Active clinical trials for "Respiratory Distress Syndrome"

The diaphragm is the fundamental muscle of the respiratory system. The diaphragmatic dysfunction is present in 60% of critical patients at hospital admission and up to 80% after prolonged mechanical ventilation and difficult weaning. Risk factors associated with diaphragm dysfunction and atrophy are sepsis, trauma, sedatives, steroids, and muscle relaxants. The main pathology characteristics of diaphragm biopsies of mechanically ventilated patients are atrophy and a reduction in contractility, determining an impact on the clinical outcome. Shi et al. found a higher section area of the diaphragm muscle fiber in biopsies of post mortem COVID-19 patients versus negative patients, independently from days of mechanical ventilation. The hypothesis of our study is to identify different clusters of pathological presentation in post-mortem COVID-19 mechanically ventilated patients.

Registry intended to provide a data repository and reporting infrastructure for the surveillance of CytoSorb device use in real-world critical care settings, and to serve as an objective, comprehensive, and scientifically-based resource to measure and improve the quality of patient care

Sepsis-induced acute respiratory distress syndrome (ARDS) is a life-threatening acute inflammatory lung injury, associated with increased pulmonary microvascular permeability, increased lung weight, and loss of aerated lung tissue.Despite advances in critical care, no established and targeted treatment for ARDS, contributing to a persistently high mortality rate of 34% to 45%. Therefore, exploring novel therapeutic targets for septic ARDS is of paramount importance.Acetaldehyde dehydrogenase 2 (ALDH2) is a mitochondrial enzyme that serves as the primary toxic aldehyde scavenger and is expressed in various cells, including neutrophils. The ALDH2 rs671 single nucleotide polymorphism, leading to an approximate 90% decrease in ALDH2 enzymatic activity, is implicated in occurrence of macrovascular conditions, such as coronary artery disease, pulmonary arterial hypertension, and aortic aneurysm or dissection.An array of studies has delved into role of ALDH2 in regulating cellular processes, including inflammation, autophagy, apoptosis, necrosis,efferocytosis and pyroptosis.but whether it associated with the incidence of septic-ARDS remains unknown.The aim of this study was to determine whether the ALDH2 rs671 single nucleotide polymorphism was associated with the incidence of septic-ARDS.

To evaluate the validity of lung ultrasound compared to CT chest and chest radiograph for diagnosis of ARDS and prediction of successful weaning from mechanical ventilation in those patients compared to traditional methods.

We attempt to perform dynamic endotyping of critically ill patients presenting in the emergency department with de novo acute hypoxemic respiratory failure (AHRF). We also attempt to identify what clinical, radiological, physiological and biological variables collected early in the course of AHRF correlate with subsequent mortality and/or persistent severe hypoxemia.

Venovenous extracorporeal membrane oxygenation (VV-ECMO) is a salvage treatment for severe acute respiratory distress syndrome (ARDS). With the large-scale implementation of VV-ECMO in critical care medicine departments in China, significant progress has been made in treating severe ARDS. However, the patient mortality rate remains high. The pathophysiological essence of ARDS is an imbalance between the body's oxygen supply and demand, causing tissue and cell hypoxia, organ dysfunction, and even death. The VV-ECMO treatment process still requires mechanical ventilation assistance. However, inappropriate mechanical ventilation settings can lead to ventilator-related lung injury (VILI). In recent years, mechanical power has gradually attracted everyone's attention and is considered the cause of VILI. The transpulmonary mechanical power is more accurate to the energy directly performed to the lung tissue. Transpulmonary mechanical energy has a specific value in judging the prognosis of mechanically ventilated patients, but its clinical significance in treating patients with VV-ECMO is unclear. This study aimed to explore the value of transpulmonary mechanical power in predicting the prognosis of patients with severe ARDS patients treated with VV-ECMO.

This is an observational study to evaluate the clinical impact of respiratory virus in the patients with acute respiratory failure

Extracorporeal membrane oxygenation (ECMO) had been used to treat refractory hypoxemia associated with acute respiratory distress syndrome (ARDS). There were reported good outcome associated with ECMO for ARDS caused by influenza infection from several ECMO centers. However, the outcome of ECMO support in lower ECMO experience center had not been evaluated. This study aimed to evaluate the outcome of ECMO, comparing with conventional treatment among severe hypoxemic ARDS patients who were admitted in limited ECMO experience hospital.

The transpulmonary thermodilution is commonly used in patients with acute circulatory failure in the intensive care unit and for monitoring surgical patients at high risk. However, the incidence of complications and their risk factors in patients monitored by transpulmonary thermodilution has not been completely reported yet.

Intubated patients with the acute respiratory distress syndrome (ARDS) are usually treated with protective ventilation limiting plateau pressure below 30 centimeter of water (cmH2O) and, if possible, a driving pressure under 15 cmH2O. However, these airway pressures might not reflect the actual pressure applied to the lung. Transpulmonary pressure is the difference between airway pressure and pleural pressure, the latter is estimated by the esophageal pressure, and so it better reflects the ventilatory induced lung injury (VILI). One of the consequences of the VILI is a increase of pulmonary edema and it could be estimated by the extravascular lung water, obtained by trans-pulmonary thermodilution. So it could exist a link between the driving trans-pulmonary pressure and the extravascular lung water.