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NCT07483424
Intrauterine growth restriction (IUGR) is defined as the inability of the fetus to fulfill its genetic growth potential. "Small for gestational age" (SGA) is the most commonly used indicator for diagnosing IUGR. However, this definition does not consider intrauterine growth trajectory or physical characteristics at birth. SGA is based on the relationship between birth weight and gestational age, and does not address anthropometric measurements at birth or prenatal indicators, such as biometric, biophysical, and Doppler velocimetry abnormalities. SGA infants may constitute intrauterine growth restricted as well as constitutionally small infants. This distinction can be made more accurately by complementary assessment of body composition. The clinical meaning of each group identified by body composition will be assessed by the evolution until 3-months of age. The feeding pattern and composition will be considered a major postnatal exposure. Accurate classification of IUGR profiles is essential to ensure appropriate nutritional intervention.
NCT07193381
This prospective observational cohort study aims to evaluate the relationship between ductus venosus Doppler parameters and perinatal outcomes in pregnancies complicated by intrauterine growth restriction (IUGR). Pregnant women diagnosed with IUGR will undergo longitudinal Doppler assessments of the ductus venosus during the third trimester. The Doppler indices will be correlated with perinatal outcomes, including Apgar scores, neonatal intensive care unit (NICU) admission, and perinatal mortality. The study seeks to determine whether serial ductus venosus Doppler measurements can serve as predictive markers of adverse neonatal outcomes in IUGR pregnancies.
NCT07462182
The local literature lacks comprehensive information regarding the actual incidence of intrauterine growth restriction (IUGR) and oligohydramnios and currently available therapeutic options. Therefore, the current study was planned with the objective to evaluate the impact of enoxaparin therapy compared with standard management on neonatal outcomes in pregnancies complicated by intrauterine growth restriction (IUGR) with oligohydramnios.
NCT02583763
The aim is to increase awareness of the relationship between (IUGR) and cardiac function in the foetus, the development of cardiac function over time after delivery and what significance a possible early disturbed myocardial function have for the neonate and the child during the first years of life.
NCT02523222
This was a quasi-experimental pilot study comparing blood glucose values 30 minutes after feeding alone or feeding + dextrose gel in newborns at risk for transient neonatal hypoglycemia.
NCT05500989
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.
NCT06074601
The goal of this observational study is to develop and validate cell-free RNA-based biomarkers for predicting a variety of adverse pregnancy outcomes in a pregnant person population. The main question it aims to answer are: 1. Can cell-free RNA-based biomarkers predict which pregnant people are at greatest risk of developing adverse pregnancy outcomes (e.g., preterm birth, preeclampsia)? 2. What is the performance of such biomarkers when predicting an adverse pregnancy outcome (e.g., sensitivity, specificity, PPV, NPV, TPR)?
NCT04506970
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.
NCT05038462
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.
NCT04514276
Due to the fetoneonatal pathway it is possible to identify pregnant women with an increased risk of fetal growth restriction or pre-eclampsia in early stages (from 10th week of pregnancy). Women whose pregnancy is considered high-risk receives risk-adapted prenatal treatment as well as certain treatments for their newborn and infant until 1 year of age. The tasks of all involved persons are defined by standard operating procedures (SOP)
NCT05622838
Intrauterine growth restriction (IUGR) is defined as a velocity of fetal growth less than the normal fetus growth potential for a specific neonate as per the race and gender. These neonates face many acute problems during peripartum and after birth .The causes of IUGR may be maternal, placental, fetal or genetic and also due to combination of any of these factors. Knowledge of etiologies of fetal growth restriction (FGR) is essential, so that future care can be targeted at prevention . It is apparent that FGR is primarily caused by placental dysfunction (PIH\&PE), insufficiency that lead to reduced fetal growth overall. FGR is associated with lifelong burden of chronic diseases including metabolic, respiratory, cardiovascular and neurological deficits. Pre-eclampsia (PE) is diagnosed by the combined presentation of high blood pressure and proteinuria. New definitions also include maternal organ dysfunction, such as renal, liver, neurological or haematological complications, uteroplacental dysfunction, or FGR . In an attempt to correct fetus reduced supply the placenta release various cytokines and markers as Alpha-1 anti-trypsin (AAT). The Golgi apparatus secretes this cytokine in placental cytotrophoblast and blood vessels. AAT is antinflammatory antiprotease protective molecule. AAT rises during normal pregnancy. The suboptimal rise of AAT in pregnancy are liable for increased obstetrical complications like abortion, preterm labor. AAT levels were found decreased in placenta tissues from women with PE compared that of healthy women. Although AAT deficiency is associated with several pregnancy and placental disorders, little is known regarding AAT levels and PE .
