View clinical trials related to Fetal Growth Retardation.
Filter by:Stillbirth (SB) is a devastating complication of pregnancy and contributes to over 2 million deaths globally every year. Over 20 million infants are born every year with low birth weight (LBW), which is associated with a twenty times increased risk of death in the first year of life and high rates of short- and long-term illnesses. Sleeping on one's back during pregnancy has recently emerged as a potential risk factor for LBW and SB in the medical literature. In high-income countries, SB rates have mostly remained the same in the past two decades and targeting modifiable risk factors could help reduce the number of SB and LBW in the population. When a pregnant woman sleeps on her back, her body position compresses underlying blood vessels and reduces blood flow to the developing baby. This body position could cause unpleasant symptoms for the mother and result in LBW or SB of her baby. Lying on her side or with a slight lateral tilt helps relieve this compression. One way to keep people off their back while sleeping is by using positional therapy (PT). It is a simple, safe, inexpensive and effective intervention for preventing people who snore or people who's breathing pauses during sleep from sleeping on their back. Reducing the amount of time pregnant women sleep on their back could help reduce SB and LBW rates. The investigators developed a PT device (PrenaBelt) and tested it in three clinical trials, which demonstrated that it significantly decreases the number of time women spend sleeping on their back. Using feedback from our previous research, the investigators developed five additional devices that will be tested in this study. The purpose of this study is to evaluate the new PrenaBelt (PB2) prototypes' ability to reduce the amount of time pregnant women sleep on their backs in the third trimester of pregnancy, validate the Ajuvia Sleep Monitor, and collect feedback on the devices. Demonstrating that the sleeping position of pregnant women can be modified through the use of a simple, inexpensive PT intervention may be one of the keys to achieving significant reductions in LBW and late SB rates in Australia and worldwide.
Abnormal fetal size includes fetal growth restriction and fetal macrosomia. Onset is closely related to maternal nutrition metabolism. The specific correlation and mechanism is unclear, and there are no effective measures for early diagnosis and treatment. Previous study found that maternal gut microbiota participates in the material metabolism throughout the pregnancy. Insulin sensitivity in pregnant women, and intrauterine environment under abnormal blood glucose and lipid metabolism are important for the gut microbiota of newborns and even they grow up. However, changes in gut microbiota are the cause of the disease or the outcome is not yet clear. Short chain fatty acids (SCFAs) are produced from soluble dietary fibers in the diet by colon bacteriolysis. Studies have found that gut microbiota can regulate insulin sensitivity and glucose and lipid metabolism disorders through SCFAs. Therefore, this research group uses the gut microbiota as a new idea to studythe relationship of gut microbiota characteristics and level's change of SCFAs with glucolipid metabolism and insulin sensitivity in pregnant women with abnormal fetal size and their newborns through 16S-rRNA high-throughput sequencing, pyrosequencing, and gas chromatography-mass spectrometry, so we can reveal the role of gut microbiota in the pathogenesis of abnormal fetal size and explore targeted rational dietary adjustment and SCFAs reconstruction of gut microbiota to improve maternal and neonatal pregnancy outcomes.
: In this Prospective longitudinal observational study, two hundred pregnant women with singleton pregnancy from 11 up to 13 weeks with history of intrauterine growth restriction in a previous pregnancy underwent ultrasound assessment of gestational age , ultrasound assessment of uterine artery pulsatility index, placental volume by 3D ultrasound and placental vascularization by 3D power Doppler (3DPD).
Infants diagnosed with intrauterine growth restriction are at increased risk for brain injury in the neonatal period, and eventually increased risk for adverse long-term neurodevelopmental outcomes. This kind of growth restriction is often caused by long-term placental insufficiency leading to chronic lack of oxygen in the brain during development. Pomegranate juice is one of the highest polyphenol-containing dietary supplements commercially available. Previous studies have shown that pomegranate-derived polyphenols are potent neuroprotective antioxidants with no proven side effects. The investigators hypothesize that maternal dietary supplementation with pomegranate juice during the last trimester of pregnancy will reduce the effects of exogenous stimuli contributing to placental insufficiency, and will enhance brain growth and development in the IUGR population.
