View clinical trials related to Fetal Growth Retardation.
Filter by:The goal of this randomized trial is to compare two methods of induction in a fetal growth restriction population. The main question it aims to answer is: • Is trans-cervical balloon superior to prostaglandins in reducing the cesarean section rate, without increasing neonatal morbidity? Participants will have an induction of labour by cervical ripening with trans-cervical balloon in the trans-cervical balloon catheter arm and with Prostaglandins in the Misoprostol arm. Researchers will compare two methods of induction: trans-cervical balloon and prostaglandins to see if trans-cervical balloon is associated with a lower risk of cesarean delivery.
Fetal growth restriction (FGR) is a significant health care issue, affecting 20,000 Australian pregnancies every year. Undetected FGR is one of the key risk factors for stillbirth, but FGR can also cause significant impairments in short and long-term health outcomes for the child. It is a major risk factor for preterm birth and is a recognised causal pathway to the neurodevelopmental injury underlying cognitive and behavioural impairment and cerebral palsy. Current obstetric care is focused on the detection of the growth restricted fetus and then ultrasound assessment of fetal wellbeing to guide timing of delivery. This approach seeks to maximize the gestational age of the fetus at delivery to minimise the risks of prematurity, while delivering the fetus in time to reduce the likelihood of stillbirth. Currently, no therapies exist that can maximize fetal wellbeing in the setting of growth restriction and minimise the frequency of antenatally acquired brain injury due to in-utero hypoxia. This triple-blind, randomized, parallel group, placebo-controlled trial will administer maternal melatonin or placebo supplementation antenatally in the setting of early-onset severe FGR to determine whether melatonin can PROTECT the fetal brain and lead to improved neurodevelopmental outcomes.
The aim of this observational study is to optimize the timing of antenatal corticosteroids administered to patients with pregnancies complicated by early-onset fetal growth restriction in order to reduce neonatal morbidity and mortality. In the Netherlands two main timing strategies of antenatal corticosteroids are commonly practiced. In this study the investigators will compare these two timing strategies regarding CCS administration in early-onset FGR on the combined endpoint of perinatal, neonatal and in-hospital mortality. In addition, the investigators aim to develop a dynamic, prediction tool, a novel technique in prediction research to predict the time-interval in days until delivery within this population. With that, the investigators aim to reduce neonatal morbidity and mortality for future FGR pregnancies.
Comparison of prenatal and postnatal cardiac function assessed by echocardiography using pulsed wave Doppler, Tissue Doppler and speckle tracking (strain and strain rate) between foetuses/neonates with a structural heart disease, with an fetal growth restriction (FGR) and healthy fetuses/neonates.
The primary aim of the study is to evaluate the effect of fortified balanced energy and protein (BEP) supplementation vs. control (multiple micronutrient supplement, MMS) without targeting and with targeting (either by low prepregnancy BMI or low prepregnancy BMI and inadequate gestational weight gain) on birth weight and adverse birth outcomes of low birth weight (LBW < 2500 g) and small-for-gestational age (SGA). To do this we are proposing a cluster-randomized, open labeled effectiveness trial with four arms The main question[s] it aims to answer are: • Does mean birth weight and rate of LBW and SGA differ among mothers randomized to four arms that include targeted or untargeted BEP supplementation vs. MMS differ. Participants will be recruited in early pregnancy and be enrolled in the trial and randomly receive: 1. A daily BEP supplement from enrollment until birth 2. A daily BEP supplement from enrollment until birth, if they have low pre-pregnancy BMI with the rest receiving a MMS supplement 3. A daily BEP supplement from enrollment until birth, if they have low pre-pregnancy BMI with the rest receiving a MMS supplement or get switched to a BEP supplement based on inadequate gestational weight gain. Researchers will compare the above groups to women receiving a MMS daily to see if birth weight is higher in the intervention arms. Other adverse outcomes such as low birth weight, small-for-gestational age and preterm birth will also be compared between groups and relative to the control.
Pregnancy is considered a cardiovascular (CV) stress test, and complicated pregnancies are associated with an increased risk for cardiovascular disease (CVD) later in life. Moreover, it is known that often the pregnancy induced CV adaptation does not resolve completely after a short postpartum (PP) period and it is not clear whether these induced changes will resolve over a longer period of time (i.e. in the upcoming months/years after delivery). Understanding the cardiac adaptation during pregnancy and the reversal process in the postpartum period, as well as the factors that influence this these processes, may provide us not only insight in this mechanism, but may help us in identifying factors that may be target points for modification.
In this project there are 2 time points during the pregnancy included, namely at 21 weeks and 30 weeks of gestation, to measure the predictive values of FGR, strain and strain rate. The fetal growth parameters will be collected at the same time points, to define the growth (differences) throughout gestation of both fetuses. A maternal blood sample will be taken at 21 weeks of gestation to identify the level of exposure to air pollution (black carbon) and the level of biochemical markers of placental dysfunction. Doppler ultrasounds will be used for antenatal identification of placenta insufficiency. At birth, umbilical cord blood and the placenta will be collected. The placenta will be examined, to identify morphological findings which are associated with FGR. The umbilical cord blood and placental biopsy will be used for the level of exposure to air pollution and the level of oxidative stress. One to three days after birth, neonatal strain and strain rate will be measured to define postnatal cardiac remodeling as well as the neonatal blood pressure as cardiovascular risk factor.
The main aim of this project is to determine the Placental Growth Factor and Vascular Endothelial Growth Factor ratio's performance (sFlt-1/PlGF) for the etiological diagnosis of vascular Intrauterine growth restriction (IUGR) compared to a non-vascular IUGR.
Singleton pregnancies being diagnosed of fetal growth restriction from 24 to 32.6 weeks of gestation will be randomized to two equally sized groups: maternal oral supplementation with Lactoferrin and DHA (Docosahexaenoic acid) or placebo.
Fetal growth restriction is one of the major causes of perinatal morbidity, mortality and adverse neurological outcome. Growth restricted fetuses do not reach their potential due to multiple factors. Although early (<32 weeks' gestation) FGR is associated with the highest risk of adverse outcomes, late FGR (≤ 32 weeks' gestation) is more common in daily maternal-fetal medicine care. Despite its' prevalence, optimal standard for monitoring differs between the centers and may be difficult in case of limited access to advanced perinatal care. We present a protocol for COmputerized CTG Self-MOnitoring versus Standard Doppler assessment in Late-onset FGR (COSMOS) trial, which is a prospective, cross-over, open-label and randomized trial that compares two different protocols for late-onset FGR observation. All women carrying fetuses with late-onset FGR with positive end-diastolic flow in umbilical artery will be invited to participate in the randomized trial. Patients will be randomly divided into two groups: CTG - a group that will receive electronic device for cCTG home assessment, and Doppler - a group that will be monitored according to standard Doppler velocimetry criteria. Further management will depend on the arm of the study. Pregnancy and neonatal outcomes will be collected and analyzed.