Active clinical trials for "Acute Lung Injury"

Recent data from large trials of high-frequency high frequency oscillation (HFO) without a cuff leak vs, lung-protective conventional ventialtion (CMV) failed to show any HFO-related benefit with respect to outcome. A possible explanation is that HFO increases the probability of right ventricular dysfunction due to the combination of high mean airway pressures (mPaws) and hypercapnia. In contrast, available preliminary data on low-frequency HFO-tracheal gas insufflation (TGI) with cuff leak vs. CMV are suggestive of an HFO-TGI related benefit. Low-frequency HFO-TGI with a cuff leak is associated with relatively low mean tracheal pressures and adequate control of PaCO2. Thus, the investigators intend to test the hypothesis that low frequency HFO +/- TGI with a cuff leak is associated with better right ventricular function relative to high-frequency HFO without a cuff leak.

In modern anesthesia practice, the application of cricoid pressure during intubation is not infrequently used with the goal of preventing gastric-to-pulmonary aspiration. The evidence to support this practice is very scarce, and there have recently been many reports in the literature questioning the safety of cricoid pressure during intubation. Therefore, the goal of this study will be to randomize those at risk for microaspiration to receive cricoid pressure versus no cricoid pressure during intubation. We will specifically exclude those patients thought to be at the highest risk of aspiration (it is considered standard of care to perform cricoid pressure during intubation of this population). We will include those patients with some risk factors for aspiration (it is not considered standard of care to apply cricoid pressure during intubation of this population).

Neonatal respiratory distress syndrome (RDS) remains a major respiratory disorder for the increasing preterm population, and its incidence has been confirmed to be increased gradually with decreased gestational age. Previous studies demonstrated incidences of 90% at 24 weeks', 80% at 28 weeks', 57% at 30-31 weeks', and 25% at 35-36 weeks' gestational age(GA). However, these figures were mainly performed in the pre-neonatal acute respiratory distress syndrome (ARDS) era, in which ARDS was usually considered as RDS, and surfactant was therefore used repeatedly. In fact, no studies have indicated beneficial effects of surfactant for adult and pediatric ARDS, and therefore, its exact action for neonatal ARDS was needed to be further elucidated. In 2017, the international ARDS collaborative group provided the first consensus definition for neonatal ARDS, and the exact incidence of neonatal ARDS and mortality were unknown.

Since strategies were applied in intensive care medicine, including low tidal volume ventilation, fluid resuscitation, use of antibiotics, restrictive transfusion strategy and bundle of ventilator therapy, the incidence of Acute Respiratory Distress Syndrome (ARDS) has been decreased recent years. However, the mortality of severe ARDS is still higher to 45%. Few medications did were indicated to be effective in working on development of ARDS. Different with other disease, ARDS were difficult to prevent in its later stage like a domino effect. The medication interventions are all used after ARDS was developed, including ulinastatin. The investigators hypothesized that the key point in failure of medication therapy is the delay timing of medication intervention. If given the preventive strategy, such as ulinastatin, the incidence or the severity of ARDS might be decreased. Therefore this is a randomized controlled trial to test the hypothesis of the preventive effect of ulinastatin in ARDS. This is a multi-center, randomized, double blinded, placebo controlled study.

