View clinical trials related to Neonatal Respiratory Failure.
Filter by:The measurement of how much oxygen a baby consumes provides important information about the health of the baby, and of how much energy they are consuming. Currently, there is no device which measures either oxygen consumption, or another variable that depends on oxygen consumption - resting energy expenditure - in neonates or infants. Our group has developed a new device which can attach to any ventilator and measures these two variables with accuracy in the preclinical setting, including in rodents as small as severely preterm infants. The purpose of this study is to compare measurements of oxygen consumption and energy expenditure in neonates using this device and comparing it with a gold standard which is rarely used, a Douglas bag method in which expired gas is collected and later analyzed.
The purpose of this study is to determine whether Nasal intermittent positive pressure ventilation (NIPPV) non synchronized is better than continuous positive airway pressure (NCPAP)in preventing extubation failure within 72 h, after extubation of very low birth weight infants at the NEOCOSUR Network.
Newborn infants with severe respiratory failure are treated with extracorporeal membrane oxygenation (ECMO), a modified form of cardiopulmonary bypass. These infants as at risk for brain injury as a result of hypoxia and blood flow changes in the brain prior to and during ECMO. The investigators propose a clinical trial of a novel treatment (cooling during ECMO) and novel diagnostic tool (advanced MRI techniques) that will lead to improved outcomes, early diagnosis and intervention for brain injury, decreased cost and duration of clinical trials, decrease in the burden of chronic neurologic disease and disability in society, thus improving the health and quality of life of these infants as they progress through childhood into adulthood.
Aims: There is increasing evidence that volume-targeted ventilation (VTV) holds benefits for preterm infants in comparison to pressure-limited ventilation. This study aims to compare pressure-limited to VTV in preterm infants. Hypothesis: Volume-targeted will be associated with more rapid achievement of weaning criteria compared to pressure-limited ventilation Primary outcome: Time taken to achieve pre-specified weaning criteria. Methods: Ventilated infants less than 34 weeks gestational age at birth were recruited within the first 24 hours of life and randomly allocated to receive either pressure-limited or VTV. Adjustments to ventilator settings were made according to the trial protocol. Infants were deemed to have met failure criteria if they required HFOV, required peak pressures of more than 26 cm of water or developed pulmonary haemorrhage. Analysis will be by intention-to-treat.
Nasal CPAP is a excellent ventilation modality for newborns, but the incidence of pneumothorax is high (65.% - 9%) our hypothesis is when the baby open the mouth or crie the pressure in the airway is variable, the investigators evaluate a closed system with a intubated baby with a orotracheal system but with a elastic reservoir , the reservoir distend and the pressure in the airway is constant ,with this system the investigators protect the lungs for damage . The investigators want compare the use of nasal CPAP, mechanical ventilation and orotracheal CPAP with a compensation bag (gregory system) in newborns with respiratory failure .
During assist control ventilation and pressure support ventilation (PSV), the start of ventilator inflation is determined by the start of the infant's inspiratory effort. During PSV, termination of inflation is determined by the level of the infant's inspiratory flow. In a randomized trial, no significant differences were found between assist control and pressure support ventilation with regard to the duration of weaning, time to successful extubation, work of breathing, rate of asynchrony and level of respiratory muscle strength.
To research the effect of Bi-Level Positive Airway Pressure (BiPAP) for neonatal respiratory failure.