View clinical trials related to Acute Lung Injury.
Filter by:The aim is to test a device for applying continuous negative abdominal pressure in patients with ARDS
This is a feasibility study of the use of a novel technique called 'Inspiwave' to measure heart and lung function in adult patients in critical care. The preliminary work has already been undertaken in animal models and in healthy volunteers. The ultimate aim of this study is to develop a clinical tool for measuring (and therefore being able to make treatment changes based on) indices of heart and lung function in critical care patients. This study is the first assessment of the technique in this population, and whilst we know it works in patients undergoing general anaesthesia, we now need to assess whether Inspiwave can be used at all in critical care patients who may have much more physiological derangement. The purpose of this phase of the research is to determine whether it is feasible to use Inspiwave in critical care. Inspiwave generates a sinusoidally modulated tracer gas signal in the inspired air. It also measures the resulting signal in the expired air. The unique handling of this signal by the patient can used be to derive key variables related to cardiopulmonary function such as lung volume, pulmonary blood flow, the deadspace (wasted ventilation) and the degree to which ventilation and blood flow are non-uniform. These are 'vital signs' in sick patients, yet are currently technically difficult to measure, particularly non-invasively.
There appears to be considerable variability in the approach physicians use to manage arterial carbon dioxide tensions, in patients in the early phases [first 48 hours] of ARDS (Acute hypoxemic respiratory failure and). A number of specific concerns exist, particularly the use of greater than needed inspired oxygen concentrations (potentially in 40% patients), and the proportion of hypocapnic patients in our cohort.
Community acquired pneumonia (CAP) is a major cause of morbidity and mortality worldwide. Despite recent improvement in acute management (specifically for administration of antibiotics) many severe presentations of pneumonia worsen, progressing to Acute Respiratory Distress Syndrome (ARDS), a clinical entity with 40% hospital mortality. Dysregulation of immune response is thought to be largely implicated in severe pneumonia progressing to ARDS. Notably, experimental studies have recently suggested the implication of non-conventional T lymphocytes and innate cells in this immunopathology. However, no data are available in Humans in clinical settings. This study aims to explore the role of non-conventional T cells in pneumonia and ARDS, in participants. For this purpose, 100 participants admitted to Intensive Care Unit (ICU) with a diagnosis of CAP will be included, and 50 "control" participants with no pneumonia nor shock. Presence and functionality of non-conventional T cells and innate cells will be explored using flow-cytometry and ex-vivo stimulation, alongside with cytokines productions. These analyses are conducted in the blood, and, for invasively ventilated participants, in tracheal aspirates or broncho-alveolar fluids if available. For each participants included, the analyses are conducted at different time-points during ICU stay: inclusion, day 3, day 8 and day 15. Moreover, participants with ARDS, for whom a post-ICU follow-up program is normally established after discharge, will have blood analysis from blood samples taken during the follow-up visit up to 8 months after inclusion. Immunophenotypage and functionality of non-conventional T cells and innate cells will be compared to clinical parameters and their evolution, between "CAP" participants and "Control" participants", and for each participants, according to the different time-point of analysis, in order to better understand dynamic of innate immunity during pneumonia and ARDS.
Acute Respiratory Distress Syndrome (ARDS) is a serious condition that occurs as a complication of medical and surgical diseases, has a mortality of ~40%, and has no known treatment other than optimization of support. Data from basic research, animal models, and retrospective studies, case series, and small prospective studies suggest that therapeutic hypothermia (TH) similar to that used for cardiac arrest may be lung protective in patients with ARDS; however, shivering is a major complication of TH, often requiring paralysis with neuromuscular blocking agents (NMBA) to control. Since the recently completed NHLBI PETAL ROSE trial showed that NMBA had no effect (good or bad) in patients with moderate to severe ARDS, the investigators sought to evaluate whether TH combined with NMBA is beneficial in patients with ARDS. The investigators are scheduled to begin enrolling in a Department of Defense-funded Phase IIb multicenter RCT of TH (core temperature 34-35°C) + NMBA for 48h vs. usual temperature management in patients with ARDS with time on ventilator as the primary outcome. Since COVID-19 is now the most common cause of ARDS, we are conducting a pilot study to examine the safety and feasibility of including patients with COVID-19-associated ARDS in our upcoming trial. In this pilot, we will randomize 20 patients with COVID-19 and ARDS to either TH+NMBA for 48h or usual temperature management. The primary outcome is achieving and maintaining the target temperature. Secondary outcomes include safety, physiologic measures, mortality, hospital and ICU length of stay, and serum biomarkers collected on days 0, 1, 2, 3, 4, and 7.
