View clinical trials related to Bronchopulmonary Dysplasia.
Filter by:SURFAXIN® (lucinactant) treatment will be examined in very low birth weight infants to prevent development of chronic lung disease, commonly known as bronchopulmonary dysplasia (BPD), in premature infants who have required continued intubation and received surfactants for the prevention or treatment of respiratory distress syndrome (RDS).
A research study that will evaluate if giving surfactant medication to premature babies weighing < 1250 gm at birth during the second and third weeks of life will help their lungs. We are enrolling those premature babies who continue to require the breathing tube and the mechanical ventilator at days 7-10 of life.
Very premature infants uniformly do not have mature functioning lungs to breathe well nor mature regulation mechanisms to breathe regularly. Assistance with a mechanical respirator is common. However, prolonged use of a respirator can itself cause long-term complications. Furthermore, commonly used drugs to improve the regularity of breathing may have long-term consequence only recently recognized. This study will compare two different types of assistance using a nasally applied breathing assist device. The aim is to see which type of assistance is best at avoiding the need for both prolonged respirator use and drugs to regulate breathing.
The purpose of this study is to determine whether treatment of very preterm infants at high-risk for lung and brain injury with low dose hydrocortisone results in improved pulmonary and neurologic outcomes.
Hydrochlorothiazide and spironolactone are diuretics that are commonly in preterm infants with bronchopulmonary dysplasia (BPD). Hyponatremia (low blood salt) is a common side effect. It is uncertain whether the best way to treat the hyponatremia is by oral salt supplementation or restricting fluid intake. Our hypothesis is that fluid restricted infants will be better able to preserve the beneficial effects of diuretics on the lungs. The study will include very low birth weight infants (VLBW) 400-1500g from Hermann Memorial Children's Hospital NICU or LBJ General Hospital NICU with BPD. They will be enrolled and randomly assigned to either the salt supplementation group or the fluid restriction group once they become hyponatremic (defined as serum Na <130). The study intervention will take place for four weeks. The primary outcome will be assessed by comparing the patient's initial oxygen and breathing machine requirements with those at the end of the four-week study period.
This study tested whether Neonatal Intensive Care Unit (NICU) teams trained in benchmarking -- comparing care practices between different NICUs to see which practices prevent bronchopulmonary dysplasia (BPD) -- and quality improvement would change practices and improve rates of survival without BPD in inborn neonates with birth weights of <1250 grams. Benchmarking is a method involving detailed comparisons of processes between similar organizations. For this study, three NRN centers with the lowest rates of BPD have been identified as Benchmark centers. During a 6-month pre-intervention period, details of care practices and management style at these centers were carefully assessed. Based on practices at these Benchmarking sites, we developed a quality improvement program. For this study, 14 other NRN sites were randomized to either implement the benchmarking intervention (intervention sites) or continue with their usual care practices (control sites). After the 1-year intervention period, we compared changes in the rate of survival without BPD at 36 weeks corrected age between the intervention and control sites.
Infants who are on breathing support are often treated with steroids (dexamethasone); however, the best timing of therapy is not known. This trial looked at the benefits and hazards of starting dexamethasone therapy at two weeks of age and four weeks of age in premature infants.
To determine whether or not inhaled nitric oxide (iNO) safely decreases the incidence of chronic lung disease (CLD) in premature infants.
OBJECTIVES: I. Create a clinical sample bank of neonates with lung disease to test hypotheses regarding the pathogenesis of bronchopulmonary dysplasia (BPD). II. Determine whether a developmental deficiency of surfactant protein B (SP-B) contributes to the occurrence of respiratory distress and BPD in these patients. III. Study metabolic abnormalities associated with inherited deficiency of SP-B in these patients. IV. Determine whether plasma nitrotyrosine levels, a marker of peroxynitrite mediated oxidant stress, are elevated in premature infants who develop BPD. V. Measure the temporal changes in critical components of the inflammatory process (cell composition, inducible nitric oxide synthase, hyaluronan (HA), receptor for HA mediated mobility, and selected cytokines) in bronchoalveolar lavage, blood, and urine samples obtained from these patients, and to correlate these changes with their clinical course. VI. Examine changes in the insulin-like growth factor axis that occur in the lungs of infants with respiratory distress syndrome (RDS) and BPD. VII. Determine the relationship between degradation of elastin and the clinical course of BPD. VIII. Determine whether the normal fall in plasma endothelin-1 concentrations after birth are delayed in infants with RDS and BPD.
This multicenter clinical trial tested whether minimal ventilation decreases death or BPD. Infants with birth weight 501g to 1000g and mechanically ventilated before 12 hours were randomly assigned to minimal ventilation (partial pressure of carbon dioxide [PCO(2)] target >52 mm Hg) or routine ventilation (PCO(2) target <48 mm Hg) and a tapered dexamethasone course or saline placebo for 10 days, using a 2 x 2 factorial design. The primary outcome was death or BPD at 36 weeks' postmenstrual age. Blood gases, ventilator settings, and FiO2 were recorded for 10 days; complications and outcomes were monitored to discharge. The infants' neurodevelopment was evaluated at 18-22 months corrected age.