View clinical trials related to Preterm Infant.
Filter by:The massive use of highly technological devices in Neonatal Intensive Care Units may expose preterm neonates to electromagnetic fields, especially radiofrequencies, at low doses but continuously and chronically. Strikingly, the effect of long-term exposure to radiofrequencies on the neurophysiological development of preterm neonates has never been studied so far. The only studies on the impact of chronic exposure to radiofrequencies have been conducted in animals or adult humans, whereas preterm infants may be particularly vulnerable due to increased penetration of radiofrequency waves into the brain during a crucial period of neurodevelopment. The present project will aim at 1) quantifying individual levels of chronic exposure (during 6 weeks) to which preterm neonates are subjected during their stay in the Neonatal Intensive Care Unit, 2) following the evolution of the thermal environment and of the clinical parameters of the neonates after birth, 3) identifying potential alterations of neurophysiological activity (sleep, cerebral hemodynamics, autonomic nervous activity) which will be correlated to actual levels of chronic RF-EMF (radiofrequency electromagnetic fields) exposure.
Delayed cord clamping (DCC) in preterm infants results in a decrease in mortality and a trend towards fewer intraventricular haemorrhages. However, preterm infants needing immediate interventions for stabilisation or resuscitation were generally clamped immediately and excluded from trials, while these infants might benefit the most of DCC. Studies in preterm lambs demonstrated that delaying cord clamping beyond ventilation onset resulted in more stable hemodynamic transition. This approach was called 'physiological-based cord clamping' (PBCC). The hypothesis of this study is that PBCC in preterm infants at birth will lead to an increase in intact survival when compared to standard care. This study is a multicentre randomised controlled, parallel design, superiority trial, including preterm infants less than 30 weeks of gestation. The intervention is PBCC: stabilisation of the infant with the umbilical cord intact and only clamp the cord when the infant is stable. Stable is defined as the establishment of heart rate greater than 100 bpm and oxygen saturation above 85% while using supplemental oxygen lower than 40%. In the control group cord clamping will be performed time-based: infants are clamped first (at 30-60 seconds if the clinical condition allows) and then moved to the resuscitation table for further stabilisation. The primary outcome will be intact survival at NICU discharge, defined as survival without cerebral injury (intraventricular haemorrhage ≥ grade 2 and/or periventricular leukomalacia ≥ grade 2 and/or periventricular venous infarction) and/or necrotizing enterocolitis (Bell stage ≥ 2).
Patent ductus arteriosus (PDA), very common in preterm infants, is the delayed closure of a fetal blood vessel that limits blood flow through the lungs. PDA is associated with mortality and harmful long term outcomes including chronic lung disease and neurodevelopmental delay. Although, treatments to close PDA likely benefit some infants, widespread routine treatment of all preterm infants with PDA may not improve important outcomes. Left untreated, most PDAs close spontaneously. Thus, PDA treatment is increasingly controversial and varies markedly between hospitals and individual providers. The relevant and still unanswered clinical question is not whether to treat all preterm infants with PDA, but whom to treat and when. Treatment detriments may outweigh benefits, since all forms of deliberate PDA closure have potential adverse effects, especially in infants destined for early, spontaneous PDA closure. Unfortunately, clinicians cannot currently predict in the 1st month which infants are at highest risk for persistent PDA, and which combination of clinical risk factors, echocardiographic (echo) measurements, and serum biomarkers may best predict PDA-associated harm. The American Academy of Pediatrics has acknowledged early identification of infants at high-risk from PDA as a key research goal for informing future PDA-treatment effectiveness trials. Our objective is to use a prospective cohort of untreated infants with PDA to predict spontaneous ductal closure timing and identify echo measurements and biomarkers that are present in the 1st postnatal month and associated with long-term impairment. Our central hypothesis is that these risk factors can be determined to inform appropriate clinical treatments when necessary. Clinical, serum and urine biomarkers (BNP, NTpBNP, NGAL, H-FABP), and echo variables sequentially collected during each of the first 4 postnatal weeks will be examined. In addition myocardial deformation imaging (MDI) and tissue Doppler imaging (TDI), innovative echo methods, will facilitate the quantitative evaluation of myocardial performance. Aim 1 will estimate the probability of spontaneous PDA closure and predict the timing of ductal closure using echo, biomarker, and clinical predictors. Aim 2 will specify which echo predictors and biomarkers are associated with mortality and severity of respiratory illness at 36-weeks PMA. Aim 3 will identify which echo predictors and biomarkers are associated with 22- to 26-month neurodevelopment. All models will be validated in a separate cohort. This project will significantly contribute to clinical outcomes and PDA management by reducing unnecessary and harmful overtreatment of infants with a high probability of early spontaneous PDA closure, and will permit the development of outcomes-focused trials to examine the effectiveness of PDA closure in those "high-risk" infants most likely to receive benefit.
