View clinical trials related to Acute Lung Injury.
Filter by:Hypothesis of the study is that patients undergoing major cardiac surgery can develop extracardiac complications correlated to cardiopulmonary by pass.
To survey the prevalence and the mortality of the Acute Lung Injury/ Acute Respiratory Distress Syndrome (ALI/ARDS) in 12 university hospital ICUs in Shanghai.
The purpose of this prospective, randomized clinical trial is to understand and measure lung injuries caused by CPB in aortic valve surgery. Study questions: - Is there any correlation between the release of pro-inflammatory biomarkers and lung injury degree? - Is there any correlation between oxyhaemodynamic parameters and lung injury degree? - Is there any correlation between oxyhaemodynamic parameters and the release of pro-inflammatory biomarkers? - Are budesonide, erdostein and acetylcystein effective in the prevention of lung injuries?
The study is intended to evaluate the hemodynamic and the indexed extrapulmonary lung water (ELWI) changes in patients treated by high frequency oscillation-ventilation (HFO-V) for refractory acute respiratory distress syndrome (ARDS). HFO-V may be used as rescue treatment in refractory ARDS but its hemodynamic impact is discussed. Moreover, as Extra Vascular Lung Water (a transpulmonary thermodilution parameter) was proven to be an independent mortality factor in ICU-patients, the investigators decided to monitor it in all ARDS patients who ended up needing HFO-V, from HFO-V plugging under 72 hours of this type of ventilation. All ARDS patients underwent high Positive End Expiratory Pressure (PEEP) with "protective ventilation" and those who remained below a PaO2/FiO2 ratio of 120 after 24h will be considered as "refractory ARDS patients" and, therefore eligible. They will be monitored by the transpulmonary thermodilution PiCCO technique (Pulsion Medical System. Munich, Germany) and placed under HFO-V. Both transpulmonary thermodilution measurements (ELWI , Cardiac Output, Global End-diastolic Volume) and standard transthoracic echocardiographic measurements (Ejection Fraction, End-diastolic Right and Left Ventricular Area, preload indexes) were be performed from HFO-V plugging to Day 3. The investigators suggest that ELWI will be correlated to HFO-V responsiveness and that cardiac output will not change at the HFO-V plugging, regardless of preload indexes variation. Inclusion will be proceeded over a 2 year period and, according to the population, the investigators expect about 50 eligible patients.
Prospective randomized controlled trial to be conducted in the Respiratory Intensive Care Unit (RICU) of Post Graduate Institute of Medical Education And Research (PGIMER),Chandigarh. The study is approved by the Institute Ethics committee. In view of lack of previous outcome data in such patients, all patients requiring RICU admission for acute respiratory distress syndrome(ARDS) between January 2010 and June 2011 are being enrolled in this pilot study. The patients meeting the aforementioned criteria will randomly assigned to ventilation with assist control mode ventilation (ACMV group) as per the ARDSnet strategy or adaptive support ventilation (ASV group). Being the first RCT of its type, patients will be first stabilized on ACMV for 1 hour to determine the adequate minute ventilation. The randomization sequence will be computer generated. The assignments will placed in sealed opaque envelopes and each patient's assignment was made on admission to the RICU by the attending physician. Blinding of treatment is not possible. All patients will be ventilated only by Galileo Gold ventilators (Hamilton medical systems, Bonaduz, Switzerland). Patients randomized to the ACMV group will be ventilated according to low tidal volume strategy of 6ml/kg with Fio2/PEEP as per ARDSnet table to achieve a saturation between 88-95% with the lowest possible Fio2 to maintain plateau pressures < 30 cms H2o and PH > 7.3 with option to reduce tidal volume to 4 ml/kg and increase respiratory rate to 35/ min to achieve the above said goals11.These patients will be weaned as per standard protocol of spontaneous breathing trial of 30 minutes once they are recognized eligible as per statement of the sixth International consensus conference on weaning.
The ARDS has a clinical definition with criteria of the American-European Consensus Conference (1994). This definition inconveniently applies to a lot of patients with acute respiratory failure. We know that there are 2 forms of ARDS morphology on CT scan : "lobar attenuation" (loss of aeration with no concomitant excess in lung tissue) predominating in the lower lobes and "non lobar attenuation" with diffuse and massive loss of aeration with excess lung tissue in all the pulmonary parenchyma. Today, plasmatic biomarkers are used as prognostic and diagnostic markers of ARDS. Some of them are characteristics of the different damages in the ARDS (alveolar epithelium and vascular endothelium lesions) : sRAGE, SP-D, PAI 1 and sICAM 1. This study's hypothesis is that patients with ARDS criteria and lobar morphology on CT scan present loss of aeration but no inflammatory pulmonary oedema, whereas patients with non lobar morphology on CT scan present both characteristics. The primary purpose of our protocol is to show that the patients who respond to ARDS criteria and have a lobar morphology on CT scan do not have an elevation of the biomarkers specific to the pulmonary aggression of ARDS.
Development of acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) in patients with severe brain injury has been associated with poor outcome. The application of lung recruitment maneuvers (RM) for a short period of time to open collapsed alveoli and reverse hypoxemia in early ARDS has been recommended. However, little is known about the cerebral and vascular effects of RM in brain injury patients with ALI/ARDS. The aim of this study is to assess the effects of a single standardized RM on oxygenation and on systemic and cerebral hemodynamics in severe brain injury patients with ALI/ARDS.
The main hypothesis are: 1. Passive and Active-Passive airway conditioning devices reduce the incidence of ventilator associated pneumonia 2. Active-Passive airway conditioning devices reduce the incidence of endotracheal tube obstruction 3. Nurses' workload is reduced with Passive and Active-Passive airway conditioning devices
Remote Ischemic Preconditioning(RIPC) and remote ischemic postconditioning(RIPoC) seems to have a protective effect during ischemic period. Using cardiopulmonary bypass(CPB) during open heart surgery reduces pulmonary blood flow and may cause ischemic damage to lung tissue. The investigators anticipate that RIPC and RIPoC may reduce lung injury after CPB.
Acute lung injury in children is a syndrome of rapid onset of acute respiratory failure and require admission into intensive care units (ICU) for advanced life support. There are almost no information on epidemiology of acute lung injury. Published studies do not have information for an entire year and none of them have evaluated the degree of oxygenation failure under standard ventilator settings. The investigators will perform a 1-year prospective audit of all patients admitted with acute lung injury in a network of pediatric ICUs in Spain.