Evaluation of Variable Pressure Support Ventilation in the Therapy of Acute Lung Injury
Acute Lung InjuryVariable pressure support during assisted spontaneous breathing (noisy PSV) has been shown to improve the respiratory function in experimental acute lung injury (ALI). We aimed at comparing the effects of noisy PSV with traditional PSV on the respiratory function of patients suffering from ALI.
Prevention of Lung Edema After Thoracic Surgery
Lung InjuryAcute5 moreBackground : Acute lung injury (ALI) occasionally occurs after pulmonary resection and carries a bad prognosis with a high mortality rate ranging from 20 to 100%. Objectives : to evaluate pre-, intra- and postoperative changes in hemodynamics, oxygenation indices as well as intra- and extravascular lung water using simple thermodilution technique and continuous arterial pressure analysis to test the efficacy of inhaled beta2 -adrenergic agonist versus anticholinergic agents to reduce lung edema in patients undergoing thoracic surgery and in pigs subjected to lipolysacharide-induced ALI. Design of the research protocol: Prospective controlled trial including surgical patients with high risk factors for ALI (n=60) allocated to receive inhaled drugs (randomised, double-blind, cross-over mode). Main measurements: Intra-thoracic blood volume, intra- and extra-vascular lung water, hemodynamic parameters (CO, systolic arterial pressure/flow variations, dPmax, MAP, CVP), oxygenation indices (PaO2/FIO2), ventilatory parameters, clinical outcome data, histochemical and pathological data. Glossary CO = cardiac output; dPmax = maximal arterial pressure slope; SAP-V = systolic arterial pressure variations; Flow-V = Flow variations; MAP = mean arterial pressure; CVP = central venous pressure; PaO2=arterial oxygen pressure; FIO2= oxygen inspiratory fraction
Clinical Effect of the Association of Noninvasive Ventilation and High Flow Nasal Oxygen Therapy...
Acute Lung InjuryAcute Respiratory FailureThe aim of the study is to compare, in patients with acute respiratory failure/acute lung injury the efficacy of three different methods of oxygenation to prevent endotracheal intubation : conventional oxygen therapy (O2 conventional) high flow nasal oxygen therapy (O2-HFN) association of high flow nasal oxygen therapy with non invasive positive pressure ventilation (O2-HFN/NPPV).
Comparison of 2 Strategies of Adjustment of Mechanical Ventilation in Patients With Acute Respiratory...
Acute Respiratory Distress SyndromeAcute Lung InjuryThe aim of this multicenter randomized controlled trial is to compare the impact on mortality of patients mechanically ventilated for acute lung injury or acute respiratory distress syndrome of two strategies for setting end-expiratory pressure.
A Study to Investigate the Effects of Imatinib on Pulmonary Vascular Dysfunction in a Human Model...
Acute Lung InjuryThe study is a randomized, double-blind, placebo-controlled clinical study of imatinib (as mesilate) in healthy subjects exposed inhaled lipopolysaccharide. During the study, eight oral doses of imatinib, or placebo, will each be taken 12 hours apart, before subjects are exposed to nebulized lipopolysaccharide (LPS). Four hours after LPS exposure, a bronchoalveolar lavage (BAL) will be undertaken, and BAL fluid (BALF collected. Once study assessments are completed, a follow-up visit will be conducted approximately 7 days after the last dose of imatinib. The primary objective of the study is to investigate the effect of imatinib on LPS-induced pulmonary vascular dysfunction. The primary endpoints of this study are: Change in the number of neutrophils in BALF 6 hours after the LPS challenge in subjects exposed to imatinib compared with placebo. Change in concentration of total protein in BALF 6 hours after the LPS challenge in subjects exposed to imatinib compared with placebo
Low Frequency, Ultra-low Tidal Volume Ventilation in Patients With ARDS and ECMO
ARDSAcute Lung Injury6 moreThe acute respiratory distress syndrome (ARDS) is the most severe form of respiratory failure, presented in 10% of all intensive care patients and carrying a high mortality rate. Extracorporeal membrane oxygenation (ECMO) is a rescue treatment for patients with severe ARDS. Mechanical ventilator settings in patients with severe ARDS during ECMO therapy are not clearly defined at the moment.
Effect on Bronchodilation Response and Ventilation Heterogeneity of Different Inhalation Volumes...
COPDLung InjuryDuring bronchodilator tests, it's common to ask patients with asthma or chronic obstructive pulmonary disease (COPD) to take bronchodilator therapy by inhaling after a maximal exhalation, when the respiratory system volume equals the residual volume. The same maneuver is required for the chronic therapy. Nevertheless, in patients with COPD the distribution of ventilation is more heterogeneous, especially when lung volumes are closer to residual volume . It is therefore predictable that the distribution of air volume containing bronchodilator that has been inhaled at residual volume is more heterogeneous than at higher volumes, such as at functional residual capacity. Accordingly, the bronchodilator can be preferentially distributed in more open airways than in less patent ones, with a heterogeneous distribution of the medication. Therefore, the overall bronchodilation should be greater when the drug inhalation is performed at functional residual capacity than at residual volume. It is common knowledge that the effectiveness of bronchodilator therapy with pMDI in subjects with COPD is greatly affected by the inhalation technique, which can be difficult to perform for many patients. Therefore, in addition to the possibility that inhalation of bronchilation therapy at residual volume could lower the drug effectiveness, this maneuver complicates the sequence of actions required to the patient, enhancing the risk of errors and decreasing the aderence to treatment. The aim of this study is to investigate whether the inhalation of a bronchodilator at different lung volumes can affect its effectiveness in terms of respiratory function, in patients with COPD. Assuming that the bronchodilator effectiveness is equal or greater when inhaled at functional residual capacity rather than at residual volume, the inhalation maneuver can be simplified for patients with COPD.
Efficacy of Hydrocortisone in Treatment of Severe Sepsis/Septic Shock Patients With Acute Lung Injury/Acute...
Septic ShockSevere Sepsis2 moreSevere sepsis/septic shock is a serious condition associated with high mortality rate. Hydrocortisone has been recommended as a useful treatment to decrease mortality in hemodynamically unstable septic shock patients, not response to fluid and moderate dose of vasopressor. During the progression of severe sepsis/septic shock, multi-organ dysfunction can develop. Acute lung injury (ALI) and its more severe form, acute respiratory syndrome (ARDS) is one of the common organ dysfunction associated with septic shock. Information from a meta-analysis suggested that moderate dose of hydrocortisone may improve the ARDS patients' outcome. Whether hydrocortisone can effectively prevent disease progression and death in severe sepsis/septic shock patients who complicated with ALI/ARDS has not been proven.
Effect of Neutrophil Elastase Inhibitor on Lung Injury After Esophagectomy
Esophageal CancerA neutrophil elastase inhibitor may have effect on suppression of the lung injury after thoransthoracic esophagectomy. The investigators hypothesized that postoperative complication, particularly respiratory complication may be reduced by neutrophil elastase inhibitor after esophagectomy.
Study of Enbrel (Etanercept) for the Treatment Sub-Acute Pulmonary Dysfunction After Allogeneic...
Lung InjuryAcute3 moreThe purpose of this study is to determine the effectiveness of etanercept in the treatment of patients with sub-acute lung injury following a bone marrow transplant. This study will also examine the toxicity of treatment with etanercept as well as whether there is an improved quality of life in these patients.