View clinical trials related to Premature Birth.
Filter by:This is a cross-sectional study in which the investigators will determine the impact of premature/early menopause on MSNA, BP and baroreflex sensitivity in younger (≤49 yr old) and older (≥50 yr old) women. Specifically, aim one will determine mechanisms driving autonomic dysregulation of BP in premature and early menopausal women and aim two will determine mechanisms driving autonomic dysregulation of BP in older menopausal women. The study design outlined below will permit testing of aim one and aim two.
Retinopathy of Prematurity (ROP) is a vascular disease affecting the retinas (back of the eye) of low birth weight infants. Although it can be treated effectively if diagnosed early, it continues to be a leading cause of childhood blindness in the United States and throughout the world. The investigators feel that this study will result in specific knowledge discovery about ROP, as well as general knowledge about how image-based data and genetic data can be combined to better understand clinical disease. Participants will be recruited from the neonatal intensive care unit (NICU) at OHSU, along with 4 collaborating institutions (William Beaumont Hospital, Stanford University, University of Illinois Chicago and University of Utah). Hospitalized infants who receive ROP screening examinations for routine care will be eligible for this study, and will be offered the opportunity to participate. Subjects who provide informed consent will have clinical data from routine care collected along with demographic characteristics, results from routine ROP screening examinations, presence of systemic disease or risk factors. Retinal photographs will be taken during these routine eye exams, using a commercially-available camera that has been FDA-cleared for taking pictures from retinas of premature infants. These retinal pictures do not contain any identifiable patient information, and are taken as routine standard of care. The long-term goal of this research is to establish a quantitative framework for retinopathy of prematurity (ROP) care based on clinical, imaging, genetic, and informatics principles. The investigators have previously recruited and rigorously phenotyped and genotyped a large study cohort, including implementation of a novel reference standard diagnosis; and built a world-class research consortium for image, genetic, and bioinformatics analysis.
This prospective, randomized controlled trial aims to evaluate the efficacy and safety of Transcutaneous Auricular Vagus Nerve Stimulation (TAVNS) for patients with frequent premature ventricular coomplexes (FPVCs). Ninety participants will be randomized to TAVNS group and sham-TAVNS group with the ratio of 1:1. They will receive TAVNS plus usual care or sham-TAVNS plus usual care for 6 weeks, and then be followed up for 12 weeks after the treatment. The primary outcome was the proportion of participants with a 50% decrease of the 24 hour (24h) premature ventricular complexes (PVCs) after 6-week treatment. Secondary outcomes include the proportion of participants with a 75% decrease of the 24h-PVCs; the decrease from baseline of 24h-PVCs, total 24h-heartbeat, and the frequency of supraventricular arrhythmia; the score change from baseline in PVCs-related symptoms; the score change from baseline in SAS and SDS. Subgroup analyses will be performed in age, gender, and the severity of PVCs. Safety assessment will be documented during the whole trial.
This case-control study will be conducted all over the country (in Persian, Kurd, Azari, Arab, Lor, Bakhtiari, Baluch, Turkman, Qashqai, Gilak and in Muslims, Christians, Jewish, and Zoroastrian). the investigators intend to recruit patients (men 60≥ years of age and women 70≥ years of age) who underwent coronary angiography. Patients with coronary artery stenosis more than 75% (or left-main stenosis more than 50%) are defined as case group and patients with normal angiography are considered as the control group. at the same time, the prevalence of premature coronary artery disease in patients with positive angiography will be calculated.
Early vascular aging has its origins in fetal and neonatal life. The NEOVASC clinical trial aims to determine the effects of an exclusive human milk diet in extremely preterm infants on long-term cardiovascular health.
this RCT is designed to investigate the influence of physical activity on the risk f preterm birth for women with cervical dynamics.
Thirteen hospitals in China will participate in the study, which objectives of this study is to improve the rate of mother's own milk feeding of premature infants in neonatal intensive care unit(NICU), evaluate the effectiveness of improving the quality of breastfeeding in clinical use ,form standardized process and improve clinical medical quality of premature infants.
Attachment is built primarily on the first interactions of the first 9 months of a baby's life. These first interactions and their effects of stress, pleasure and displeasure are retained to establish some of the baby's attachment behaviours and future relationships with others. Extreme prematurity strongly modify these first interactions between parents and child. Very preterm child is separated from his parents and is placed in a stressful, technical and potentially painful environment. Early interventions stimulate neuroplasticity and can positively affect the neurological development of very preterm infant. Tactile stimuli such as skin-to-skin contact and massages carried out by parents can be pleasant experiences that can support early interactions between parents and child.
Threatened preterm labor (TPL) is defined by cervical changes and regular and painful uterine contractions occurring between 24 and 36 + 6 weeks of gestation that may or may not lead to premature labor and delivery. There is no reliable way to predict preterm delivery. The study's hypothesis is that the Premaquick® test can improve the prediction of preterm delivery. The investigators also want to compare this test with the Partosure® (Placental alpha microglobulin-1) test.
Premature babies often need help immediately after birth to open their lungs to air, start breathing and keep their hearts beating. Opening their lungs can be difficult, and once open the under-developed lungs of premature babies will often collapse again between each breath. To prevent this nearly all premature babies receive some form of mechanical respiratory support to aid breathing. Common to all types of respiratory support is the delivery of a treatment called positive end-expiratory pressure, or PEEP. PEEP gives air, or a mixture of air and oxygen, to the lung between each breath to keep the lungs open and stop them collapsing. Currently, clinicians do not have enough evidence on the right amount, or level, of PEEP to give at birth. As a result, doctors around the world give different amounts (or levels) of PEEP to premature babies at birth. In this study, the Investigators will look at 2 different approaches to PEEP to help premature babies during their first breaths at birth. At the moment, the Investigators do not know if one is better than the other. One is to give the same PEEP level to the lungs. The others is to give a high PEEP level at birth when the lungs are hardest to open and then decrease the PEEP later once the lungs are opened and the baby is breathing. Very premature babies have a risk of long-term lung disease (chronic lung disease). The more breathing support a premature baby needs, the more likely the risk of developing chronic lung disease. The Investigators want to find out whether one method of opening the baby's lungs at birth results in them needing less breathing support. This research has been initiated by a group of doctors from Australia, the Netherlands and the USA, all who look after premature babies.