View clinical trials related to Acute Lung Injury.
Filter by:Transfusions cause more adverse events in children than in adults. Patients in pediatric intensive care units (PICU) are particularly exposed to transfusions of plasma-rich blood products (red blood cell (RBC), plasma and platelets) and the risk of adverse events after a transfusion is particularly high in this vulnerable population. Transfusion-related acute lung injury (TRALI), an acute inflammation of the lungs that impairs gas exchange leading to acute respiratory failure, is one of the 2 most deadly transfusion complications in the general population. There is limited evidence on TRALI incidence and impact in critically ill children. This reduces the awareness of PICU team for this complication, and makes the decision process to transfuse particularly difficult. Moreover, acute lung injury is highly prevalent in critically ill children. It is therefore complex to ascertain if the high frequency of respiratory deteriorations observed after a transfusion in PICU is explained by the transfusion itself or by the evolution of the patient's critical illness. The investigators will conduct a cohort study of consecutive transfused critically ill children, with a control group of matched non-transfused children. The primary objective is to determine if transfusion of RBC, plasma and/or platelets in PICU is an independent risk factor of TRALI, and to compare the respiratory evolution in the two matched (transfused and non-transfused) groups. The secondary objectives will include the determination of the incidence rate, risk factors and clinical impact of TRALI in transfused PICU patients. The investigators will study both "classic TRALI" and "delayed TRALI".
A study to examine the safety (and potential efficacy) of the adult stem cell investigational product, MultiStem, in adults who have Acute Respiratory Distress Syndrome (ARDS). The primary hypothesis is that MultiStem will be safe in ARDS patients.
This pilot observational study will assess changes in pH /PaO2 /PaCO2, Respiratory Rate and device CO2 clearance in the first 24 hours of Extracorporeal CO2 removal (ECCO2R) following tidal volume (Vt), and plateau pressure reduction in patients with mild to moderate ARDS.
A 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.
This study is a prospective, non-randomized sequential cohort, open label, multi-center, non-inferiority, Phase IV surveillance study following transfusion of INTERCEPT PCs. The patient population will be hematology-oncology patients, including those undergoing hematopoietic stem cell transplant (HSCT), expected to require one or more PC transfusions. For each participating center, the study will start with a brief pilot run-in period with a group of at least 5 patients exposed only to conventional PCs. The purpose of this pilot run-in is to evaluate study logistics and data collection methods within each study center. Data from the pilot phase will be included in the data analysis for the treatment comparison. After the pilot run-in period, the study will be conducted in two sequential patient cohorts: 1) the Control cohort during which study patients will receive only conventional PCs, and 2) the INTERCEPT cohort during which patients will receive only INTERCEPT PCs. Patient enrollment at each Center will be monitored to target similar numbers of patients into the Control and Test Cohorts within each center. Centers may enroll Control and Test patients in ratios that vary from 2:1 to 1:2 due to institutional requirements to move rapidly to full INTERCEPT implementation, or due to availability issues with either Test or Control components. Within each Center, patient enrollment will be stratified in four categories: (1) chemotherapy only; and by use of conditioning regimens for hematopoietic stem cell transplantation (HSCT) in (2) myeloablative conditioning, (3) non-myeloablative conditioning, and (4) reduced intensity using the Center for International Blood and Marrow Transplant Research (CIBMTR) criteria. Note time from last chemotherapy treatment to first study transfusion should be no more than 30 days. To ensure both Test and Control cohorts have a similar allocation ratio (±10% per category) among the conditioning regimen strata, enrollment caps will be set for the Test cohorts, hence no Test patients will be enrolled to a stratum once the cap for the given stratum is met. Eligible patients will be enrolled in open Test strata sequentially as long as there is sufficient Test PC inventory available. Enrollment may be delayed for the Test cohort if sufficient inventory of Test PCs is not available.
Mortality in Acute Respiratory Distress Syndrome (ARDS) is high (40 to 60 %). Protective mechanical ventilation is the cornerstone of the ARDS therapeutic strategies. Recently, a prospective multicenter study demonstrates that short-term infusion of neuromuscular blocking agents (NMBA) reduces hospital mortality. However, the mechanisms through which NMBAs could improve survival remain speculative and the dose of NMBA needed to observe a beneficial effect is still debated. In hypoxemic ventilated patients, continuous cisatracurium infusion with an objective of no response at orbicularis oculi to train-of-four (TOF) stimulation and an objective of two responses had similar effects on respiratory parameters. In their study, Papazian and colleagues used cisatracurium with an initial standard dose of 15 mg followed by a continuous infusion of 37.5mg/h, based on previous results of studies with patients monitored for paralysis. Atracurium and its stereoisomer cisatracurium are non-depolarizing neuromuscular blocking drugs, both used in anaesthesia and intensive care units. The aim of this study was to compare in ARDS patients a dose adjustment of continuous-atracurium intravenous infusion with an end point of one or two response at orbicularis oculi to TOF stimulation, and a dose adjustment to achieve clinical goals of protective ventilation without monitoring of TOF stimulation.
RAGE (the receptor for advanced glycation end-products) is a marker of alveolar type I cell injury and a pivotal mediator of acute inflammation and innate immunity. RAGE pathway is highly regulated; the interaction of the transmembrane receptor with its various ligands (e.g. HMGB1, S100A12) ultimately leads to NF-kB activation and RAGE upregulation itself, but precise RAGE functions and intracellular pathways remain underexplored. During ARDS, monocyte and macrophage activation could modulate alveolar inflammation and repair. As RAGE is also expressed at the surface of monocytes/macrophages, we hypothesize that alveolar monocyte/macrophage activation may be mediated through a RAGE-TXNIP (thioredoxin interacting protein)-NLRP3/inflammasome intracellular pathway. The purpose of this observational prospective study is to compare alveolar monocyte/macrophage activation profiles (as assessed by Fluorescence-Activated Cell Sorting (FACS)) in mechanically ventilated patients with or without ARDS.
This study evaluates whether giving a neuromuscular blocker (skeletal muscle relaxant) to a patient with acute respiratory distress syndrome will improve survival. Half of the patients will receive a neuromuscular blocker for two days and in the other half the use of neuromuscular blockers will be discouraged.
The main objective is the study of the role of IL33/ST2 axis in the pathogenesis of ARDS, it´s value as prognosis marker and as therapeutic target.
The acute respiratory distress syndrome(ARDS)has a high morbidity and mortality in patients admitted to intensive care units(ICUs). It represents a significant public health issue. No large nationwide, multicenters study of ARDS has been conducted in China. The purposes of this study are to analyse: 1)the incidence and outcomes of ARDS in ICU; 2) factors associated the mortality ; and 3) risk factors for development of ARDS .