View clinical trials related to Acute Lung Injury.
Filter by:The purpose of this international, multicenter study is to determine ventilation practice and outcomes of intubated and ventilated intensive care unit (ICU) patients. Ventilation characteristics and outcomes will be compared between patients without the acute respiratory distress syndrome (ARDS), patients at risk for ARDS, and patients with mild, moderate or severe ARDS. Participating centres worldwide will include adult patients undergoing mechanical ventilation in the ICU during a 7-day period. Patients data will be collected during the first 7 days in the ICU, or until ICU discharge. Follow up is until day 90. Primary endpoint is the tidal volume size used during mechanical ventilation. Secondary endpoints are development of ARDS in patients without ARDS at the onset of mechanical ventilation, worsening of ARDS in patients with ARDS at the onset of mechanical ventilation, pulmonary infection, other pulmonary complications, need for tracheostomy, extra-pulmonary complications, duration of ventilation, length of ICU and hospital stay, and ICU, hospital and 90-day mortality.
Fibrocyte is a monocyte sub-population involved in fibroproliferation/repair processes and associated with outcome in different diseases. In previous study, we have demonstrated the presence of alveolar fibrocytes during Acute expiratory Distress Syndrome (ARDS) and their association with patient outcome. The purpose of this multicentric observational prospective study is to describe the percentage of alveolar fibrocytes in ICU patients with ARDS (survivors vs. non survivors) and to confirm their association with 28-day mortality.
The purpose of the study RVSTAR is to evaluate whether echocardiographic criteria exploring the right ventricle can predict the inefficacy and/or the unsafeness of recruitment maneuvers in patients suffering from acute respiratory distress syndrome
Acute respiratory distress syndrome (ARDS) and mechanical ventilation can lead to right ventricular dysfunction and ultimately right ventricular failure by increasing pulmonary vascular resistances and pressure load. This can be prevented by modifying ventilator settings, using vasopressors or inotropes or even by prone positionning.But to do so, right ventricular dysfonction has to be detected. Echocardiography has emerged as a first line tool to diagnose right heart failure. Recently, strain analysis showed promising results to detect early right ventricle abnormalities in other settings such as pulmonary hypertension or scleroderma. We therefore decided to determine whether 2D strain could help detect early right ventricular dysfunction in ARDS.
The main objective of this study is to evaluate the inter-rater reproducibility of diaphragmatic excursion measures via time-motion-mode ultrasound (evaluation performed on the first measure) in patients experiencing acute respiratory distress emergencies.
BACKGROUND: Currently, there is no proven pharmacologic treatment for patients with the acute respiratory distress syndrome (ARDS). Great interest remains in the use of corticosteroids for the salvage of patients with severe acute lung injury in the early phase of their disease process, a situation that that has not been evaluated in most published trials. Dexamethasone has never been evaluated in ARDS in a randomized controlled fashion. HYPOTHESIS AND OBJECTIVES: The investigators hypothesize that adjunctive treatment with intravenous dexamethasone of patients with established ARDS might change the pulmonary and systemic inflammatory response and thereby will increase the number of ventilator-free days and will decrease the extremely high overall mortality. Our goal is to examine the effects of dexamethasone on length of duration of mechanical ventilation (assessed by number of ventilator-free days) and on mortality, in patients admitted into a network of Spanish intensive care units (ICUs) who still meet ARDS criteria at 24 hours after ARDS onset.
The objective of this study is to evaluate the association between positive end-expiratory pressure (PEEP) setting and cardiac function, as measured by cardiac index, in patients with acute respiratory distress syndrome (ARDS) who were managed on the NHLBI ARDS Network Fluid and Catheter Treatment Trial (FACTT) fluid protocols.
The original American-European Consensus Conference (AECC) definition of Acute Respiratory Distress Syndrome (ARDS) required bilateral infiltrates consistent with pulmonary edema on frontal chest X-ray (CXR), but there is poor inter-observer reliability in interpreting CXR using this definition among intensivists and radiologists. As a result, the newly published Berlin definition of ARDS specified that the CXR criterion should include bilateral opacities consistent with pulmonary edema not fully explained by effusions, lobar/lung collapse, or nodules/masses on CXR. In order to improve inter-observer agreement, the panel have also developed a set of CXRs judged as consistent, inconsistent, or equivocal for the diagnosis of ARDS. The objective of this study is to investigate the impact of this training set on inter-observer reliability in applying the radiographic definition for ARDS.
Noisy Pressure Support Ventilation (noisy-PSV) would lead to improved lung function, while preserving respiratory muscle unloading. Basically, noisy PSV differs from other assisted mechanical ventilation modes that may also increase the variability of the respiratory pattern (e.g. proportional assist ventilation) by the fact that the variability does not depend on changes in the patient's inspiratory efforts. The aim of this study is to evaluate the optimal variability for noisy PSV in patients with ALI based on its effects on respiratory mechanics, breathing comfort, gas exchange, and hemodynamics. The investigators hypothesize that noise in pressure support leads to variations in VT that are able to improve lung function and that physiologic variables respond differently to the degree of variability in pressure support
This phase II multi-centered, randomized controlled trial of mechanical ventilation directed by esophageal pressure measurement will test the primary hypothesis that using a strategy of maintaining a minimal but positive transpulmonary pressure (Ptp = airway pressure minus pleural pressure) throughout the ventilatory cycle will lead to an improvement in patient survival.