Active clinical trials for "Bronchopulmonary Dysplasia"

The study hypothesis states that giving early enteral Vitamin D supplementation to preterm infants will decrease respiratory morbidity in extremely preterm infants.

The introduction of invasive mechanical ventilation in the treatment of preterm infants works as an adjuvant in the treatment of acute respiratory failure, which has resulted in significantly significant survival rates. In recent years there has been an increase in the number of evidence that mechanical factors can cause lung injury through inflammatory cells and soluble mediators. The alveolar and airway epithelium is an important source of cytokine release. Cytokines are very low molecular weight proteins or glycoproteins with hormone-like actions. They contribute to the pathogenesis of various diseases through the ability to induce other inflammatory mediators Mechanical ventilation strategies can increase pulmonary and systemic cytokines and lead to dysfunction of multiple organs and systems. Azithromycin has a potent anti-inflammatory and immunomodulatory effect It suppresses the production of proinflammatory cytokines (IL-6, IL-1, and TNF-α), has effective antimicrobial properties against Ureaplasma and, best of all, few side effects The hypothesis of this study is that azithromycin would reduce pulmonary inflammation induced by mechanical ventilation in premature infants, conferring a protective character.Randomized clinical trial: use of azithromycin in preventing pulmonary damage newborn preterm undergoing mechanical ventilation

Very preterm infants are at high risk to develop to bronchopulmonary dysplasia (BPD) for the lack of effective measures to prevent or ameliorate this common and serious disorder. BPD remains a major cause of mortality and lifelong morbidity in preterm infants

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.

Infants delivered weighing less than 1 kg at birth (ELBW) are at high risk for the development of bronchopulmonary dysplasia (BPD) and Ventilator-Induced Lung Injury (VILI), in part because of the need for mechanical ventilation utilizing an endotracheal tube (MVET). In spite of strategies to minimize the need for MVET, the incidence of BPD in ELBW infants continues to be 20-80%. The hypothesis is that synchronized NIPPV will decrease the need for MVET and reduce BPD in ELBW infants as compared to NIPPV.

Bronchopulmonary dysplasia (BPD) is one of the most important morbidities of preterm infants with a high incidence and significant impact on resource utilization and long-term outcome. Systemic corticosteroids have been shown to be effective in the prevention of BPD through their potent anti-inflammatory effects but there are serious concerns on their potential detrimental effects on neurodevelopment of infants. In contrast, inhaled corticosteroids administered to ventilated infants are thought to be safer due to their topical effect but have not been shown to improve outcomes including BPD. To date, there have been few studies evaluating the effect of inhaled corticosteroids administered to non-ventilated infants for the prevention of BPD. Hence, we are conducting a double-blind randomized controlled pilot trial to examine the impact of inhaled budesonide on non-ventilated infants. The study objectives, in a cohort of very preterm infants with signs of early BPD are: 1) to evaluate the effect of aerosolized budesonide on 'days on supplemental oxygen', and 2) to gain an estimate of the impact on BPD and 3) to assess the safety of the intervention in a small cohort of preterm infants. This will be a single-center randomized double-blind controlled pilot trial. We will recruit a total of 50 infants born at less than 30 weeks gestation who are on continuous positive airway pressure (CPAP) with fraction of inspired oxygen ≥25% on day 14 of life or later. Inhaled budesonide 1mg (intervention group) or normal saline (placebo) will be administered three times a day until the infants do not need CPAP or supplemental oxygen or reach 36+0/7 weeks corrected gestational age. We will evaluate 'days on supplemental oxygen', BPD, re-intubation rates, days on mechanical ventilation and days on CPAP as well as adverse outcomes. The prevention of BPD would have a significant positive impact on patient quality of life and medical resource utilization and costs. The study hypothesis is that inhaled budesonide on non-ventilated infants with early signs of BPD will reduce the 'days on supplemental oxygen' indicating a positive effect for the prevention of BPD. The result of this pilot study might also justify and support to proceed to a large confirmatory study to evaluate an effect of the intervention on BPD, in which the estimate of the impact on BPD gained in this pilot trial may be used to calculate a sample size.

To determine if respiratory support at birth guided by RFM decreases BPD.

Rationale: Pre-clinical animal studies provide robust evidence regarding the beneficial effect of cord blood-derived mononuclear cells (MNCs) for experimental bronchopulmonary dysplasia (BPD). This single-center, non-randomized, controlled, blinded trial assessed the effect of a single intravenous infusion of autologous cord blood MNCs (ACBMNCs) in preventing BPD in very preterm neonates, a high-risk population.

The purpose of this study is to determine if late doses of Infasurf surfactant given when patients are receiving inhaled nitric oxide will interact to improve surfactant function and increase survival without BPD in treated infants.

The hypothesis of this study is that administration of azithromycin to ventilated premature infants will decrease the incidence and severity of BPD. The purpose of this study is to determine if Azithromycin treatment is beneficial for prevention of bronchopulmonary dysplasia in preterm infants.