View clinical trials related to ARDS, Human.
Filter by:Acute Respiratory Distress Syndrome (ARDS) reflects the hallmark of the critical course of coronavirus (COVID19). The investigators have recently shown that Exhaled Breath Particles (EBP) measured as particle flow rate (PFR) from the airways could be used as a noninvasive real-time early detection method for primary graft dysfunction (which bears a pathophysiological resemblance to ARDS) in lung transplant patients. The investigators have also previously demonstrated the utility of PFR in early detection and monitoring of ARDS in a large animal model. PFR has been shown to be elevated prior to the cytokine storm which classically occurs in ARDS. Early detection of ALI and ARDS is intimately linked to a patient's chance of survival as early treatment consisting of the preparation for intensive care, prone positioning and protective mechanical ventilation can be implemented early in the process. In the present study the investigators aim to use real-time PFR as an early detector for COVID19-induced ARDS. The investigators will also collect EBPs onto a membrane for subsequent molecular analysis. Previous studies have shown that most of those proteins found in bronchoalveolar lavage (BAL) can also be detected in EBPs deposited on membranes. The investigators therefore also aim to be able to diagnose COVID19 by analyzing EBPs using Polymerase Chain Reaction (PCR) with the same specificity as PCR from BAL, with the added benefit of being able to identify protein biomarkers for early detection of ARDS.
The combination of different ventilatory strategies and its effects on respiratory mechanics and gas exchange in patients under mechanical ventilation with acute respiratory distress syndrome secondary to coronavirus-19 has been scarcely described.
This is a pilot phase, open label, non-randomized study for the treatment of ARDS in patients infected with COVID-19. Subjects will be enrolled and treated with one dose of mesenchymal stem cells and follow-up will occur 90 days post-treatment.
This is an open label, dose escalating safety study of the advanced therapy investigational medicinal product (ATIMP) KI-MSC-PL-205, where patients diagnosed with SARS-CoV-2-induced severe acute respiratory distress syndrome (ARDS), according to the Berlin Definition, and who are on respirator/ventilator (used synonymously in this protocol) support due to respiratory insufficiency with or without concomitant circulatory problems, will be included and treated with a single dose of KI-MSC-PL-205.
Acute respiratory distress syndrome (ARDS) is a type of respiratory failure characterized by the rapid onset of widespread inflammation in the lungs. ARDS is thought to be the main cause of respiratory failure in COVID-19 patients. Research is still ongoing to further elucidate the different ARDS subtypes that may exist in COVID-19. It is crucial to find new targets for treatment and support of COVID-19 patients with respiratory failure.
DESIGN Longitudinal prospective observational multicentre study. Primary objective: Understand the immune mechanisms driving COVID-19 disease in patients with a history of lung disease
This study will explore whether a daily supplement of glycine, a substance that has antiinflammatory, cytoprotective, and endothelium-protecting effects, can improve mortality, as well as clinical and biochemical parameters, in patients with severe COVID-19 who initiate mechanical ventilatory support.
Patient-ventilator asynchrony is an important clinical issue in mechanically ventilated patients. For patients with moderate to severe acute respiratory distress syndrome (ARDS), various types of patient ventilator asynchrony may lead to injury of the lung. For example, double cycling may lead to high tidal volume and pendelluft may result in transient overstretch of dependent lung region. In this project, the investigators will record and analyze various types of patient-ventilator asynchrony in ARDS patients and analyze the regional distribution of lung gas and determined their harmful effect via concomitant recording of EIT and transpulmonary pressure. The results may influence our ventilator management of ARDS patients.
This protocol tests the safety and efficacy of a novel universal vaccine concept called "allo-priming" which is designed to protect elderly adults from progression of any type of viral infection, including possible protection against progression of the current outbreak of COVID-19 infection, and any future variants, strains, mutations of the causative SARS-CoV-2 virus as well as protection from any future currently unknown newly emergent novel viruses.
The objective is to investigate the efficacy of volumetric capnography to detect changes in dead space, CO2 elimination and shape factor parameters before and after disconnection of external dead space in ventilated COVID-19 patients.