View clinical trials related to Infant, Premature.
Filter by:Very low birth weight (VLBW) infants have more health and developmental problems than normal birth weight full-term infants. These problems are more common in males than female VLBW preterm infants. Male VLBW infants also experience less positive mother-infant interactions than females, especially when mothers are emotionally distressed. This is a significant problem because positive mother-infant interactions function as an important protective factor against the negative health and developmental outcomes associated with prematurity. The source of the vulnerability of male VLBW infants to health problems, suboptimal mother-infant interactions, and poor development goes beyond gender socialization differences and includes biological factors. Identification of infant and maternal biological markers/predictors of infant health and developmental outcomes could ultimately lead to interventions for VLBW preterm infants. The purpose of this study is to confirm that testosterone rather than cortisol is a more reliable marker/predictor of complications affecting infants' health outcomes, mother-infant interactions, and infant cognitive/motor/language developmental outcomes; and that male infants exhibit a higher sensitivity to testosterone levels than female infants. This longitudinal study will examine the associations of the steroid hormones, testosterone and cortisol, levels with infant health, mother-infant interactions, and infant cognitive/motor/language development ('infant development') in very low birthweight (VLBW, BW < 1,500 g) preterm (gestational age < 32 weeks gestation) infants after adjusting for maternal physical and mental health state, infant socioemotional and behavioral development, and characteristics of infants and mothers. Concurrent and repeated measurement of testosterone and cortisol levels both in infants and mothers will be conducted through infancy and early childhood (at birth, 40 weeks postmenstrual age, 12 and 24 months corrected age).
This study is a randomized controlled study to compare if a a non-invasive neurally adjusted ventilatory assist (NIV-NAVA) is better than nasal continuous positive airway pressure (N-CPAP) after extubation in infants' < 30 weeks of gestation.
This study examines if the internet-based peer support has an effect on the breastfeeding attitude or the duration of breastfeeding in preterm infants and their mothers compared with mothers with routine care. The factors associated with the initiation of breastfeeding in the neonatal intensive care unit will be determined. In addition, the perceptions of the mothers of preterm infants about their needs and problems when breastfeeding their preterm infants are described.
To explore the effects of enteral choline and DHA supplementation on plasma choline and DHA-PC concentrations and metabolism, this randomized controlled study will assign 40 preterm infants to 1 of 4 groups: standard care, choline supplementation, DHA supplementation, and choline and DHA supplementation. After 7 days of supplementation, a single dose of stable isotope labelled choline will be administered and the kinetics of newly synthesized DHA-PC determined to assess plasma levels, uptake and distribution of choline and DHA. This study is designed to inform larger studies evaluating this approach of enteral co-application of choline and DHA on clinical important outcomes.
Infants comprise a potentially vulnerable research population that received special consideration and protections under the US Code of Federal Regulations - Subpart D. Of the four categories of research involving children, 45 CFR 46.406 is of particular interest to researchers, ethicists, parents, and clinical staff members since it concerns the conduct of research with "more than minimal risk" without the prospect of direct benefit. Parents are the surrogate decision makers for infants. When asked about this type of research in studies pertaining to older infants and children, parent themes include: concerns of medical research and research-related risk, desire to advance generalizable medical knowledge and knowledge specific to their own child's disease. There are no data on parents' perceptions regarding this category of research that target the premature, late-preterm and term newborn populations. This study involves a questionnaire for both staff (nurses and physicians) and parents. The questionnaire represented 4 different infant scenarios in a random order. Respondents are asked to answer questions related to enrollment in a research study for each of the 4 scenarios.
The primary hypothesis is that preterm infants who are less than or equal to 32 weeks gestation and weigh 1001-2500 grams at birth will have an increase in weight gain with a feeding goal of 180-200 ml/kg/day more than the commonly used feeding goal of 140-160 ml/kg/day
The purpose of this study is to determine an optimal strategy to wean nasal continuous positive airway pressure (NCPAP) in preterm babies. The investigators hypothesize that babies that are taken off NCPAP at lower settings will need fewer total days on NCPAP than those babies taken off at higher settings.
The primary purpose of this study is to determine nutrition outcomes and risks to gastrointestinal integrity and function of aspirating for routine gastric contents prior to each feeding in very low birth weight premature infants.
