Active clinical trials for "Acute Lung Injury"

The aim of this study is to compare two methods of delivery of noninvasive mechanical ventilation (NIV). Since patient compliance and mechanical characteristics of the delivery devices are two fundamental variables in the success of NIV during acute respiratory failure, our hypothesis is that an improved patient-ventilator interface may improve the efficacy of therapy.

Acute Respiratory Distress Syndrome (ARDS) and a lesser condition that occurs prior to ARDS, Acute Lung Injury (ALI), are medical conditions that occur when there is severe inflammation and increased fluids (edema) in both lungs, making it hard for the lungs to function properly. Patients with these conditions require treatment that includes the use of a breathing machine (ventilator). The purpose of this study is to find out whether giving albuterol (a drug commonly used in asthmatics) or not giving albuterol to patients with ALI or ARDS makes a difference in how long it takes for a patient to be able to breath without the ventilator.

In patients with Acute Respiratory Distress Syndrome (ARDS) associated with COVID-19 inflammatory syndrome, the administration of Treg cells is a novel treatment complementary to other pharmacologic interventions that potentially can reduce lung inflammation, promote lung tissue repair, and significantly improve clinical outcomes. This trial is to evaluate the impact of a single IV dose of cePolyTregs given to ARDS patients with COVID-19 inflammatory syndrome.

This study aims to compare epidemiology, management of invasive ventilation and outcomes in critically ill patients with COVID-19 ARDS and ARDS from another pulmonary infection. The investigators will use individual patient data from four recently published large observational COVID-9 studies, including the 'Practice of VENTilation in COVID-19 patients' (PRoVENT-COVID) study, the 'Epidemiology of COVID-19 patients in the ICU' (EPICCoV) study, the 'SATI-COVID-19 - Clinical Characteristics and Outcomes of Patients With COVID-19 on Mechanical Ventilation in Argentina: a Prospective, Multicenter Cohort Study' and the CIBERESUCICOVID - Personalized Risk and Prognosis Factors and Follow-up at One Year of the Patients Hospitalized in the Spanish Intensive Care Units Infected with COVID -19' study. The investigators will use the individual patient data from ARDS patients with another pulmonary infection from the 'LUNG -SAFE - Large Observational Study to UNderstand the Global Impact of Severe Acute Respiratory FailurE' study and the 'ERICC - Epidemiology of Respiratory Insufficiency in Critical Care' study.

Acute respiratory distress syndrome (ARDS) is a severe pulmonary insult responsible for major, life-threatening hypoxemia. The alteration of hematosis is secondary to alveolar edema, following damage to the alveolocapillary barrier in response to a systemic inflammatory process. The presence of fluid effusion within the alveolar sacs and the modification of type II pneumocyte activity due to the presence of numerous pro-inflammatory mediators will lead to a quantitative and qualitative alteration of the surfactant. At the same time, leukocyte infiltration will lead to an alteration of the support tissue and to the accumulation of cellular debris. All these elements will lead to a heterogeneous loss of aeration of the lung. In addition, the alveolar units are compressed by the entire lung parenchyma due to the effect of gravity on the edematous tissue. The treatment of ARDS is based on the antagonistic need to maintain hematosis and reduce parenchymal insult secondary to mechanical ventilation. Optimization of mechanical ventilation consists in reducing the volume of gas administered at each respiratory cycle and in limiting thoracic parietal stress by the use of curares. More recently, the interest of the ventral decubitus position has been demonstrated. During such a maneuver, the posterior pulmonary parenchymatous zones, usually subjected to gravity in the supine position, will be able to re-expand under the effect of the prone position and of the positive pressure induced by the ventilator. The increase in parietal elastance, due to the compression of the thorax between the posterior part of the trunk and the bed, also contributes to an improvement in the distribution of inhaled gases within the pulmonary parenchyma by limiting the loss of energy, transmitted directly to the wall. The ventral decubitus position allows to redistribute the ventilation in territories which were not aired before but which participate to the respiratory exchanges because they are still perfused and thus to improve the pulmonary compliance measured. Although described as an atypical form, SARS-CoV-2 infection can lead to ARDS with severe forms of viral pneumonia and thus require prone positioning. While this results in improved oxygenation and compliance, prone positioning is accompanied by a risk of complications such as pressure sores, described as the most frequent. In addition, the massive influx of patients and more generally the lack of personnel during pandemic peaks has made the application of prone position sometimes complex because it requires human resources. As a result, the benefit/risk ratio of the maneuver is difficult to determine because not all patients respond in the same way to prone positioning. It appeared essential to be able to predict the expected benefit of the prone position before performing the procubitus maneuver. The application of thoracic and abdominal pressures, as part of the respiratory management of patients, is a technique commonly used by physiotherapists. Investigators have demonstrated a similar change in measured lung parenchymal compliance during manual compression of a patient's chest and during prone positioning. In the context of the epidemic, investigators used this test systematically to determine which patients were most likely to benefit from prone positioning and for whom the available resources should be concentrated at any given time.

