View clinical trials related to Acute Lung Injury.
Filter by:The study is composed of two parts. In part A of the study two active doses of inhaled pegylated adrenomedullin (PEG-ADM) will be compared regarding safety and efficacy to a substance that has no therapeutic effect (placebo) in order to find an optimal and safe of the study drug. In part B of the study the highest dose that is considered safe and has demonstrated efficacy will be taken forward to collect information how well patients suffering from Acute Respiratory Distress Syndrome (ARDS) respond to treatment with inhaled pegylated adrenomedullin (PEG-ADM) compared to treatment with placebo. ARDS is a type of lung failure that cause fluid to build up in the lungs making breathing difficult or impossible.
Acute Respiratory Distress Syndrome (ARDS) is the main cause of death from COVID-19. One of the main mechanisms for ARDS is the violent storm of cytokines and chemokines, which cause uncontrolled fatal systemic inflammation by the immune system on the body, with additional multiple organ failure. Mortality in cases of severe ARDS caused by COVID 19 varies significantly between 50 and 90%, basically depending on the age of the patient and the presence of comorbidities. The plasticity of Mesenchymal Stem Cells (MSC) regulates inflammation and immunity. MSC can promote and inhibit an immune response, depending on the dynamics of inflammation and depending on the activation force of the immune system, the types of inflammatory cytokines present, and the effects of immunosuppressants. Essentially, the state of inflammation determines the immunoregulatory fate of MSC. Thus, IV application of AMSCa has been shown to control the inflammatory response in various diseases, such as the graft-versus-host reaction and the ARDS caused by H5NI. The objective of this study is to describe the clinical changes secondary to IV administration of MSC allogenic, in patients with bilateral COVID-19 pneumonia complicated by severe ARDS, with the evaluation of the PaO2 / FiO2 ratio, heart and respiratory rates, and the fever curve. Five patients, of either sex, over 18 years of age, with bilateral pneumonia caused by COVID-19 and severe SIRA that has not improved with the standard management measures used at that time in the care center, will be included in the study. This treatment will be administered after discussing it with the relatives that it is a procedure considered as rescue and will be carried out with informed consent. 1x10(6) xKg will be applied IV. The follow-up of the patient will be for three weeks. PaO2 / FiO2 data, fever, inflammatory markers and immunity will be evaluated. The results will be compared with the historical controls attended at INCMNSZ.
The aim of the study is to clinically use bovine Lf as a safe antiviral adjuvant for treatment and to assess the potential in reducing mortality and morbidity rates in COVID-19 patients. The study was approved by the ethical committee of the Egyptian Center for Research and Regenerative Medicine in 11-5-2020.
The study is a prospective, randomized, placebo-controlled, double-blind phase 2 clinical study of the efficacy and safety of CERC-002, a potent inhibitor of LIGHT (Lymphotoxin-like, exhibits Inducible expression, and competes with Herpes Virus Glycoprotein D for Herpesvirus Entry Mediator, a receptor expressed by T lymphocytes), for the treatment of patients with 2019 novel coronavirus disease (COVID-19) pneumonia who have mild to moderate Acute Respiratory Distress Syndrome (ARDS). LIGHT is a cytokine in the tumor necrosis factor super family (TNFSF14) which drives inflammation and induces many other cytokines including IL-1, IL-6 and GM-CSF. LIGHT levels have been shown to be elevated in COVID-19 infected patients and inhibiting LIGHT is hypothesized to ameliorate the cytokine storm which has shown to be a major factor in progression of ARDS. The study will assess the efficacy and safety of CERC-002 in patients with severe COVID-19 over a 28 day period as single dose on top of standard of care.
This multicentric prospective clinical practice study aims at evaluating clinical factors associated with a prolonged invasive mechanical ventilation and other outcomes such as mortality and ICU length of stay in patients affected from COVID-19 related pneumonia and ARDS.
This is an observational study to evaluate the clinical impact of respiratory virus in the patients with acute respiratory failure
This study aims to find out whether the use of angiotensin II, which is a drug to raise blood pressure has been approved by European Medical Agency in August 2019, as an add-on medication to increase blood pressure in patients with COVID-19, acute severe lung injury, inflammation and severe shock, compared with standard medication. In addition, the investigators will collect the data of Anakinra, another drug which is frequently used in this condition to reduce inflammation. The investigators will collect clinical data and outcomes from critical care patients. The investigators will analyse for whom these drugs are most beneficial and explore whether there are any patients who don't benefit or have side effects.
