View clinical trials related to Acute Lung Injury.
Filter by:Prospective randomized controlled trial to be conducted in the Respiratory Intensive Care Unit (RICU) of Post Graduate Institute of Medical Education And Research (PGIMER),Chandigarh. The study is approved by the Institute Ethics committee. In view of lack of previous outcome data in such patients, all patients requiring RICU admission for acute respiratory distress syndrome(ARDS) between January 2010 and June 2011 are being enrolled in this pilot study. The patients meeting the aforementioned criteria will randomly assigned to ventilation with assist control mode ventilation (ACMV group) as per the ARDSnet strategy or adaptive support ventilation (ASV group). Being the first RCT of its type, patients will be first stabilized on ACMV for 1 hour to determine the adequate minute ventilation. The randomization sequence will be computer generated. The assignments will placed in sealed opaque envelopes and each patient's assignment was made on admission to the RICU by the attending physician. Blinding of treatment is not possible. All patients will be ventilated only by Galileo Gold ventilators (Hamilton medical systems, Bonaduz, Switzerland). Patients randomized to the ACMV group will be ventilated according to low tidal volume strategy of 6ml/kg with Fio2/PEEP as per ARDSnet table to achieve a saturation between 88-95% with the lowest possible Fio2 to maintain plateau pressures < 30 cms H2o and PH > 7.3 with option to reduce tidal volume to 4 ml/kg and increase respiratory rate to 35/ min to achieve the above said goals11.These patients will be weaned as per standard protocol of spontaneous breathing trial of 30 minutes once they are recognized eligible as per statement of the sixth International consensus conference on weaning.
The investigators propose to perform a one-year prospective audit of all Acute lung injury (ALI)and cute respiratory distress syndrome (ARDS) pediatric patients managed in several ICUs in Spain. The investigators intend to collect data from all children (from 1 month to 18 years of age) admitted with or developing ALI/ARDS with the aim to understand the epidemiology and natural history of acute lung injury in the pediatric setting. These ICUs are scattered through the Spain and are representative of the demographic differences across the country.
The purpose of this study is the measurement of regional opening and closing pressures of lung tissue by electrical impedance tomography in lung healthy and patients with acute lung injury. These values might help the setting of positive endexpiratory pressure during artificial ventilation to avoid the cyclic opening and closing of alveoli.
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 objective of this study is to compare the effects of two intraoperative fluid regimens - restrictive versus liberal (standard)- on postoperative outcomes (e.g. cardiopulmonary complications, morbidity, mortality and duration of hospitalization) in lung resections via Video-assisted thoracic surgery (VATS).
In this study the investigators aim to compare two common methods to estimate the lung recruitment in ALI/ARDS patients.
The purpose of this study is to compare airway pressure release ventilation (APRV) to conventional mechanical ventilation (MV) in patients with acute lung injury (ALI) to determine if APRV can reduce agitation, delirium, and requirements for sedative medications. We will also compare markers of inflammation in the blood and lung to determine if APRV reduces ventilator-induced lung injury (VILI), compared to conventional mechanical ventilation. The proposed study is a randomized, crossover trial. We plan to enroll 40 patients with ALI and randomize to APRV or conventional MV for 24 hours. After this time the patients will be switched to the alternative mode of ventilation (MV or APRV) for another 24 hours. To assess breathing comfort, at the end of each 24-hour period we will measure the amounts of sedative and analgesic medications used. We will also measure the concentrations of markers of inflammation in the blood and lung as measures of VILI. Finally, throughout the study we will compare the adequacy of gas exchange with APRV compared to conventional MV.
The hypothesis is that brain injury patients have alterations of the respiratory system related to intraabdominal pressure. Furthermore application of moderate levels of PEEP may improve respiratory function in these patients.
30% of ARDS patients ventilated according to NIH protocol presents CT scan evidence of hyperinflation. Functional analysis of pressure-time curve (Stress Index=SI) has been shown to identify this condition in experimental settings. We tested the hypothesis that the SI is an accurate predictor of mechanical stress due to overdistention in ARDS patients.
Given the possible prognostic relationship between exhaled breath condensate pH and clinical symptoms, it is quite plausible that exhaled breath condensate pH can prove useful in the intensive care unit. For example, if exhaled breath condensate pH falls prior to the onset of clinical symptoms, it is likely that it can be useful as an early marker, heralding the onset of various inflammatory lung diseases. Specifically, exhaled breath condensate pH could be used as a safe, non-invasive screening tool for Ventilator Associated Pneumonia. Similarly, just as changes in exhaled breath condensate pH might predict the onset of disease, exhaled breath condensate pH changes might also mark the progression or resolution of disease (e.g. alerting clinicians to possible readiness for extubation). Although such notions are hypothetical, they are beginning to be supported by anecdotal evidence.