NCT02879942
Preeclampsia (PE) and intrauterine growth restriction (IUGR) are clinical manifestations of placental insufficiency. These complications affect 5-15% of pregnancies, and are responsible for up to 20% of preterm births. Women who develop PE during pregnancy also have an increased risk for cardiovascular events, both at short and long term. This justifies the need to improve diagnostic tools to identify patients at risk for these complications. PE and IUGR are multifactorial entities. Screening algorithms should thus include several parameters to achieve high detection rates. Research has mainly focused in the analysis of biophysical and biochemical parameters, and the study of the placenta itself has not been included in current diagnostic strategies. Investigators hypothesize that detection rates of preeclampsia and intrauterine growth restriction could be improved by the study of placental characteristics in the first trimester of pregnancy.
NCT05142644
Intrauterine growth restriction (IUGR) is a pregnancy complication in about 3-5% of all pregnancies in Sweden. IUGR fetuses are at high risk of morbidity and death. The method used in Sweden to detect IUGR is repeated measurements of pregnant women's symphysis-fundus measure (SF measure). Weight estimation with ultrasound is performed only on indication; stagnant or deplaning SF dimensions or in the event of complications. Only high-risk pregnancies have repeated growth checks during pregnancy from the beginning. There are potential benefits to detecting IUGR fetuses during pregnancy. Still, the effect is questioned. A meta-analysis of randomized studies could not benefit from a routine ultrasound in the third trimester. The scientific purpose of this work is to evaluate the benefits of early detection and care of SGA (small for gestational age)/IUGR (growth-inhibited) fetuses and, if possible, to increase knowledge about this patient group. The hope is that this will lead to a better opportunity to personalize both preventive care and treatment of these women and children.
NCT03368755
The study hypothesis is that intrauterine growth restriction (IUGR) may have long-term effects on respiratory muscle (RM) function, thus leading to reduced exercise capacity later in life. The objective is to investigate the above hypothesis by comparing RM function and cardiopulmonary exercise testing (CPET) parameters between school-aged children exposed to IUGR and healthy controls.
NCT04213443
Women of short stature tend to be classified regarding fetal growth by the same criteria as women of normal and tall stature. The objective of the following study is to evaluate fetal growth patterns parallel to women's height and try to make conclusions regarding possible definitions of subjective Intra-uterine growth restriction.
NCT03669185
Approximately 10% of all pregnancies experience mal perfusion of the placenta resulting in fetal growth restriction (FGR) of the fetus. FGR is the most important cause of perinatal mortality and morbidity. Impaired placental function determined by insufficient transformation of the uterine arteries and mal-perfusion of the placenta is the leading cause of FGR. So far, there is no treatment option for pregnancies complicated by FGR and the clinical management is restricted to close monitoring, assessing for the optimal time point of delivery of the fetus threatened by intrauterine death. In a pilot study a risk reduction of 38% for the development of severe FGR and FGR or death could be demonstrated by giving the organic nitrate pentaerithrityl-tetranitrate (PETN) to patients recognized at risk for FGR by impaired uterine artery Doppler at mid gestation (Schleussner, 2014). To confirm these results this prospective randomized placebo controlled double-blinded multicentre trial, was initiated.
NCT04047966
It is an observational and prospective study that will include consecutively 63 controls (fetuses with estimated fetal weight above the 10th centile) and 63 fetuses with defects in fetal growth (estimated fetal weight below the 10th percentile) during the third trimester (32-26 weeks) with gestational age at birth equal or over 37 weeks. Investigators will collect: (1) Obstetric and nutritional questionnaires, (2) maternal samples between 32-36 weeks (feces), (3) intrapartum samples (maternal blood, cord blood and placenta) and (4) postpartum samples (meconic and newborn feces at 6 weeks of life)
NCT04141189
This study will be undertaken to determine whether the frequency of fetal surveillance can be safely reduced from bi-weekly to weekly in the case of fetusus with intrauterine growth restriction.
NCT02442492
Early-onset placental intrauterine growth restriction (EO IUGR) is associated with a high risk of perinatal morbidity and mortality. In association with reduced circulating placental growth factor (PlGF) EO IUGR results from abnormal placentation with inadequate remodelling of the maternal uteroplacental arteries. There is no known treatment for placental IUGR. Management involves intensive fetal surveillance with delivery with evidence of serious fetal compromise. However, remote from term, delivery is associated with significant perinatal mortality and morbidity. Sildenafil vasodilates the uteroplacental vessels of IUGR-affected pregnancies and may represent a novel therapy.
NCT03398629
The purpose of this prospective cohort study is to build a large platform that includes clinical information (prenatal diagnosis and postnatal follow-up data) and biological specimen banks of fetuses/infants with IUGR or congenital anomalies, which provide vital support and research foundation for accurate diagnosis, precision treatment and meticulous management.