View clinical trials related to Respiratory Distress Syndrome.
Filter by:The aim of this study will be to assess the better fraction inspired oxygen (FiO2) threshold for the surfactant treatment in preterm infants with respiratory distress syndrome (RDS) randomized to receive exogenous surfactant at 25% or 35% of FiO2 threshold. The pulmonary gas-exchanges will be evaluated by oxygen saturation (SpO2) to FiO2 ratio (SFR) and will be used to define the better FiO2 threshold for the surfactant treatment.
Pediatrician does physical examination through telemedicine and in real life to see whether the telemedicine consultation corresponds with the real life examination. Goal is to determine: 1. Check practical feasability 2. Check whether there are no great objections for a larger study (ie. in case telemedicine consultation is much more unreliable to do a physical examination a larger study is deemed unsafe)
In this study, the investigators aim to investigate if artificial uterine contractions prior to elective caesarean section delivery may have an impact on the respiratory morbidity of term neonates.
evaluation of diaphragmatic disfunction eventually occurred in pediatric patient undergoing mechanical ventilation therapy
Purpose: The investigators hypothesis is that, as compared to the only nCPAP-applied group, application of SLI maneuver followed by respiratory support with nCPAP immediately afterwards in preterm infants at high risk for RDS would reduce the need for intubation and mechanical ventilation in early period and ultimately will improve respiratory outcomes.
The purpose of the study is to evaluate the efficacy and safety of Cadisurf (goat lung surfactant extract) as compared to Survanta (beractant) in the treatment of respiratory distress syndrome in preterm neonates (with gestation of 26 to 32 weeks).
The patients affected by severe chronic respiratory failure can develop hypercapnic decompensation leading to coma and death in a few hours. At present, the main treatment is noninvasive or invasive ventilation. The noninvasive invasive ventilation requires a minimum of consciousness to insure spontaneous ventilation. In case of noninvasive ventilation impossibility, invasive mechanical ventilation is proposed to patients, which is an aggressive therapy. Regularly, the patients undergo this aggressive therapy without having expressed their opinion. Indeed, a great majority of these patients with severe respiratory insufficiency did not anticipate directives in case of respiratory decompensation (acceptation of aggressive treatments). Efficiency of these aggressive therapies is still uncertain but certainly alters quality of life (discomfort, loss of autonomy…). After complete, clear, loyal and adapted information, a majority of patient do not wish to go on these aggressive therapies. At the time of the decompensation, the patients are incapable to express an opinion because of the hypercapnic narcosis. An extracorporeal CO2 remover device, such as the DECAP CO2, would quickly decrease the hypercapnia what would allow the patient to improve his state of consciousness and so to find the conditions of spontaneous ventilation required for the noninvasive ventilation. The DECAP CO2 device can be used to stop quickly the hypercapnic narcosis and to collect the wills of the patient on the choice of possible aggressive therapies. It is in this last condition that we wish to estimate the DECAP CO2 device.
BACKGROUND. Sustained lung inflation (SLI) associated to an adequate PEEP may help the efficacy of the respiratory effort in lung of preterm infants at risk for respiratory distress syndrome (RDS) and reduce need of mechanical ventilation (MV). The investigators aim will be to demonstrate the hypothesis that the introduction of SLI in the delivery room protocol may reduce the need of MV in preterm infants. STUDY DESIGN: Multicenter prospective randomized controlled trial. The study will be carried out at the neonatal care units of the Careggi Infants with a gestational age between 25 and 28 weeks will be eligible and randomized at birth to receive SLI or not. Peak inflation pressure (PIP) of 25 cm H2O will be delivered for 15 seconds and then reduced to a positive end expiratory pressure (PEEP) of 5 cm H2O. Primary endpoint will be the need of MV within the first 72 hrs of life (excluding the transient tracheal intubation for surfactant replacement: e.g. INSURE). Population size: hypothesizing that SLI maneuver might decrease the need of MV during the first 72 hours of life from 35 to 20% the investigators calculated that 138 newborns must be enrolled in each groups to detect this difference statistically significant with 80% power at 0.05 level.