Active clinical trials for "Acute Lung Injury"

The FEDOX trial is a prospective randomized clinical trial exploring oxidative stress as a mechanism of harm to explain the negative outcomes found in feeding trials that achieved caloric exposure commensurate with the nationally recommended guidelines. Due to its impact on energy metabolism, we will also explore low T3 syndrome's relationship to this mechanism. Finally, we will explore circadian patterns of diurnal/nocturnal TSH fluctuation as a potential biomarker to indicate this mechanism of harm has subsided. This 7-day prospective randomized clinical trial is designed to address the following specific aims (SA) in ICU patients (n=40) with systemic inflammatory response syndrome. SA1) Determine whether provision of enteral nutrition (EN) at 100% of levels in Nationally Recommended Guidelines NRG (25-30 kcals/kg, 100%NRG) early in critical illness increases reactive oxygen species (ROS) production compared to EN at 40% of NRG levels (10-12 kcals/kg, 40%NRG). Subjects will be fasted overnight and randomized to receive either 100% NRG or 40%NRG for 7 days. Plasma F2-isoprostanes will be measured daily and compared between groups through repeated measures analysis. SA2) Determine if EN at 100%NRG interrupts the critical illness induced low T3 syndrome and subsequently further increases the ROS production compared to 40%NRG. Serum thyroid parameters (T3, T4, rT3, TSH) with be measured daily and compared between groups as above. Mediation analysis will be used to determine the proportion of the effect of nutrition group on F2-isoprostane production explained by each thyroid parameter. SA3) Determine if the return of diurnal/noctural fluctuations in TSH is associated with decreased nutrition-induced ROS production. Plasma TSH will be measured twice per day at 0300 and 1800hrs to determine TSH fluctuation. The interaction effect between TSH fluctuation and nutrition group on F2-isoprostane production will be assessed through repeated measures analysis. This study provides vital mechanistic insight into the impact of feeding on oxidative stress during the first week of critical illness, represents an important first step in determining the safest timing and dosage of nutrition support, and sets the foundation for future larger clinical trials on these topics.

To assess the safety and efficacy of noninvasive positive pressure ventilation for patients with intro-pulmonary pulmonary acute lung injury and compare this with high-concentration oxygen therapy.

The purpose of this study is to compare the effect of interventional Lung Assist iLA activve to standard therapy in mechanically ventilated patients with severe acute lung impairment. Hypothesis: iLA(active) reduces the incidence of an increase in SOFA-Score of ≥3 points (or death) within 28 days compared to standard treatment.

Acute lung injury (ALI) is the vital complication of Stanford type A aortic dissection. It is confirmed that Xenon has the significant protective effect on important organs and has no suppression on the cardiovascular system. Furthermore, our earlier trial has already clarified that static inflation with 50% Xenon during cardiopulmonary bypass could attenuate ALI for Standford A acute aortic dissection. However the protection effect was restricted for the limited time. Aimed to enhance the protection effect of Xenon, we designed this randomized trial that anesthesia with 50% xenon one hour before and after CPB and pulmonary static Inflation with 50%,75% and 100% Xenon during CPB respectively.

Acute respiratory distress syndrome (ARDS) is a devastating inflammatory and destructive disease in critical ill patients. Preclinical studies have shown a promising perspective of mesenchymal stem cells (MSCs) therapies in ARDS. But the safety and efficacy of umbilical cord MSCs (UCMSCs) have not yet been convinced in clinical trails. This study will explore the safety and life-rescue potential of UCMSCs in refracotry ARDS.

The (World Health Organization) WHO NOR- (Coronavirus infectious disease) COVID 19 study is a multi-centre, adaptive, randomized, open clinical trial to evaluate the safety and efficacy of hydroxychloroquine, remdesivir and standard of care in hospitalized adult patients diagnosed with COVID-19. This trial will follow the core WHO protocol but has additional efficacy, safety and explorative endpoints.

Investigation of effect of inhalation sedation by administration of Sevoflurane compared with Propofol on the moderate acute respiratory distress syndrome course in mechanically ventilated patients with sepsis.

Acute myocardial injury has been a finding of variable frequency among patients diagnosed with COVID-19. It is now recognized that cTnI levels are strongly associated with increased mortality. The mechanisms underlying the myocardial injury remain unknown, and it is not clear whether they reflect local/systemic inflammatory process and/or cellular ischemia. Both myocardial ischemia and ventricular dysfunction result in dramatic changes in mitochondrial oxidative metabolism. These changes involve an increase in the rate of cytoplasmic anaerobic glycolysis to compensate for the decrease in mitochondrial adenosine triphosphate (ATP) production. The rest of the mitochondrial oxidative metabolism originates mainly from the β-oxidation of free fatty acids, which occurs at the expense of glucose oxidation. Trimetazidine is a competitive inhibitor of the enzyme 3-ketoacyl coenzyme A (CoA) long-chain thiolase (3-KAT), the last enzyme involved in the oxidation of fatty acids. Stimulation of glucose oxidation by trimetazidine results in a better coupling between glycolysis and glucose oxidation, with a consequent decrease in lactate production and intracellular acidosis, present in situations of myocardial ischemia or heart failure. Thus, the PREMIER-COVID-19 study was designed to test the hypothesis that the use of trimetazidine associated with usual therapy in patients admitted with a diagnosis of moderate to severe acute respiratory syndrome by SARS-CoV2 infection reduces the extent of acute myocardial injury assessed by the peak release of ultra-sensitive troponin compared to usual therapy.

Multi-centered, randomized, open label clinical trial to study the safety and effectivity of hydroxychloroquine + azithromycin to treat COVID-19 symptoms in primary care patients.

This is a Phase 2 multicenter randomized (2:1), placebo-controlled trial to evaluate early signs of efficacy of allogeneic, umbilical cord-derived (UC) mesenchymal stromal cells (MSCs) in patients with COVID-19 and Acute Respiratory Distress Syndrome (ARDS). Randomized participants (N=54) will receive 3 daily doses of up to 90-million cells/unit dose (cumulative dose of up to 270 million UC-MSCs) or blinded placebo. The MSC product will be provided as 2.5 million cells/ml suspended in PlasmaLyte A containing 5% Human Albumin. The appearance-matched placebo product contains the same excipients, PlasmaLyte A and 5% Human Albumin, as the UC-MSCs.