View clinical trials related to ARDS.
Filter by:The aim of the COMIX-R study is to assess the short term physiological effects of 3 ventilation strategies for adult patients with ARDS admitted to intensive care unit
The concept of Ventilator-induced Lung Injury Vortex (VILI vortex) has recently been proposed as a progressive lung injury mechanism in which the alveolar stress/strain increases as the ventilable lung "shrinks" (1). This positive feedback inexorably leads to the acceleration of lung damage, with potentially irreversible results. Little is known about the clinical aspects of this condition. Understanding its behavior could contribute to changing its potential devastating impact. The objective of this study is to evaluate the incidence of VILI vortex in patients with acute respiratory syndrome (ARDS) secondary to COVID-19, to establish a connection between this phenomenon and mortality, and to identify the factors that have an impact on its development.
This study evaluates a novel arm restraint compared with traditional soft wrist restraints in older critically ill patients. The primary outcome is upper extremity mobility measured by actigraphy, and secondary outcomes include sedation, agitation, satisfaction, and acceptability.
The study aims to investigate the association between effects of PEEP on gas exchange model parameters and CT scan results
Background An appropriated mechanical ventilator setting for acute respiratory failure results of ventilator associated lung injury. Limited driving pressure and low tidal volume ventilation strategies show benefits decreasing mortality in acute respiratory distress syndrome, but there are no data in simple acute respiratory failure.
The acute respiratory distress syndrome (ARDS) is a life-threatening disease with functional impairment of the lung. It is characterized by an excessive inflammatory response of lung tissue, capillaries, and blood vessels and is associated with high mortality. Patients who survive the acute phase of this critical disease often suffer from long-term physical, psychological, and mental sequelae, as well as persistent cognitive deficits. In healthy individuals, autoregulatory mechanisms of the intracranial blood vessels keep blood supply to the brain independent of fluctuations in systemic blood pressure. In the case of a serious illness, these mechanisms of autoregulation may be impaired, which may favor cerebral hypoperfusion. Impairment of cerebrovascular hemodynamics can lead to neuronal damage in short and long term. The aim of this project is to investigate cerebrovascular autoregulation in adult patients with ARDS and to evaluate the cognitive outcome at 3, 6 and 12 months after discharge from the intensive care unit.
Doctors follow a standard ventilator management strategy when making adjustments to the breathing machine to optimize the amount of oxygen into the lungs. The purpose of this study is to assess whether the EIT (electrical impedance tomography) device can be an additional useful tool for ventilator management and identifying the ideal positive end-expiratory pressure (PEEP).
The acute respiratory distress syndrome (ARDS) is the most severe form of respiratory failure, presented in 10% of all intensive care patients and carrying a high mortality rate. Extracorporeal membrane oxygenation (ECMO) is a rescue treatment for patients with severe ARDS. Mechanical ventilator settings in patients with severe ARDS during ECMO therapy are not clearly defined at the moment.
The study of positive end-expiratory pressure(PEEP) in the setting mode has not yet been conclusive. there are several ways to choose the best positive end-expiratory pressure(PEEP) mode for ARDS patients. In this study ,the investigators selected two best positive end-expiratory pressure(PEEP) assessment methods to compare: First is using the conventional postive ventilator to choose positive end-expiratory pressure(PEEP) and the new non-invasive electrical impedance tomography(EIT) guided method and evaluation the treatment outcome in moderate and severe acute respiratory distress syndrome patients by using pressure-volume curve guided and electrical impedance tomography guided positive end-expiratory pressure setting. In this project, we utilize a newly available non-invasive method- electric impedance tomography (EIT) and Protective Ventilation to determine the optimal PEEP on ARDS patients required invasive mechanical ventilator support at a medical center medical ICU (MICU) and cardiovascular ICU (CVICU)- the Far Eastern memorial hospital, Taiwan.
In this study, we will explore the feasibility of a randomized controlled trial that will compare high protein dose from ICU day 6 to 14 with moderate protein intake.