View clinical trials related to IUGR.
Filter by:The goal of this MONAS Study is to learn about comprehensive monitoring and nutritional intervention among pregnant women in order to improve maternal and neonatal outcomes. The main questions it aims to answer are: 1. Are comprehensive monitoring and nutritional intervention among pregnant women can improve maternal outcomes (maternal death, preterm labour, preeclampsia, intrauterine infection, and bleeding during pregnancy and delivery) compared to standard maternal health services? 2. Are comprehensive monitoring and nutritional intervention among pregnant women can improve neonatal outcomes (neonatal death, low birth weight, intrauterine growth restriction, and neonatal asphyxia) compared to standard maternal health services? Participants in the intervention group will receive: - Fetomaternal ultrasound examination each trimester - Complete laboratory examination for nutritional panel (complete blood count with reticulocyte profile and iron profile, vitamin D level, zinc level, fatty acid profile, electrophoresis for Thalassemia) as an addition to standard maternal routine laboratory examination - Supplements: multivitamin, minerals, vitamin D, fatty acid - Intervention regarding any abnormal results of nutritional panel - All standard maternal health services according to Indonesian Ministry of Health protocol Participants in the control group will receive: - All standard maternal health services according to Indonesian Ministry of Health protocol
This retrospective study aims to assess the input of thrombophilia screening in pregnant women with severe intra-uterine growth restricted babies.
To determine and evaluate the diagnostic performance of Doppler sonography of umbilical artery (UA), fetal middle cereberal artery (MCA), ductus venosus (VD) and umbilical vein (UV) for prediction of adverse perinatal outcome among diabetic pregnant women.
According to french recommandations for IUGR management we have to propose a CGH-array analysis if the IUGR is severe (bellow the 3rd percentile) and early (in the second trimester). However there is no data to support this point of view.
Obesity is an ongoing public health problem that is difficult to treat. There is evidence that obesity has fetal origins. Body composition, including visceral, subcutaneous, brown, and hepatic fat have been found to be important predictors in obesity and metabolic syndrome. Magnetic resonance imaging (MRI) can quantify body composition that does not require radiation but is motion limited. The investigators have developed a motion-compensated MRI sequence, also known as "free breathing" MRI. In this study, the investigators plan to obtain free-breathing MRIs of pregnant women in the third trimester of pregnancy. MRIs will be obtained from healthy mothers, mothers with growth-restricted fetuses, and mothers with gestational diabetes. The different types of adipose tissue will be measured and compared between groups and correlated to birth growth parameters. The goal is this study is to assess if motion-compensated MRI can help predict early growth patterns in infancy.
Intrauterine growth restriction (IUGR) is caused when the placenta cannot provide enough nutrients to allow normal growth of the fetus during pregnancy. It is unclear why IUGR happens, but an increase in inflammatory T cells in the placenta known as villitis of unknown etiology (VUE) is observed in many IUGR infants. The investigators aim to develop ultrasound methods for diagnosing VUE to understand it's role in IUGR.
With obesity on the rise worldwide more and more young women are also affected, leading to a higher prevalence of obese pregnant women and pregnant women with diabetes. Children of these women are in risk of developing obesity during childhood which again leads to overweight during adult life resulting in life-style related diseases such as diabetes and cardio-vascular disease. Overweight and diabetic women are currently advised to substitute sugar sweetened beverages with artificially sweetened beverages to lower caloric intake and avoid fluctuations in blood glucose to avoid complications during pregnancy for both mother and child. Recent studies suggest that high intake of artificial sweeteners during pregnancy increases the risk of the child developing obesity. If this is indeed true, the current guidelines have the opposite of the wanted and children already in risk of overweight are exposed to extra risk. To investigate if artificial sweeteners can affect the foetus, the investigators wish to examine whether artificial sweeteners can cross the placenta. The study is a clinical trial in which 40 women will be enrolled. 30 participants will drink a diet soft drink 2 hours before a caesarean section and 10 controls will refrain from intake. After birth the investigators will obtain a blood sample from the mother and from the umbilical cord and a placental biopsy and measure the contents of artificial sweeteners. Furthermore, the investigators will obtain a sample of amniotic fluid to examine if the sweeteners are excreted into the amniotic fluid. The results ultimately have the potential to change the current guidelines on diet for overweight and diabetic women during pregnancy.
A single site observational study aiming to: (i) Identify cases of previously undiagnosed thrombotic thrombocytopenic purpura (TTP) and atypical haemolytic syndrome (aHUS) in a cohort of women with complicated pregnancies (ii) Characterise the clinical features of these cases and (ii) Identify clinical features or biomarkers which may help distinguish TTP/aHUS from other complications of pregnancy such as preeclampsia
60 pregnant women with singleton living fetus between 34 -38 wks gestation known to have severe hypertension in the current pregnancy were included. All participants underwent Doppler ultrasonography to evaluate the Feto-Placental Circulation within 24 hours from Pregnancy Termination. Flow Velocity Waveforms were obtained from: Umbilical Artery (UA), Middle Cerebral Artery (MCA), Ductus Venosus (DV), Umbilical Vein (UV). From the flow velocity waveforms the following indices were measured: UA & MCA: Pulsatility Index (PI) & Resistance Index (RI), DV: Peak Velocity Index For veins (PVIV), Peak Systolic Velocity (PSV) & a- wave. UV Flow: Presence or Absence of Pulsatile Flow.
The introduction of enteral feeds for preterm, growth restricted infants are often delayed due to concern that early introduction may not be tolerated and may increase the risk of necrotizing enterocolitis. However, prolonged enteral fasting may diminish the functional adaptation of the immature gastrointestinal tract and extend the need for parenteral nutrition with its attendant infectious and metabolic risks. Early introduction of small volumes of milk in the form of Trophic feeding, promote intestinal maturation, may enhance feeding tolerance and decrease the time taken to reach full enteral feeding independently of parenteral nutrition. A Randomized Trial will be carried out over a period of 12 months in Department of Neonatology of BSMMU. Sample size will be 50(25 in each group). Infants with gestation below 35 weeks, birth weight below the 10th percentile for gestational age, will be randomly allocated by web-based randomization to commence enteral feeds "early," whose feeding will be started from 24 to 48 hours of age or "late," whose feeding will be started from 48 to 72 hours of age. Gradually feeding will be increased. Rate of advancement of feeding will be same for both groups. Primary outcomes will be time to achieve full enteral feeding sustained for 72 hours. Statistical analyses will be performed by using Fisher Exact test and by Student's t test for categorical data and quantitative data respectively. Logistic regression analyses will be performed to determine the role of independent variable.