Active clinical trials for "Lung Injury"

Propylene glycol/Glycerol intake is increasingly popular. The propylene glycol/glycerol intake effects on cardiorespiratory function are unknown.

Evaluation of a new ventilatory mode Neurally Adjusted Ventilatory Assist "NAVA" in patients who recover spontaneous breathing after acute lung injury.

Acute lung injury (ALI) is an early complication after allogeneic transplantation causing significant mortality and morbidity. Little is known on early markers and treatment of this complication. Recent data (Hilbert et al.) suggested a beneficial effect of Non-Invasive-Ventilation in ALI-patients immunosuppressed because a many different reasons including stem-cell transplantation. The investigators study is designed to evaluate early markers of ALI after allogeneic transplantation. In case ALI is documented patients are randomized to either conventional therapy (oxygen-support) or conventional therapy plus intermittent Non-Invasive Ventilation. The hypothesis is that Non-Invasive Ventilation improves outcome of ALI after allogeneic transplantation.

The goal of this study is to investigate the effect of depth of neuromuscular block (NMB) on global and regional (dependent versus nondependent) respiratory mechanics during laparoscopic surgery. Furthermore, we will investigate if the level of NMB influences intraoperative hemodynamic and cerebral oxygenation.

This study is a single dose evaluation using an open label dose escalating design. Cohort1 will consist of 3 healthy male volunteers. Each volunteer will receive a slow IV infusion over 6 hours consisting of saline for 30 minutes (run in period), 8 mcg/h GW328267X for 1.5 hours (total dose of 12mcg) and 10 mcg/h GW328267X for 4 hours (total dose of 40 mcg). Subjects will have continuous cardiac monitoring throughout the dosing period and up to 2 hours after cessation of the intravenous infusion. PK measurements and measurement of erythropoietin and platelet activation will also be done. Samples for PK will be taken at 30 minute intervals during the infusion of GW328267X up to and including 1 hour after cessation of the intravenous infusion. Samples for erythropoietin and platelet aggregation will be done. Cohort 2 is optional and may be carried out in the event that the dose of GW328267X given in Cohort 1 is both well tolerated and subjects do not meet the stopping criteria. The decision to proceed to Cohort 2 and the dose level will be made by the GSK Study Team and the Investigator based on safety, tolerability and preliminary PK/PD data obtained in Cohort 1. It is planned that the maximum total dose given to any subject will not exceed 150mcg. Cohort 2 will consist of 3 healthy male volunteers and the study procedures for this additional Cohort will be the same as that described for Cohort 1.

The main purpose of this study is to investigate effects of SIMV+VG (synchronized intermittent mandatory ventilation+volume guarantee) or PSV+VG (pressure support ventilation+volume guarantee) ventilation on vital signs, patient - mechanical ventilation synchrony, ventilation parameters and inflammatory mediators in neonates.

Electrical impedance tomography (EIT) monitoring has been researched as a method to determine the spatial impedance distribution in a body cross section, but has yet to become an established clinical tool. EIT monitoring gives a dynamic, breath-to-breath measurement of both global and regional ventilation. Recently, there has been evidence that EIT monitoring has great potential to become a non-invasive bedside tool for assessment of regional lung ventilation without documented hazards. Potential applications include any adult patients in acute respiratory failure. Data collected from this research may contribute to improved patient safety outcomes. PURPOSE: The purpose of this pilot study is to examine the feasibility of using the EIT monitor in intensive care unit (ICU) setting on patients with acute respiratory failure and to compare the EIT monitor data to standard of care patient assessments. It is hypothesized that the EIT monitor, when applied to adults in acute respiratory failure, will correlate with conventional standard of care assessments for these patients.

The present study is an explorative analysis of the relationship between cerebral blood perfusion and oxygenation and lung mechanical variables at different ventilator settings. It is a safety study excluding patients with severe lung injury or brain edema.

Study conducted to confirm phrenic nerve stimulation using the a transvenous Phrenic Nerve Stimulator in the left jugular vein.

Study conducted to confirm phrenic nerve stimulation using the Lungpacer LIVE Catheter, confirm capture of the diaphragm and confirm that the diaphragm can be paced in synchrony with mechanical ventilator breaths.