Acute respiratory distress syndrome (ARDS) in neonates has been defined in 2017.The death rate is over 50%. HFOV and CMV are two main invasive ventilation strategies. However, which one is better needing to be further elucidated.
Unresolved ARDS is defined by the persistence of ARDS criteria at the end of the first week of evolution despite an appropriate treatment of the cause of ARDS. A persistent ARDS is associated with an increased mortality and prolonged lengths of mechanical ventilation, ICU stay and hospitalization. Persistent ARDS is characterized by ongoing inflammation, parenchymal-cell proliferation, and fibroproliferation leading to disordered deposition of collagen. All of these pathways may be responsive to corticosteroid therapy. Only two randomized controlled double-blinded trials assessed the use of corticosteroids for persistent ARDS. In 24 patients, Meduri et al. reported an improvement of lung function and survival (1). In 180 patients, Steinberg et al showed no effect of corticosteroids on survival (2). A lower risk of death was observed when corticosteroids were started before 14 days after the onset of ARDS (2). Alveolar procollagen III is validated as a biomarker of active fibroproliferation. Alveolar procollagen III > 9 µg/L is associated to fibroproliferation (3). As mortality was lower in patients who received corticosteroids while presenting a high alveolar level of procollagen III on inclusion, Steinberg et al. showed that patients presenting with a low level of procollagen III and treated with corticosteroids had an increased risk of death (2). Investigatores hypothesize that the use of procollagen III could improve personalized decision-making regarding steroid treatment in patients presenting with persistent ARDS. The future of anti-fibrotic treatment, including corticosteroids, in persistent ARDS might propose to individualize the therapy according to the presence of an active fibroproliferative phase (precision or personalized medicine).
Severe hypoxemia following trauma may happen in many circumstances (aspiration, ventilation-associated pneumonia, lung contusion...), most of which are not exclusively associated with a direct injury to the lungs. Severe trauma and associated musculoskeletal injuries result in the acute release of Damage-Associated Molecular Patterns (DAMPs) in plasma, many of which are made of nucleic acids. DAMPs then bind leukocytes and trigger NETosis (Neutrophil Extracellular Traps), the release of nuclear material coated with proteolytic enzymes, which ultimately promotes remote lung injury and acute respiratory distress syndrome (ARDS). Considering that many DAMPs and all NETs are made of nucleic acids, we hypothesize that dornase alfa, a commercially available recombinant desoxyribonuclease (DNAse) could reduce DAMPs and NETs-induced lung injury in severe trauma patients under mechanical ventilation in the intensive care unit (ICU). The primary objective is to demonstrate a reduction in the incidence of moderate to severe ARDS in severe trauma patients during the first seven ICU days from 45% to 30% by providing aerosolized dornase alfa once during the first two consecutive ICU days and compared to equivalent provision of placebo (NaCl 0,9%). The secondary objectives are to demonstrate, by using aerosolized dornase alfa compared to placebo: - an improvement in static lung compliance - a reduction in mechanical ventilation duration / an increase in ventilation-free ICU days - a reduction in the length of ICU stay - a reduction in the hospital length of stay - a reduction in multi-organ failure - a reduction in ventilator-associated pneumonia (VAP) - a reduction in mortality at day 28
To prospectively assess the mechanical ventilation management when its provided by Emergency Physicians in French Hospital, and to assess complications and outcome of these patients. The study could be measure the proportion of patients developing an Acute Respiratory Failure Distress after a take care of by French Emergency Departments.
We would study whether there is any measurable benefit of the administration of nebulized n-acetyl-cysteine to acute respiratory distress syndrome patients starting within 48 hours of intubation and mechanical ventilation.