View clinical trials related to Respiratory Distress Syndrome.
Filter by:The goal of this observational study is to profile the circulating immunological traits of patients with traumatic lung injury (TLI) and inhalation injury (ILI),providing a new direction for the depth research of the pathogenesis, and providing new immune-related targets for diagnosis of the severity of lung injury and treatment. The investigators performed scRNA-seq of neutrophil and peripheral blood mononuclear cells (PBMCs) from 10 ml fresh circulating blood from 3 patients with TLI and 3 patients with ILI at longitudinal timepoints,as well as peripheral blood from 3 health controls(HCs).
In addition to respiratory involvement, SARS-CoV 2, the virus responsible for coronavirus 2019 or Covid-19, appears to be responsible for renal involvement such as acute renal failure or proteinuria, so the mechanisms are not known at this time. The consequences of Covid-19 on renal function in the short and long term are not known. It is important to be able to better document these renal impairments to understand the mechanisms of this disease. The main objective of this study is to describe the prevalence of Covid-19-related renal damage (acute renal failure, proteinuria, microalbuminuria, hematuria) in a large cohort of patients in intensive care for SARS-CoV 2 infection with severe respiratory impairment. The other objectives will be to evaluate in this cohort the impact of these renal impairments on the severity of the Covid-19 disease, and to compare them to the renal impairments of patients in intensive care for acute respiratory distress syndrome (ARDS) due to other respiratory diseases. Blood and urine samples will be taken at the time of intubation in all critically ill patients with respiratory distress requiring mechanical ventilation for Covid-19 or other cause of respiratory distress with PaO2/FiO2 ratio < 300. Patients will be followed for the duration of their ICU and hospital stay. Data will be collected prospectively in three ICUs in the University Hospitals of Marseille.
Neuromuscular blockade (NMB) is proposed in patients with moderate to severe acute respiratory distress syndrome (ARDS). The supposed benefit of these muscle relaxants could be partly linked to their effects on respiratory mechanics by reducing ventilator induced lung injuries (VILI), especially the so called atelectrauma. Although its monitoring is recommended in clinical practice, data about the depth of NMB necessary for an effective relaxation of the thoracic and diaphragmatic muscles and, therefore, the reduction of the chest wall elastance, are scarce. The investigators hypothesised that complete versus partial NMB can modify respiratory mechanics and its partitioning.
Prone position ventilation was used 220 times in 44 out of 68 patients with severe COVID-19 induced ARDS treated with VV-ECMO. PPV treated patients did not benefit from PPV and the incidence of PPV related adverse events was high
Inhalation of toxic gases and chemical irritants during the fire leads to damage to the respiratory tract or the alveolar tissue, which is known as smoke inhalation injury. Acute Respiratory Distress Syndrome (ARDS) is associated with smoke inhalation injury. These patients usually need physiotherapy in the form of chest mobilization and breathing exercises for up to 4 to 6 weeks after discharge from the burns care centre. The patients during this phase are usually in pain and extremely anxious about these exercises. Virtual reality distraction (VRD) is one such technique that is gaining immense popularity recently, it has more immersive distraction when compared to traditional distraction techniques. This study aims to investigate the effect of a virtual reality distraction (VRD) technique as a pain alleviation tool for reducing pain during physiotherapy in burns patients with acute respiratory distress syndrome (ARDS) in a hospital setting.
By using Mechanical Power and Driving Pressure instead of Pmean we calculate new oxygen saturation indices like Driving Pressure Oxygen Index (OIDP), Dynamic Power Oxygen Index (OIMPdyn), Total Power Oxygen Index (OIMPtot), Driving Pressure Saturation Index (OSIDP), Dynamic Power Saturation Index (OSIMPdyn) ve Power Saturation Index (OSIMPtot). New oxygenation and saturation indices are able to predict ICU mortality better than the conventional indexes and rates.
The Starling system is a completely non-invasive hemodynamic monitoring technique. It is able to measure the thoracic fluid content (TFC). The TFC is supposed to reflect the total content of fluid in the thorax. Thus, TFC may include two of the variables that are commonly used for hemodynamic monitoring: the extravascular lung water (EVLW), and the global end-diastolic volume (GEDV). However, whether the TFC actually reflects GEDV and EVLW has not been clearly established. The objective of the study is to establish the determinants of TFC among hemodynamic variables including EVLW and GEDV.
Methamphetamine and amphetamine has various cardiovascular and central nervous system effects. Long-term use is associated with many adverse health effects including cardiomyopathy, hemorrhagic, and ischemic stroke. Death is usually caused by cardiovascular collapse and while amphetamine abuse has been considered as a potential cause of acute respiratory distress syndrome, the reports are usually anecdotal. This investigation considers reviewing individuals with few to zero medical conditions who develop acute respiratory distress syndrome and are methamphetamine positive
The investigators are planning to perform a secondary analysis of an academic dataset of 1,303 patients with moderate-to-severe acute respiratory distress syndrome (ARDS) included in several published cohorts (NCT00736892, NCT02288949, NCT02836444, NCT03145974), aimed to characterize the best early model to predict duration of mechanical ventilation and mortality in the intensive care unit (ICU) after ARDS diagnosis using machine learning approaches.
The alveoli tend to collapse in patients with ARDS. Endotracheal aspiration may increase alveolar collapse by decreasing the end-expiratory lung volume. The hypothesis is that closed endotracheal aspiration led to less end-expiratory volume loss when compared to open endotracheal aspiration.