View clinical trials related to Acute Lung Injury.
Filter by:Acute lung injury in children is a syndrome of rapid onset of acute respiratory failure and require admission into intensive care units (ICU) for advanced life support. There are almost no information on epidemiology of acute lung injury. Published studies do not have information for an entire year and none of them have evaluated the degree of oxygenation failure under standard ventilator settings. The investigators will perform a 1-year prospective audit of all patients admitted with acute lung injury in a network of pediatric ICUs in Spain.
Randomized controlled pilot trial in 70 patients with Acute Respiratory Distress Syndrome (ARDS) ventilated with low tidal volumes and limitation on airway pressure at 35 centimeters of water (cmH2O), to compare two different methods of selecting the level of Positive End-Expiratory Pressure (PEEP) to be applied: according to fraction of inspired oxygen (FiO2) needed or individualized according to the best compliance. Primary objective was evolution of arterial oxygenation during the 28 days. Secondary objectives were to measure its effects on hemodynamic parameters, 28-day mortality, number of ventilator-free days at day 28, Intensive Care Unit (ICU) and hospital stay, number of multiple-organ dysfunction-free days and a multivariate analysis of 28 day-mortality.
The purpose of this study is to evaluate the effect of lung recruitment maneuver in patients with early ALI/ARDS
PISA is an ancillary study to the NIH funded clinical RESTORE Trial (U01 HL086622). This study will provide data that may allow for improved dosing recommendations in this critically ill population of children.
In 1967, Ashbaugh et al first described 12 patients with a syndrome characterized by the acute onset dyspnea, severe hypoxemia, diffuse lung infiltrates on the chest radiography and decreased lung compliance. Moreover, in 1988, Murray et al proposed a lung injury scoring system based on the level of positive end-expiratory pressure (PEEP), PaO2-to-FiO2 ratio, static lung compliance, degree of infiltrates on the chest radiograph, and clinical cause. A score of 2.5 or greater was considered to be consistent with a diagnosis of ARDS. The current definition of ARDS was proposed by Bernard et al and the American-European Consensus Conference in 1994. The criteria of ARDS included: 1) acute onset; 2) a PaO2/FIO2 ratio, or hypoxia score, of < 200, regardless of positive endexpiratory pressure; 3) bilateral infiltrates on chest radiograph; and 4) a pulmonary artery occlusion pressure of <18 mm Hg or the absence of clinical evidence of left atrial hypertension. However, despite advances in ventilator management, the mortality rate of acute lung injury and the acute respiratory distress syndrome remains very high (approximately 40 to 50 percent). In 2000, ARDS Network trial compared the effects of 6 versus 12 mL/kg of tidal volume per predicted body weight (PBW) among 861 patients and noted an overall 22% reduction in mortality rate, more ventilator-free days, and more organ-failure-free days in the low-tidal-volume group. Therefore, the current approach to mechanical ventilation of a patient with ARDS emphasizes the use of lower tidal volumes with lower pressures to avoid causing lung overdistension and ventilator associated lung injury. Nevertheless, one year after publication of the ARDSnet trial, Rubenfeld et al noted that lung-protective ventilation strategies were applied in less than 5% of patients with ARDS or ALI at a single ARDSnet center. Rubenfeld et al found that common barriers to the initiation of low tidal volume ventilation include unwillingness to relinquish control of the ventilator, failure to recognize patients as having ALI/ARDS, and perceived contraindications to low tidal volume ventilation. Significant barriers to the continuation of low tidal volume ventilation include concerns regarding patient discomfort and tachypnea or hypercapnia and acidosis. In addition, Kalhan et al also evaluated factors associated with the choice of tidal volume and he reported that underuse of LPV may be related to clinicians' under-recognition of less severe cases of ALI, and their reserving of low-tidal volume ventilation for more severe cases, or both. However, the factors such as comorbidity and pathophysiological change associated with underuse of lung protective ventilation strategy are not clear. The investigators perform a prospective single-center study to investigate the factors associated with the use of lung protective ventilation strategy (LPV) in ALI/ARDS patients in ICU.
The influenza A/H1N1v pandemic virus causes severe pneumonia that can lead to acute respiratory distress syndrome and death even in healthy young individuals. The respective roles of viral replication, bacterial infection and immune alterations of the host during such severe influenza H1N1v infection need to be clarified in order to optimize patients care. In this context, we aim to study immune and virological parameters in bronchoalveolar lavage fluid during severe influenza A/H1N1v infection with pulmonary involvement in intensive care unit. Results will be correlated to bacterial or viral pulmonary co-infections and to peripheral blood immune and virological parameters.
The purpose of this study is to examine changes in ventilation and airway pressures during conventional bronchoscopy of intubated patients.
The central purpose of this proposal is to study the short-term effects of sedation with sympatholysis, using α2 adrenergic agent Dexmedetomidine, on sleep and inflammation in critically ill patients with Acute Lung Injury and Acute Respiratory Disorder Syndrome (ALI/ARDS). An additional objective is to determine the effect of Dexmedetomidine sedation on the in-vitro production of sleep-modulating inflammatory cytokines by peripheral blood mononuclear cells of critically ill patients with ALI/ARDS.
Acute lung injury (ALI) is a common, life-threatening complication among pediatric leukemia and lymphoma and hematopoietic stem cell transplant (HSCT) recipients. Although these children represent a relatively small and unique patient population, they account for the largest proportion of deaths of all pediatric diseases. The long-term goal of this project is to improve outcomes among these patients. Recently, the intratracheal administration of calfactant has resulted in decreased mortality among children with ALI including promising results among children with cancer and following HSCT. Consequently, the primary specific aim of this study is to assess the effect of calfactant on intensive care (PICU) survival among pediatric leukemia and lymphoma and HSCT patients with ALI. Secondary aims include assessment of the effect of calfactant on oxygenation and on the length of mechanical ventilation, PICU stay, and hospital stay. Calfactant therapy has been found to be of benefit in acute lung injury in the overall pediatric population by improving oxygenation and decreasing mortality. These findings, in conjunction with recent subgroup analysis in which calfactant therapy appeared to improve outcomes in immunocompromised children provide the rationale for assessing calfactant therapy in this patient population. Funding Source - FDA Office of Orphan Products Development (OOPD)
This is an early phase (Phase IIa), randomized, double-blind, parallel group, multi-centre study for subjects with trauma (physical injury) who are at risk for developing Acute Lung Injury (ALI) or Acute Respiratory Distress Syndrome (ARDS). The primary purpose of the study is to evaluate the safety and tolerability of SB-681323, which is a potent, selective inhibitor of p38 alpha (MAPK) (prevents inflammation of tissue), in comparison to a placebo.