directed against fetal HLA antigens mimics an allograft rejection process. The investigators propose to extend the preliminary results obtained in these patients to provide new insights into the pathophysiological mechanisms of CHI, and eventually to predict the risks of fetal loss.
There are few safe, effective, and affordable interventions to improve pregnancy outcomes in low resource settings where the highest rates of poor birth outcomes occur. L-citrulline is naturally found in many foods and is changed into another important amino acid, L-arginine, in the body. L-arginine is important for the growth of a healthy placenta and healthy baby. Adding L-citrulline to the diets of pregnant women may be an effective and affordable way to improve the health of their babies.The goal of the AGREE trial is to test whether a dietary supplement containing a common food component, an amino acid called L-citrulline, can help pregnant Kenyan women at risk of malaria have healthier pregnancies and healthier babies. 2,960 pregnant Kenyan women will be enrolled and randomly assigned to take either a twice daily dietary supplement containing L-citrulline or a placebo supplement without additional L-citrulline. Maternal participants will be seen every month until delivery and at weeks 1 and 6 after birth. Infants will also be followed up at ages 6, 12, 18, and 24 months. The primary outcome of the study is 'adverse pregnancy outcome', a composite of foetal loss (miscarriage or still birth), preterm birth, low birth weight, small for gestational age or neonatal mortality. The results of the AGREE trial could help to guide obstetric and public health policy and provide a sustainable solution that could be implemented at the community level.