Introduction: Intrauterine fetal growth restriction (FGR) is a condition in which the fetus does not realize its growth potential in the uterus. Heavy metals important pollutants produced from anthropogenic activities, has been suggested to be embryotoxic and fetotoxic in a lot of studies. However, the causes of fetal growth restriction are little known and heavy metals merit further investigation. The investigators will be tested whether fetal growth restriction was associated with exposure to these metals/vitamins. Methods: This study was designed to determine maternal plasma/urine/hair, cord plasma, placenta and breast milk tin (Sn), manganese (Mn), Vanadium (V), Magnesium (Mg), cobalt (Co), nickel (Ni), arsenic (As), chromium (Cr), cadmium (Cd), lead (Pb), mercury (Hg), antimony (Sb), aluminium (Al), zinc (Zn), copper (Cu), selenium (Se), iron (Fe), vitamin D, vitamin A, vitamin B12 and folate concentrations in women with FGR (n=55) compared to those of volunteer healthy pregnant women (n=55). These heavy metals concentrations measured using inductively coupled plasma-mass spectrometry were compared.
Introduction: The placenta is the organ that permits the maternal-fetal exchange of the oxygen and nutrients. The development of its vascular network occurs in the first trimester. Any deficit during this important angiogenesis procedure can lead to the dysfunction of the placental vasculature, which can potentially cause pathologies including preeclampsia (PE) and intrauterine growth restriction (IUGR). PE concerns 3% of the pregnancy in France. It can occur at any gestational age and leads to serious complications such as eclampsia, the HELLP syndrome or the retro-placental hematoma. IUGR does not only lead to the morbidity and fetal and neonatal mortality, but also has a predisposition for certain pathologies in the adulthood. Many groups have studied the placenta vasculature at the microscopic (histological) scale. However, recent studies show that in addition to the damage at the microvasculature level, the macroscopic placental vessel architecture is also altered. Nonetheless, the origin and the etiology of this phenomenon remains unknown. Since it is difficult to apply in-vivo imaging techniques on pregnant women due to the restriction of usage of contrast agent. Alternatively, ex-vivo MR angiography (MRA) techniques have been developed by our team and others to visualize the entire placental vasculature in a faster way (as compared to corrosion casting). Up to now, only the study of the healthy placenta is done and published. The analysis of the pathological placental vasculature (i.e. PE and IUGR cases) at different gestational age and its comparison to the physiological ones have not been conducted, which will potentially enable a better understanding of the placental vasculature pathology. Objectives: the main objective of this study is to compare the vasculature architecture of the normal and pathological placentas (with possible alteration in the placental vasculature). Methods and analysis: This is a monocentric, prospective, controlled but not randomized study. The investigators expect to include 110 women in Nancy. The pregnant women will be recruited when they arrived at the maternity hospital for delivery, for both the physiological and potential pathological cases. The notice of this study will be given. If no opposition is given by the subject, the placenta may be collected. This study will not collect the patient consent but only the opposition declaration will be collected.
A randomized clinical trial to assess the efficiency of acetylsalicylic acid (aspirin) 150 mg/day started before 20 weeks of gestation in the prevention on maternal and fœtal complications in pregnant women with chronic hypertension.
The CAUSE study is a multicenter study, with domestic (n=4) and international (n=6) study sites. Children and young adults (ages 0-18) who have microtia and/or craniofacial microsomia and their parents are invited to participate. Children and parents are asked to provide a DNA sample (blood or saliva) and are asked to upload a few photos of their face. Parents are asked a short interview. Participants are able to participate from home or at one of four domestic sites.
Need statement - a new way to distinguish between a healthy small fetus and a small fetus suffering from deprivation of nutrition and oxygen to prevent unnecessary induction of preterm birth and improve neonatal outcome. Aim - to characterize fetal heart rate variability (fHRV) based on fetal ECG in the normal fetus and in the fetus suffering from growth retardation to evaluate its value and applicability as a supplementary tool in fetal surveillance. Aim of current study - To evaluate the feasibility of NI-FECG from gestational week 20 and onwards and investigate if important factors as length and heart rate pattern affects repeatability of time domain and spectral analyses in fetuses.
This study evaluates the utility of expanded panel non-invasive prenatal testing (NIPT) in detecting confined placental mosaicism of rare autosomal trisomies among pregnancies with placentally-mediated complications, including fetal growth restriction and severe preeclampsia.