Stress Assessment With and Without Analgesia During Surfactant Therapy in Preterm Infants.
Respiratory Distress Syndrome in Premature InfantsThis study will compare stress, changes in oxygenation and oxidative damage in preterm infants with respiratory distress syndrome (RDS) randomized to receive or not remifentanil as an analgesic drug during the administration of porcine surfactant (poractant alfa, Curosurf®) through the traditional (INSURE) or the less invasive (LISA) method.
The Effect of Surfactant Administration on Cerebral Oxygenation
Respiratory Distress SyndromePrematurityThe purpose of this study is to assess changes in cerebral oxygenation during two different types (beractant and poractant) and two different routes (double lumen or single lumen endotracheal tube) of surfactant administration using near infrared spectroscopy (NIRS).
Effect of Treatment With Stress-Doses Glucocorticoid in Patients With Acute Respiratory Distress...
Acute Respiratory Distress SyndromeAdrenal InsufficiencyThe purpose of this study is to see if stress doses of hydrocortisone improve early outcome in patients who are in early stage of ARDS and with relative adrenal insufficiency.
A Validation/Interventional Study on Stress Index in Predicting Mechanical Stress in ARDS Patients...
Respiratory Distress SyndromeAdult30% of ARDS patients ventilated according to NIH protocol presents CT scan evidence of hyperinflation. Functional analysis of pressure-time curve (Stress Index=SI) has been shown to identify this condition in experimental settings. We tested the hypothesis that the SI is an accurate predictor of mechanical stress due to overdistention in ARDS patients.
Early CPAP in Respiratory Distress Syndrome
Respiratory Distress SyndromeThe purpose of this study is to establish if a strategy of EBCPAP application in a subgroup of VLBWI, 800 to 1500g birthweight, decreases the need for mechanical ventilation in this group, without affecting mortality.
Sigh Ventilation to Increase Ventilator-Free Days in Victims of Trauma at Risk for Acute Respiratory...
Acute Respiratory Distress SyndromeA randomized, concurrent controlled trial to assess if adding sigh breaths to usual invasive mechanical ventilation of victims of trauma who are at risk of developing ARDS will decrease the number of days they require invasive mechanical ventilation.
Comparison of Three Scores for Ultrasound Assessment and Monitoring of Pulmonary Aeration
AtelectasisPneumonia4 moreThis study is designed to compare three ultrasound-based aeration scores that were previously validated in specific populations, and to assess their correlation with computed tomographic measurement of pulmonary aeration in a population with different pathologies. Hypothesis: The "Loss of Aeration Score" will be more accurate than a simplified version and another widely used score, the "Lung Ultrasound Score".
Diaphragm Ultrasound Vs Transpulmonary Pressure To Set PEEP in ARDS
Acute Respiratory Distress SyndromeAcute Respiratory FailureThis is a proof of concept study where the investigators aim to study the correlation between the use of a simple bedside ultrasound measurement of diaphragmatic muscle excursion with established (but time consuming) measurements made to optimize an important setting on the mechanical ventilator (positive end expiratory pressure or PEEP) in intubated adults with acute respiratory distress syndrome (ARDS) in the medical ICU.
Comparison of Two Different NCPAP Methods in Preterm Infants With Respiratory Distress Syndrome...
Ventilatory Failureis to compare introduction of two different NCPAP methods in terms of mechanical ventilation (MV) need (non-invasive respiratory support failure) and surfactant need within the first 72 hours of life in preterm infants with Respiratory Distress Syndrome (RDS) at 26-30 weeks of gestation.
Use of the Medical Device DECAP CO2 for the Treatment of Hypercapnic Respiratory Distress in Patients...
Respiratory Distress SyndromeHypercapniaThe 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.