Acute respiratory distress syndrome (ARDS) is a form of acute lung injury of inflammatory origin, which represents a public health problem worldwide due to its prevalence, and its high mortality rate, close to 40%. Mechanical ventilation is a fundamental therapy to improve gas exchange, however, it can also induce further lung injury, a phenomenon known as ventilator induced lung injury (VILI). The limitation of tidal volume is the strategy that has shown the greatest decrease in mortality and is the cornerstone of protective ventilation. However, the respiratory rate, a fundamental parameter in the programming of the mechanical ventilator, has not been evaluated in most of the main clinical studies to date. Moreover, the natural clinical response to the use of a low tidal volume strategy is the increase in respiratory rate, which may harm the lung as it increases the energy applied to the lung parenchyma. The investigators hypothesize that the use of a lower respiratory rate, tolerating moderate hypercapnia, is associated with less VILI, measured by the release of proinflammatory mediators at the systemic level (biotrauma), compared to a conventional higher respiratory rate strategy in patients with moderate to severe ARDS. This effect is mediated by lower energy applied to the pulmonary parenchyma. To confirm this hypothesis the investigators propose a prospective cross-over clinical trial in 30 adult patients with ARDS in its acute phase, which will be randomized to two sequences of ventilation. Each period will last 12 hours, and respiratory rate (RR) will be set according to PaCO2 goal: 1) Low RR, PaCO2 60-70 mmHg; and 2) High RR, PaCO2 35-40 mmHg. Protective ventilation will be applied according to ICU standards under continuous sedation and neuromuscular blockade. Invasive systemic arterial pressure and extravascular lung water will be monitored through an arterial catheter (PICCO® system), and airway and esophageal pressures and hemodynamics continuously measured throughout the protocol. The main outcome will be Interleukin-6 in plasma. At baseline and at the end of each period blood samples will be taken for analysis, and electrical impedance tomography (EIT) and transthoracic echocardiography will be registered. After the protocol, patients will continue their management according to ICU standards.

This study is to evaluate the feasibility and safety of treatment with related donor Human Leukocyte Antigen (HLA) matched or haploidentical allogeneic T regulatory cells in patients with COVID 19 induced ARDS. Study treatment will be administered in 1 to 2 doses, with the possibility of a second infusion given 14 days after the initial infusion.

Seriously ill patients may develop a complication called acute lung injury (ALI), a form of inflammation in which lung tissue is filled by fluid containing white blood cells called neutrophils. ALI is common and is often fatal (for example in the USA it is estimated that 190,000 patients develop ALI per annum, of whom 75,000 die). No pharmacological treatment has been shown to improve ALI. Data from animal models and patients strongly suggest that neutrophils are central to disease progression. However no bedside methods exist to rapidly and accurately determine in seriously ill patients, if neutrophils are present and if they are releasing damaging enzymes such as elastase. As such, the investigating team have developed and synthesised to clinical grade, an imaging agent called NAP (Neutrophil Activation Probe) that detects activated neutrophils and also the damaging enzyme, human neutrophil elastase (HNE). The investigators have extensively tested NAP in animal models for efficacy and safety. It reliably detects activated neutrophils and is not toxic. NAP is a small molecule that is delivered in tiny doses (called microdoses) to areas of inflammation in human lungs through a bronchoscope. The activity of NAP is visualised by imaging though a tiny camera that is also introduced through the bronchoscope. This camera system is now widely used throughout the world in over 150 sites. The investigators therefore aim to test the utility and safety of NAP in an exploratory clinical study. The study involves the delivery of NAP to 6 healthy volunteers followed by delivering NAP to 3 patients in ICU with pulmonary infiltrates and 6 patients known to have bronchiectasis. In the healthy volunteers study, healthy male volunteers recruited from the University of Edinburgh will be invited to participate. In the ICU study, patients will be recruited from the ICU in the Royal Infirmary of Edinburgh. In the bronchiectasis study, patients will be recruited from the respiratory service in NHS Lothian. If the study (which is supported by the Medical Research Council) demonstrates safety and also the ability to image activated neutrophils, the investigators intention is to design future studies in patients with ALI.

The purpose of this study is to determine whether inhaled iloprost is safe and effective in pediatric patients with pulmonary hypertension who are sick in the intensive care unit.

This study assesses the clinical effectiveness of mammalian target of rapamycin (mTOR) inhibition with rapamycin in minimizing or decreasing the severity of acute lung injury/acute respiratory distress syndrome (ALI/ARDS) in participants infected with mild to moderate COVID-19 virus.

Evaluate the safety, tolerability, efficacy and pharmacodynamics&pharmacokinetic properties of CT303 in patients with ARDS.