View clinical trials related to Bronchopulmonary Dysplasia.
Filter by: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
Important developmental processes continue until the completion of 40 weeks gestation. Even during fetal life, intrinsic and environmental factors determine the balance between health and the onset and development of diseases. Thus, it is crucial to understand the mechanisms that regulate normal development and the pathways that contribute to disease pathogenesis. Neurotrophins are a family of four proteins that support the growth and survival of neurons. Their secretion increases during brain development, when new neurons are being formed and existing ones are branching to assemble complex neuronal circuits. In addition to their role in promoting neuron growth and development, neurotrophins are also a product of neuronal activity. Neurotrophins are also responsible for the maintenance of peripheral sensory neurons, including those in the lungs. Airway innervation is responsible for many aspects of lung function including the regulation of airway smooth muscle tone, mucus secretion, and reactivity; therefore, a physiological expression of neurotrophins in the lungs is required for normal lung function.
Acute respiratory distress syndrome (ARDS) in neonates has been defined in 2017.The death rate is over 50%. HFOV and CMV are two main invasive ventilation strategies. However, which one is better needing to be further elucidated.
The purpose of this observational study is to measure pulmonary function in term and preterm infants with and without pulmonary disease including respiratory distress syndrome, bronchopulmonary dysplasia, transient tachypnea of the newborn, meconium aspiration syndrome, and response to treatments given to newborn infants with lung diseases using a non-invasive airway oscillometry system.
A double-blind study includes: 1) birth Wt 500-1499 gm, 2) respiratory distress shortly after birth and requires resuscitation 3) failure to NCPAP within 4 hrs after birth, defined as: a) FIO2 ≥ 0.30, pressure > 5cmH2O b) severe retraction c) apnea d) PCO2 ≥ 60 mmHg. Exclusion criteria: 1) lethal cardiopulmonary status 2) severe congenital anomalies. Given the COVID19 pandemics, the recruitment became difficult. Under the consideration of scientific and practical consideration, we therefore determine to have a sample of 300, (150 in each group), fulfill the criteria of type I error 0.05, type II error 0.10, power 90% and with an expectation of 30 % improvement of primary outcome (from 60 % in control group to 40 % in the intervention group as original presumed).Appropriate amount of placebo will be used as it does not affect the biophysical property of curosurf (PAS abstract 2017 San Francisco). Primary outcome of study is death or BPD defined by NICHD criteria. Follow up study of neuromotor and cognitive function and pulmonary states will be done at 1-2 years of corrected age.
The purpose of this study is to determine if an investigational drug can prevent Bronchopulmonary Dysplasia, reducing the burden of chronic lung disease in extremely premature infants, as compared to extremely premature infants receiving standard neonatal care alone.
Extubation failure is a significant problem in preterm neonates and prolonged intubation is a well-documented risk factor for development of chronic lung disease. Out of the respiratory modalities available to extubate a preterm neonate; high flow nasal canula, nasal continuous positive airway pressure (nCPAP) and noninvasive positive pressure ventilation (NIPPV) are the most commonly used. A recent Cochrane meta-analysis concluded that NIPPV has lower extubation failure as compared to nCPAP (30% vs. 40%) NAVA (neurally adjusted ventilatory assist), a relatively new mode of mechanical ventilation in which the diaphragmatic electrical activity initiates a ventilator breath and adjustment of a preset gain (NAVA level) determines the peak inspiratory pressure. It has been reported to improve patient - ventilator synchrony and minimize mean airway pressure and ability to wean an infant from a ventilator. However till date there has been no head to head comparison of extubation failure in infants managed on NAVA with conventional ventilator strategies. In this study the investigators aim to compare primary extubation failure rates in infants/participants managed by NIPPV vs. NI-NAVA (non invasive NAVA). Eligible infants/participants will be randomized to be extubated to predefined NIPPV or NI-NAVA ventilator settings and will be assessed for primary extubation failure (defined as reintubation within 5 days after an elective extubation).
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 purpose of this study is to advance our knowledge of the factors that contribute to the development of bronchopulmonary dysplasia (BPD), a chronic lung affecting premature infants. Specifically, the investigators will determine the complexity of the gut microbiota, the genera of the bacteria that naturally live in the gut, and determine if the relative diversity of the gut bacteria is a prognostic indicator of BPD. To accomplish this, the investigators propose to characterize the microbiota of human premature newborns with BPD, then validate this potential mechanism in mice. The investigators will enroll very low birthweight premature infants admitted to the neonatal intensive care units (NICU) at Le Bonheur Children's Hospital and Regional One Health that are at high risk to develop BPD. A cohort of well full term newborns will also be enrolled. Non-invasive stool samples will be obtained weekly over the first month of life. Infants that eventually develop BPD will be paired with infants that did not develop BPD. Stool samples from these infants will be sent for analysis. The investigators expect that reduced complexity of the gut microbiome is associated with BPD. The investigators will model the contribution of reduced microbiome complexity to the risk to develop BPD or death, as well as the association with disease severity. The project investigates important factors leading to the development of BPD, and has the potential to directly translate to therapy for the most significant pulmonary complication of prematurity.
Two-center, randomised controlled, cross-over clinical trial in preterm infants born at gestational age below 34+1/7 weeks receiving supplemental oxygen and respiratory support (Continous positive airway pressure (CPAP) or Non-invasive Ventilation (NIV) or Invasive Ventilation (IV)). Routine manual control (RMC) of the fraction of inspired oxygen (FiO2) will be tested against RMC supported by closed-loop automatic control (CLAC) with "slow"-algorithm and RMC supported by CLAC with "fast"-algorithm. The primary hypothesis is, that the use of the "faster" algorithm results in more time within arterial oxygen saturation (SpO2) target range compared to RMC only. The a-priori subordinate hypothesis is, that the faster algorithm is equally effective as the slower algorithm to maintain the SpO2 in the target range.