Assessment of the effect of hyperoxia and hypertonic saline on survival in patients with septic shock Hyperoxia and hypertonic saline may have beneficial effects on organ perfusion and oxygenation and may reduce the organ failure occurences. To date, only scarce data are available. Side effects are not well described. Therefore we designed a randomized clinical trial in order to assess the early administration of hypertonic saline and oxygen in the very early beginning of septic shock.

What is the effect of early high frequency oscillation (HFO) versus a lung-protective conventional ventilation (CV) strategy (using HFO only as rescue therapy), on all-cause hospital mortality among patients with severe early acute respiratory distress syndrome (ARDS)?

Term and near term newborns can present acute respiratory distress syndrome (RDS). Surfactant treatment has been shown effective in reducing mechanical ventilation and oxygen treatment durations in the preterm newborn. Whether surfactant treatment is beneficial for term and near term newborns is unknown. The purpose of this study is to compare surfactant treatment vs. nasal continuous positive airways pressure in the newborn between 35 and 41 weeks of gestation with RDS within the first 24 hours of life. The study's primary endpoint is "survival with no oxygen treatment at 72 hours of life". The secondary endpoints are: death, surfactant treatment, pneumothorax, secondary infections, pulmonary hypertension, inhaled nitric oxide treatment, fluid loading treatment, vasopressive amines treatment, mechanical ventilation duration, nCPAP treatment duration, Oxygen treatment duration, Oxygen treatment at 28 days of life, hospitalization duration and treatment strategy cost.

Aim is to investigate the influence of an early supply of parenteral nutrition including a fish oil containing lipid emulsion on the course of acute lung injury in the intensive care unit. In comparison, a standard parenteral nutrition with a soybean oil based emulsion will be used. Data obtained in this trial may provide evidence for a beneficial effect of fish oil derived omega-3 fatty acids in parenteral nutrition regarding their influence on acute lung injury.

Based on recent two-center results (Eur Respir J. 2011 Sep 1. [Epub ahead of print] PMID: 21885390) we hypothesized that intermittent High-frequency oscillation (HFO) combined with Recruitment Maneuvers (RMs) may beneficially affect the pathophysiology and survival of patients with moderate-to-severe Acute Respiratory Distress Syndrome (ARDS). Design: Randomized Controlled Trial. Intervention: Briefly, the HFO-RMs strategy of the intervention (HFO-RMs) group will comprise RMs (3/day) and an initial HFO session of 96 hours (HFO session can be interrupted before the 96-hour time point only if PaO2/FiO2 rises to >200 mmHg for >12 hours), followed by return to lung protective conventional mechanical ventilation (CMV) according to pre-specified oxygenation criteria. Within days 1-10 postrandomization, patients will be returned to HFO upon recurrence of their moderate-to-severe oxygenation disturbance. Patients of the control (CMV) group will receive lung protective CMV.