Extracorporeal life support (ECLS), also called extracorporeal membrane oxygenation (ECMO), is an extracorporeal technique of providing effective circulatory and (or) respiratory failure, with a growing number of critically ill patients benefit from it. The aim of this study is to investigate the outcome of patients treated With ECMO, and to evaluate the short-term and long-term outcomes of patients with ECLS.
Respiratory involvement of SARS-CoV2 leads to acute respiratory distress syndrome (ARDS) and significant immunosuppression (lymphopenia) exposing patients to long ventilation duration and late mortality linked to the acquisition of nosocomial infections. Lymphopenia characteristic of severe forms of ARDS secondary to SARS-CoV2 infection may be linked to expansion of MDSCs and arginine depletion of lymphocytes. Severe forms of COVID-19 pneumonitis are marked by persistent ARDS with acquisition of nosocomial infections as well as by prolonged lymphocytic dysfunction associated with the emergence of MDSC. It has been found in intensive care patients hypoargininaemia, associated with the persistence of organ dysfunction (evaluated by the SOFA score), the occurrence of nosocomial infections and mortality. Also, it has been demonstrated that in these patients, the enteral administration of ARG was not deleterious and increased the synthesis of ornithine, suggesting a preferential use of ARG by the arginase route, without significant increase in argininaemia nor effect on immune functions. L-citrulline (CIT), an endogenous precursor of ARG, is an interesting alternative to increase the availability of ARG. Recent data demonstrate that the administration of CIT in intensive care is not deleterious and that it very significantly reduces mortality in an animal model of sepsis, corrects hypoargininemia, with convincing data on immunological parameters such as lymphopenia, which is associated with mortality, organ dysfunction and the occurrence of nosocomial infections. The availability of ARG directly impacts the mitochondrial metabolism of T lymphocytes and their function. The hypothesis is therefore that CIT supplementation is more effective than the administration of ARG to correct hypoargininaemia, decrease lymphocyte dysfunction, correct immunosuppression and organ dysfunction in septic patients admitted to intensive care. The main objective is to show that, in patients hospitalized in intensive care for ARDS secondary to COVID-19 pneumonia, the group of patients receiving L-citrulline for 7 days, compared to the group receiving placebo, has a score of organ failure decreased on D7 (evaluated by the SOFA score) or by the last known SOFA score if the patient has died or been resuscitated.
The primary objective of the study aims to compare the effect of high-dose intravenous vitamin C vs. placebo on a composite of death or persistent organ dysfunction - defined as continued dependency on mechanical ventilation, new renal replacement therapy, or vasopressors - assessed at 28 days on intensive care unit (ICU) patients. As secondary objectives, the study aims: - To compare the effect of high-dose intravenous vitamin C vs. placebo on: 1. 6-month mortality; 2. 6-month HRQoL; 3. organ function (days 1, 2, 3, 4, 7, 10, 14, and 28 if in ICU); 4. global tissue dysoxia (at baseline); 5. oxygenation Index (FiO2 x Mean Airway Pressure/PaO2) (days 1, 2, 3, 4, 7, 10, 14, and 28 if in ICU, and if still intubated); 6. occurrence of stage 3 acute kidney injury as defined by KDIGO (Kidney Disease: Improving Global Outcomes) criteria20; 7. acute hemolysis as defined by: - clinician judgment of hemolysis, as recorded in the chart, or - hemoglobin drop of at least 25 g/L within 24 hours of a dose of investigational product PLUS 2 of the following: - reticulocyte count >2 times upper limit of normal at clinical site lab; - haptoglobin < lower limit of normal at clinical site lab; - indirect (unconjugated) bilirubin >2 times upper limit of normal at clinical site lab; - lactate dehydrogenase (LDH) >2 times upper limit of normal at clinical site lab. Severe hemolysis: - hemoglobin < 75 g/L AND at least 2 of the above criteria AND requires 2 units of packed red blood cells; 8. hypoglycemia as defined as core lab-validated glucose levels of less than < 3.8 mmol/L. - To assess baseline vitamin C levels in study participants (before the first dose of investigational product).