View clinical trials related to Acute Lung Injury.
Filter by:Extracorporeal life support (ECLS), also known as extracorporeal membrane oxygenation (ECMO), is an extracorporeal technique of providing effective cardiac and respiratory support to patients with lungs and/or heart failure. There was a growth in ECLS cases, centers, and center scale in China during the past decade. This multi-center registry was conducted by Chinese Society of Extracorporeal Life Support. The objectives were to investigate China statistics of ECLS and to evaluate the short-term and long-term outcomes of patients with ECLS.
Although most of the information focuses on understanding how the ventilator produces lung damage, the pulmonary factors that predispose to ventilator-induced lung injury (VILI) have been less studied. Acute respiratory distress syndrome (ARDS) can adopt different morphological phenotypes, with its own clinical and mechanical characteristics. This morphological phenotypes may favor the development of VILI for same ventilatory strategy
This study will examine the feasibility of a large clinical trial investigating the effectiveness of airway pressure release ventilation and low tidal volume ventilation for patients with moderate-to-severe acute respiratory distress syndrome.
Several studies suggested that ARDS may have important adverse effects on renal function, but few studies have specifically addressed the risk factors of AKI and its impact on the outcome in theses patients.
TRALI was defined as "acute noncardiogenic pulmonary edema typically occurs ≤ 6 hours following transfusion of plasma-containing blood products, such as packed red blood cells, fresh frozen plasma, platelets, or cryoprecipitate." In critically ill patients, TRALI remains the leading cause of transfusion-related fatalities and is accompanied by a very significant morbidity and mortality. Survival in such patients is as low as 53% compared with 83% in acute lung injury (ALI) controls. The incidence of TRALi is likely underreported. In densely populated developing countries, incidence has not decreased due to lack of male-only strategy for plasma donation. TRALI is associated with systemic inflammation characterized by low anti-inflammatory cytokine as interleukin (IL)-10, increased pro-inflammatory cytokine as IL-8. Regulation of inflammation should include avoidance of overproduction of inflammatory mediators. So, it can be dampened not only by increasing IL-10 but also by decreasing IL-1β release. C-reactive protein (CRP) is an acute phase protein which is up-regulated during infections and inflammation. CRP was recently identified as a novel first hit in TRALI. Till now, there is no established treatment for TRALI beyond supportive care and monitoring. Recently, potential therapies have been reviewed, and it was concluded that the most promising therapeutic strategies are IL-10 therapy, downregulation of CRP levels, targeting reactive oxygen species (ROS) or blocking IL-8 receptors. So, antioxidants (such as high dose vitamins), were recommended for future studies as potentially effective treatment. Vitamin C hypovitaminosis is observed in 70% of critically ill despite receiving recommended daily doses. The aim of this study is to investigate the role of intravenous vitamin C (ascorbic acid) as a targeted therapy for transfusion related acute lung injury (TRALI) in critically ill patients in terms of IL-8, IL-10, CRP, SOD, malondialdehyde (MDA), vasopressor use, duration of mechanical ventilation, ICU length of stay, 7-days mortality and 28-days mortality.
Venovenous extracorporeal membrane oxygenation (VV-ECMO) is widely used in the salvage treatment of critical acute respiratory distress syndrome (ARDS). However, reducing lung injury, accelerating lung recovery, shortening VV-ECMO support time, and decreasing complications during the treatment need further study. By changing the body position of ARDS patients, the prone position can increase the lung's dorsal ventilation and improve the lung's ventilation/blood flow ratio to improve oxygenation. Previous multicenter studies have proved that the prone position can significantly reduce the mortality of patients with moderate and severe ARDS. However, patients with severe ARDS rescue by VV-ECMO rarely combine with a prone position.On the one hand, with the support of ECMO, the patient's oxygenation will be significantly improved, and they will no longer need the assistance of a prone position. In addition, the ECMO cannula brings some challenges to implementing a prone position. Only a few cohort studies have reported that VV-ECMO combined with a prone position could improve the oxygenation index and respiratory system compliance during the late treatment period. The initial reason for PP in ARDS patients was to alleviate severe hypoxemia, as it was an efficient means to improve oxygenation in most patients. However, some patients were categorized as non-responders in the PP regarding oxygenation, which caused VV-ECMO therapy to be initiated. Should we decide to perform PP after VV-ECMO therapy no longer? This study evaluates whether early use of PP during VV-ECMO would increase the proportion of patients successfully weaned from VV-ECMO support compared with supine positioning in severe ARDS patients who received PP before ECMO.
During surgery high concentrations of supplementary oxygen are routinely administrated. However, there is increasing evidence of potential harm with liberal oxygen therapy. The hypothesis of the present study is that oxygen therapy adjusted to a normal arterial oxygen target is feasible and will attenuate the side effects of supplementary oxygen therapy. The study design is a before-and-after study in which 25 patients will follow the standard regime with high concentrations of oxygen therapy and 25 patients will be treated with oxygen to achieve a normal value of arterial oxygenation.
Acute respiratory distress syndrome (ARDS) is due to diffuse and severe lung inflammation. Despite intensive research, few therapeutics have emerged and treatment is still mostly symptomatic. As lung microbiota seems to be associated with lung inflammation in numerous chronic respiratory diseases, this study aims to analyse the correlation between lung microbiota and mortality.
Patients with Acute Respiratory Distress Syndrome (ARDS) residing in the intensive care unit (ICU) often require support for their breathing from a mechanical ventilator to provide adequate gas exchange, and although it is life-saving in this setting, it is also known to contribute to the morbidity and mortality in the condition. Mechanical ventilation delivers a volume and pressure of gas for each breath and can vary oxygen levels. Selecting the correct oxygen, pressure and volume levels is important, as incorrect levels can harm the patient, and result in an increased time connected to the ventilator. Recently, a system has been developed (the Beacon Caresystem) which advises the healthcare practitioner by the bedside as to how to best set the ventilator. This system is based on mathematics which describes the patients disease and may therefore provide ventilator settings which better suit the individual. The purpose of this study is to compare mechanical ventilation in ARDS patients following advice from the Beacon Caresystem to that of standard care to investigate whether the use of the system results in improved ventilation in all severities and phases of ARDS and thus reducing morbidity in ARDS. The investigators plan to recruit 110 patients (50 in the UK and 30 in each of the other 2 sites). The study also aims to examine the biological and physiological factors that determine the worsening of ARDS and the processes involved in recovery from ARDS with the aim to develop new therapies to help detect the condition and improve recovery. The investigators will utilise all raw data will be collected from the Beacon Caresystem to physiologically characterise the progression and resolution phases of ARDS. Additionally blood and Urine samples will be taken from healthy volunteers (100 in total) as a control comparison group for the biological analyses carried out in the DeVENT study.
The overall goal of the study is to risk stratify pediatric Acute Respiratory Distress Syndrome (ARDS) patients and to identify sub-phenotypes with shared biology in order to appropriately target therapies in future trials. This is a prospective, multicenter study of 500 intubated children with ARDS, with planned blood collection within 24 hours of ARDS onset and subsequent measurement of plasma protein biomarkers and peripheral blood gene expression.