View clinical trials related to Bronchopulmonary Dysplasia.
Filter by:Lungs of babies born early are not fully developed and they often need a machine to help them breathe. The traditional approach to provide this support is with a breathing tube passed into the windpipe. However, we know that breathing tubes can cause injury to the fragile lungs of premature babies. Providing breathing support through nose-masks instead of breathing tubes (called nasal breathing support) is becoming popular, as it is gentler on developing lungs. Doctors, in trying to limit the use of support with a breathing tube, are using many different forms of nasal breathing support. The most common form is nasal continuous positive airway pressure (CPAP) which delivers a constant pressure and the baby breathes on his on her own. However, when this strategy is no longer able to support a premature baby's breathing, the best way to provide breathing support is not known. Some doctors use a strategy called "nasal intermittent positive airway pressure" (NIPPV) which gives the baby artificial breaths through the nose-mask. Others simply increase the pressure on nasal CPAP to higher than traditional levels. In the first study of its kind, we will compare these two strategies of nasal breathing support given to premature babies.
While many short-term morbidities associated with extreme prematurity have declined over the last two decades, the incidence of bronchopulmonary dysplasia (BPD) has increased to a rate of approximately 45% in neonates <28 weeks gestational age (GA) and birth weight (BW) <1,500 g. Neonates with BPD are at increased risk for adverse short-and long-term neurodevelopmental and respiratory outcomes that often persist into adulthood. There is a growing body of pathological and biochemical evidence that implicates inflammation in its pathogenesis. This is further supported by randomized controlled trials (RCTs) that demonstrate the efficacy of systemic corticosteroids in facilitating extubation and reducing BPD. However, several short- and long-term adverse effects associated with the use of systemic corticosteroids have been described, the most concerning of which is their effect on neurodevelopment, specifically an increased rate of cerebral palsy (CP). Inhaled corticosteroids (ICS) are an attractive alternative to systemic steroids because of these concerns. Earlier systematic reviews had not found any benefit in using ICS for the prevention or treatment of BPD. However, a recent systematic review showed a significant reduction in death or BPD at 36 weeks' corrected GA (CGA) (risk ratio=0.86, 95% confidence interval 0.75, 0.99), BPD (RR=0.77, 95% CI 0.65, 0.91), and use of systemic steroids (RR=0.87, 95% CI 0.76, 0.98) in infants treated with ICS. Despite growing evidence of the effectiveness of ICS for BPD, uncertainty remains over treatment timing, effective dose, and long-term effects. There is also variation in the delivery systems used for delivery of ICS. These concerns continue to be echoed in a recent review by Nelin et al. Given that the long-term neurodevelopmental impact of ICS were unknown at the time of this study and many infants are able to wean from ventilation without steroids, the investigators conducted an escalating-dose ranging study of late ICS (i.e. administered after the first week of life) delivered by a metered dose inhaler (MDI) utilizing a specially designed valved delivery system to determine the minimum effective dose necessary to achieve extubation or reduction in oxygen requirements and the long-term neurodevelopmental impact of increasing doses of ICS.
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
The MRI tools developed by the investigators are well positioned for assessing regional changes in lung structure and function in preterm children with bronchopulmonary dysplasia (BPD), in which airway limitation similar to asthma, alveolar simplification similar to emphysema and pulmonary vascular stunting are expected. To the investigator's knowledge, the combination of ultra short echo time (UTE) proton, pulmonary vascular proton and hyperpolarized 129Xe MRI have not yet been explored in BPD, either clinically or preclinically. The investigators propose that a comprehensive MRI examination may be useful from a diagnostic perspective, MRI of preterm children without BPD may reveal changes which are otherwise clinically 'silent' yet still place children at risk for future chronic lung disease in later life.
Bronchopulmonary dysplasia (BPD) is a chronic lung disease that affects a ratio of up to 20-30% of infants prematurely born before 30rd week. Delay of starting to speak, cerebral palsy and cognitive disorders may be seen in infants suffering from this disease. Although all the evidence found on the specific mediators and pathways that regulate the mechanism by studies made to understand the pathophysiologic mechanism, there hasn't been any remarkable progress on preventing the development of BPD in new-born infants born below 1500gr body weight. BPD is still one of the most important morbidity and mortality reasons in premature infants. There is a need of further studies to understand the genetic background of BPD specific to different populations, to identify polymorphisms related with the disease and for developing genetic methods for early the diagnose of the disease. With this purpose, first of all polymorphisms related with BPD and those which are related with similar other lung diseases will be investigated. DNA samples derived from blood samples of 200 patients (100 BPD infant and 100 control) will be examined for polymorphisms in specific genes that are chosen in the light of the prior literature scanning. To the investigators' knowledge, this will be the first study of a broad scanning of polymorphisms related with BPD in Turkish population.
This is a single centre exploratory study that aims to apply hyperpolarized xenon-129 (129Xe) magnetic resonance imaging (MRI) methods and measurements in individual patients with and without lung disease to better understand lung structure and function and evaluate response to therapy delivered as a part of clinical care.
This observational study evaluates the impact of respiratory management modifications implemented in our institution on the intubation rates and the death or Bronchopulmonary Dysplasia (BPD) outcome.
This study is to evaluate the efficacy and safety of PNEUMOSTEM® for the Prevention and Treatment of Severe Bronchopulmonary Dysplasia (Severe BPD) in Premature Infants. Half of subjects will receive PNEUMOSTEM, while the other half will receive a placebo.
Non-invasive respiratory support has been emerging in the management of respiratory distress syndrome (RDS) in preterm infants to minimise the risk of lung injury. Intermittent positive pressure ventilation (NIPPV) provides a method of augmenting continuous positive airway pressure (CPAP) by delivering ventilator breaths via nasal prongs.It may increase tidal volume, improve gas exchange and reduce work of breathing. However, NIPPV may associate with patient-ventilator asynchrony that can cause poor tolerance and risk of intubation. It may also in increased risk of pneumothorax and bowel perforation because of increase in intrathoracic pressure. On the other hand, neurally adjusted ventilatory assist (NAVA) is a newer mode of ventilation, which has the potential to overcome these challenges. It uses the electrical activity of the diaphragm (EAdi) as a signal to synchronise the mechanical ventilatory breaths and deliver an inspiratory pressure based on this electrical activity. Comparing NI-NAVA and NIPPV in preterm infants, has shown that NI-NAVA improved the synchronization between patient and ventilator and decreased diaphragm work of breathing . There is lack of data on the use of NI-NAVA in neonates post extubation in the literature. To date, no study has focused on short-term impacts. Therefore, it is important to evaluate the need of additional ventilatory support post extubation of NI-NAVA and NIPPV and also the risk of developing adverse outcomes. Aim: The aim is to compare NI-NAVA & NIPPV in terms of extubation failure in infants< 32 weeks gestation. Hypothesis: Investigators hypothesized that infants born prematurely < 32 weeks gestation who extubated to NI-NAVA have a lower risk of extubation failure and need of additional ventilatory support.
Bronchopulmonary dysplasia (BPD), or chronic lung disease of prematurity, affects nearly half of extremely preterm infants.This study evaluates the use of supplemental oxygen to manage infants with established BPD. Participants will be randomly placed in either a higher oxygen saturation group or a lower oxygen saturation target group.