View clinical trials related to Bronchopulmonary Dysplasia.
Filter by:Infants born between 28 and 32 weeks' gestation with radiological findings and clinical symptoms of moderate RDS, requiring respiratory support with Nasal Continuous Positive Airway Pressure (NCPAP) within the first hour of life, were randomized to receive either standard medical air or a Heliox/Oxygen mixture 80/20 (Heliox) during the first 12 hours of life, followed by medical air until NCPAP was needed. The aim of the study was to assess the therapeutic effects of breathing a low-density gas mixture (heliox: 80% helium and 20% oxygen) in premature babies with Respiratory Distress Syndrome (RDS), undergoing NCPAP in terms of reducing the rate of mechanical ventilation (MV).
PNEUMOSTEM® is human umbilical cord blood derived mesenchymal stem cells and it is intended to treat premature infants with bronchopulmonary dysplasia. This study is to assess the safety and the efficacy of this study drug.
This observational study was conducted to design and test a physiologic definition for bronchopulmonary dysplasia at 36 weeks of life. Infants were studied in a supine position with the pulse oximeter in position with good signal prior to collecting baseline data. Feedings and medications were given 30 minutes before the evaluation. Baseline data was collected on infant's current oxygen. Then, the infants were weaned to room air for 30 minutes. If saturations remain ≥90%, the infant was considered to have passed the oxygen reduction challenge (to NOT have BPD). The infant should then be placed back in his/her baseline oxygen. If the infant has saturations <90% for 5 continuous minutes or <80% for 15 seconds, the infant should be immediately placed back in his/her baseline oxygen, and the infant was considered to have NOT passed the challenge (to have BPD).
This pilot study was designed to determine the feasibility of randomizing extremely low birth weight (ELBW) infants <28 weeks' gestation who required resuscitation to one of two resuscitation methods, either: (a) 100% oxygen by facemask and continuous positive airway pressure (CPAP) or positive pressure ventilation (PPV) with positive end-expiratory pressure (PEEP), if the infant required PPV (the intervention group); or (b) 100% oxygen and no CPAP and no PEEP if the infant required PPV (the control group).
This multi-site, randomized trial was conducted to determine the safety and effectiveness of a higher dose of vitamin A and determine if this would increase the rate of survival without bronchopulmonary dysplasia (BPD) and reduce the risk of sepsis. Infants with birth weights from 401-1000g and who were on mechanical ventilation or supplemental oxygen at 24-96 hours of age were enrolled. Subjects were randomized to either the Vitamin A or a control group. Infants in the Vitamin A group were given a dose of 5000 IU (0.1 ml) intramuscularly on Mondays, Wednesdays, and Fridays for four weeks. Control infants received a sham procedure rather than placebo injections.
The purpose of this study is to compare the efficacy of two surfactants, Exosurf Neonatal (Burroughs Wellcome Co.) and Survanta (Ross Laboratories), for the treatment of neonatal respiratory distress syndrome.
The primary question to be addressed by this study is: compared with a functional oxygen saturation level (SpO2) of 91-95%, does targeting SpO2 85-89% in extremely preterm infants from birth or soon after, result in a difference in mortality or major disability in survivors by 2 years corrected age (defined as gestational age plus chronological age)?
Advances in perinatal care have made it possible to improve the survival of the most immature neonates, but at the cost of an increase in the population at risk of developing bronchopulmonary dysplasia (BPD). Measures that have attempted to limit the development of BPD are not always effective, or related to major side effects. The physiopathological factors that are identified in BPD should, in theory, respond to surfactant. Therefore, the use of an exogenous surfactant in neonates presenting with pulmonary disease requiring mechanical ventilation, leading to a significant risk of BPD, should allow earlier extubation and thus promote pulmonary healing and growth.
HYPOTHESIS: Early prophylactic inhalation of Budesonide reduces the absolute risk of developing bronchopulmonary dysplasia (BPD) or death in preterm infants born <28 weeks gestational age (GA) by 10%. PRIMARY OBJECTIVE: To determine whether inhalation of Budesonide within 12 hours of life improves survival without BPD at 36 weeks GA in infants born between 23 and 27 weeks GA. SECONDARY OBJECTIVES: To determine whether prophylactic inhalation of Budesonide affects neurodevelopment at a corrected age of 18-22 months in preterm infants; to determine whether inhalation of corticosteroids is associated with adverse treatment effects, alters mortality at 36 weeks GA, BPD incidence at 36 weeks GA, and the duration of positive pressure respiratory support or supplemental oxygen. RATIONALE: Pre- and postnatal exposure of the developing lung to inflammation is central to the development of BPD and the pulmonary inflammatory response in preterms at risk of developing BPD is established very early in life. Corticosteroids have antiinflammatory properties and early inhalation of corticosteroids may allow for beneficial local effects on the pulmonary system prior to the development of a full inflammatory response with a lower risk of undesirable systemic side effects. STUDY DESIGN: Randomised placebo-controlled, multi-centre clinical trial. RESEARCH PLAN: Within 2 years 850 infants of 23-27 weeks GA will be randomised during the first 12 hours of life to Budesonide or placebo to prevent BPD. Study drugs will be administered via Aerochamber and continued until infants are either off supplementary oxygen and positive pressure support or have reached a GA of 32 0/7 weeks regardless of ventilatory status. The primary outcome of survival without BPD will be determined at 36 weeks GA and BPD will be defined according to the physiological definition. Study patients will be followed and neurodevelopmental outcomes will be assessed at a corrected age of 18-22 months. CLINICAL SIGNIFICANCE: BPD not only contributes to the mortality of preterm infants but is also associated with impaired neurosensory development in Extremely Low Birth Weight (ELBW) survivors, frequent readmission to hospital in the first 2 years of life, as well as with an increased risk of asthma, lung function abnormalities and persistent respiratory symptoms in adolescence and young adulthood. Systemic corticosteroids are effective in preventing BPD, but their use is practically prohibited given their adverse effects on neurodevelopment. Early inhalation of corticosteroids has been shown to be associated with secondary pulmonary benefits, but its effect on survival without BPD and on neurodevelopment remains unclear.
This pilot study is a randomized, placebo-controlled, clinical trial to measure changes in blood and urine levels of inositol in premature infants at high risk for retinopathy of prematurity (ROP) following repeated doses of inositol. Based on previous studies, the premise is that maintaining inositol concentrations similar to those occurring naturally in utero will reduce the rates of ROP and bronchopulmonary dysplasia in premature infants. The objective is to evaluate pharmacokinetics, safety, and clinical outcomes of multiple doses of three different dose amounts of myo-inositol (provided by Abbott Laboratories) in very low birth weight premature infants. This study will enroll an estimated 96 infants at 17 NICHD Neonatal Research Network sites. Infants will be randomly assigned to receive either 10 mg/kg of 5% inositol, 40 mg/kg of 5% inositol, 80 mg/kg of 5% inositol, or 5% glucose given in the same volumes and timings as the inositol dosage to maintain masking. Enrollees will receive their assigned dose or placebo daily, starting within 72 hours of birth, and continuing until they reach 34 weeks post-menstrual age, 10 weeks chronologic age, or until the time of hospital discharge, whichever occurs first. The study drug will be administered first intravenously; as the infants progress to full feeding, the drug will be given enterally (orally or via feeding tube). Enrollees will be seen for a follow-up examination at 18-22 months corrected age. This pilot study is in preparation for a future Phase III multi-center randomized controlled trial.