Background 25,000 infants are born extremely preterm every year in Europe. This group of infants carries a high risk of death and subsequent cerebral impairment for the infant, especially in the first 72 hours of life. Mortality is about 20%, and about 25% of survivors live with either cerebral palsy or low intelligence quotient. Preventative measures are keys to reducing mortality and morbidity in this population. There is evidence that the cerebral oxygenation time spent out of range (time with hypoxia or hyperoxia) is associated with poor outcome in infants. Near-infrared spectroscopy (NIRS) has been used to monitor tissue oxygenation since the mid-1980s, and quantification of oxygenation (rStO2) in a percentage from 0 to 100% has been possible for 10 years. From almost 400 preterm infants normal ranges of rStO2 has been determined to be from 55% to 85%. Still, there are no clinical trials and thus no solid evidence of the clinical utility of NIRS in preterm infants. Thus, research on the benefits and harms of cerebral monitoring using NIRS as a part of clinical management of premature infants is much needed. Objectives The primary objective of the SafeBoosC trial is to examine if it is possible to stabilise the cerebral oxygenation of extremely preterm infants during the first 72 hours of life through the application of cerebral NIRS oximetry and implementation of an rStO2-specific clinical treatment guideline. We hypothesise that by using the specified treatment guideline to respond to cerebral monitoring readings outside the target range, we would reduce the burden of hypo- and hyperoxia and consequently reduce brain injury. Trial design This is an investigator-initiated randomised, blinded, multinational, phase II feasibility clinical trial involving preterm infants from 12 European countries. Inclusion criteria The inclusion criteria are: neonates born more than 12 weeks preterm (gestational age up to 27 weeks and 6 days); decision to conduct full life support; parental informed consent; and cerebral NIRS oximeter placed within 3 hours after birth. Sample size With a 50% reduction of the area outside the normal range of oxygenation in %hours in the experimental group compared to the control group as the minimal clinically significant difference, a standard deviation of the area outside the normal range of 83.2 %hours, a type I error (alpha) of 5%, and a type II error of 0.05 (power of 95%) inclusion of 75 preterm infants in the experimental group and 75 preterm infants in the control group is required. The inclusion of twins are likely to decrease power, so it has been decided to increase sample size to 165 on a pragmatic basis of estimating intracluster correlation, control event rate, and incidence of twin births. Intervention The premature infants will be randomised into one of two groups (experimental or control). Common is that both groups will have a cerebral oximeter monitoring device placed within three hours after birth. In the experimental group, the cerebral oxygenation reading is visible, and the infant will be treated accordingly using a defined treatment guideline. In the control group, the cerebral oxygenation reading is NOT visible, and the infant will be treated as usual. Trial duration Monitoring by cerebral oximeter will be started as soon as possible and within 3 hours after birth and the intervention will last for 72 hours. Thereafter, each neonate will be followed up at term date (approximately three months after birth) and at 24 months after term date. Outcome measures The primary outcome is the burden of hypo- and hyperoxia in %hours during the first 72 hours after birth. The secondary outcomes are brain activity on an amplitude-integrated electroencephalogram (aEEG), blood biomarkers (brain fatty acid binding protein (BFABP), neuroketal, and S100β), serious adverse reactions (SARs), severe brain injury, and all cause mortality at term date (approximately three months after birth). The exploratory outcomes are burden of hypoxia, burden of hyperoxia, neonatal morbidities, brain injury score on magnetic resonance imaging (MRI), number of therapies implemented during the intervention, physiological variables (mean blood pressure (BP), pulse oximeter oxygen saturation (SpO2), and partial pressure of carbon dioxide (pCO2)), and psychomotor impairment according to neurodevelopmental scales at 24 months after term date.
Objective of this study are: 1) To determine if medication help extreme preterm infants to tolerate feeding better by reaching full feeding earlier.2) Out of two medication; which one is better for efficacy 1) Erythromycin 2) Metoclopramide. Infants who meet inclusion criteria would be entered to study after parental consent. Infant would be blinded to care givers. Infants will be randomized to receive one of three medication for 7-14 days. If infants fail on one medication they will be allowed to crossover to other medication. Infant would be allowed to treat like other infants. Blindness can be broken if deem necessary by attending neonatologist.