Infants born very preterm (≤28 weeks of gestation) are at high risk of having developmental disabilities including cerebral palsy, coordination impairments, attention deficit and learning disabilities. Impairment including reduced postural control, movement variability, visual motor skills, and motor learning are common during the first months of life and are associated with later developmental disabilities. However, infant born very preterm rarely receive evidence based therapeutic intervention in the first months of life when basic science and animal intervention studies suggest the greatest efficacy. Barriers to enrollment in services delay the onset of services and delivery models rarely support targeted preventative intervention or enhanced parent engagement during in the transition from the neonatal intensive care unit (NICU) to home. Targeted intervention supporting postural control and motor learning in the NICU have resulted in short term motor gains. Interventions that enhance parent's ability to read their infant's cues and provide engagement opportunities improve maternal mental health and infant social and cognitive outcomes in the short-term. The purpose of this randomized clinical trial is to evaluate the efficacy of an intervention that combines evidence based motor intervention and parent engagement to enhance the parent's ability to provide daily motor and cognitive opportunities resulting in improved motor and cognitive outcomes. Supporting Play Exploration and Development Intervention (SPEEDI) uses guided participation to empower parents in reading infant's behavioral cues, identifying ideal times for interaction, and enriching the environment and learning opportunities. Parents participate in 5 session in 3 weeks while learning principles of engagement, readiness for interaction, and to provide early motor and cognitive learning opportunities. Parents provide 20 minutes of motor and cognitive play based enrichment daily for 12 weeks with bi-weekly physical therapist support. The parent is empowered to determine the infant's current abilities and advance the activities to the "Just Right Challenge" throughout the 12 weeks, likely continuing after the intervention. The efficacy of SPEEDI will be assessed during delivery at 2 time point; the transition from the NICU to home (around the infant's due date) and at 3-4 months of adjusted age (after the infants due date). Ninety infants will be randomly assigned to a Usual Care group, SPEEDI_Early, or SPEEDI_Later group. Group differences will be assessed in developmental outcomes on the motor and cognitive scales of the Bayley Scales for Infant and Toddler Development as well as the Early Problem Solving Indicator and Gross Motor Function Measure at the end of each intervention period, 12 and 24 months of age.
This is a multicentre, phase III, 2-arm, masked randomized controlled trial. The primary hypothesis is that oral bovine lactoferrin (bLF), through its antimicrobial, antioxidant and anti-inflammatory properties, will reduce the rate of mortality or major morbidity in very low birth weight (VLBW) preterm infants.
Every year, almost all of ½ million infants born prematurely in the US and 15 million worldwide suffer from abnormal brain maturation resulting from interactions between immaturity and atypical sensory experiences after birth. This study uses rigorous scientific methods to measure the effects and determine the mechanisms of action of a parent-supported multisensory neurorehabilitative intervention for preterm infants, adaptable to a wide variety of neonatal environments, even when parents cannot be at their child's bedside. The intervention aims to improve brain multisensory processing, reactions to sensory stimulation in the home and long term language and motor development.
The purpose of this study is to determine, in preterm infants less than 37 weeks gestation with respiratory distress who are ventilated in the first 48 hours after birth, if mid frequency ventilation strategy using ventilator rate of ≥ 60 to ≤ 150 per minute compared with standard frequency ventilation strategy using ventilator rates of ≥ 20 to < 60 per minute will increase the number of alive ventilator-free days after randomization and reduce the risk of ventilator induced lung injury.
The investigators hypothesise that intact umbilical cord milking (I-UCM) will reduce neonatal morbidity and improve long term neurodevelopmental outcome in very preterm infants. All babies born less than 32 weeks gestation, meeting the inclusion criteria will be randomly assigned to either I-UCM or immediate cord clamping (ICC) and their short and long term outcome measures analyzed.