View clinical trials related to Acute Lung Injury.
Filter by:The purpose of this study is to examine changes in ventilation and airway pressures during conventional bronchoscopy of intubated patients.
Recruitment manoeuvres, consisting of sustained inflations at high airway pressures, have been advocated as an adjunct to mechanical ventilation in lung protective ventilation strategies to prevent the collapse of the lung. This study aims to determine the safety and efficacy of a recruitment manoeuvre, by considering its impact on gas exchange, hemodynamics and on the release of systemic inflammatory mediators.
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) and the more severe Acute Respiratory Distress Syndrome (ARDS) are a significant problem in Pediatric Intensive Care Units, affecting up to 16 of every 1000 children admitted to these units. These disorders carry with them high mortality rates as well as numerous long-term effects for the surviving children. As the effects of these diseases have significant social and economic ramifications for affected children and their families, research on the development of ALI/ARDS could significantly change how physicians understand the disease and treat patients. There are a wide range of problems which make certain PICU patients more likely to develop either ALI or ARDS. This research aims to determine which of these children are at the greatest risk for ALI/ARDS by examining differences in plasma biomarkers and in DNA of a large number of PICU patients. We are hypothesizing that significant differences in the level of specific plasma biomarkers or in the frequency of specific DNA variants exist in children who develop ALI/ARDS.
Acute lung injury (ALI) and the acute respiratory distress syndrome (ARDS) represent a spectrum of clinical syndromes of rapid respiratory system deterioration that are associated with both pulmonary and systemic illness. These syndromes are associated with 30-40% mortality with our current standard of care and are responsible for approximately 75,000 deaths in the US yearly. Current evidence-based care of ALI consists of a strategy of mechanical ventilation utilizing low lung volumes (ARDSNet ventilation) intended to limit further stretch-induced lung injury exacerbated by the ventilator. However, this strategy has been shown to be associated with increased lung injury in a subset of patients and still is associated with about a 30% mortality rate. Airway pressure release ventilation (APRV) is a different, non-experimental strategy of mechanical ventilation currently in routine clinical use. APRV is a pressure-cycled ventilator mode that allows a patient a greater degree of autonomy in controlling his or her breathing pattern than ARDSNet ventilation. Use of APRV has been associated with better oxygenation, less sedative usage, and less ventilator-associated pneumonia in small studies compared with other ventilator modes. However, debate exists over whether APRV might result in decreased or increased ventilator-associated lung injury when compared with ARDSNet ventilation. We intend to implement a randomized, cross over study looking at biomarkers of lung injury in patients with acute lung injury during ventilation with APRV and using the ARDSNet protocol. Our hypothesis is that airway pressure release ventilation is associated with lower levels of lung injury biomarkers than ARDSNet ventilation.
This research is being done to determine if there is a way the investigators can improve the techniques that they use to assist patients with their breathing during surgery. The majority of surgeries require patients to concurrently undergo general anesthesia. This usually includes a breathing tube and a machine that breathes for the patient during the duration of the surgery. The doctors would like to investigate the effects of this type of anesthesia to healthy adult patients and whether they can improve the way they give general anesthesia to patients. The investigators plan to ask approximately 200 patients to participate. If the patients decide to participate in the study,some additions will be made to the standard anesthetic care they receive. The patients will additionally be monitored for adequate oxygenation in their blood as well as level of inflammation in their blood and lungs. The patients' breathing tube will be bathed with warm normal saline and suctioned twice during the operation. When these procedures are done the patients will be asleep and not be aware of what is happening.
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.
Peri-operative fluid therapy is a controversial area with few randomized trials to guide practice. Fluid management has a significant influence on outcome following surgery. Yet practically, fluid prescription practice during this period is sub-optimal, resulting in avoidable iatrogenic complications. Several studies have assessed the effect of a 'liberal' vs. a 'restrictive' perioperative fluid regimen on post-operative outcome. However, most of these studies have focused primarily on intra-operative fluid management, whereas postoperative strategies have been less well defined, even though the immediate postoperative period is of critical importance to the patient's recovery. Moreover, whereas intra-operative fluid administration is monitored by the anesthesiologist, postoperatively it is less supervised and may result in excess or lack of intravenous (IV) fluids. Therefore, fluid management audit at the post-anesthesia care unit (PACU) is of paramount importance for patient healthcare. The objective of this study is to follow and report the current practice of fluid administration in the PACU of Tel Aviv Sourasky Medical Center, for an extended period of time as a first step towards establishing evidence-based guidelines for postoperative fluid management.
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.