Active clinical trials for "Respiratory Distress Syndrome"

Heliox can lower respiratory resistance, improve the oxygenation, reduce respiratory distress and lung injury caused by mechanical ventilation.

Background Ventilator induced lung injury (VILI) remains a problem in neonatology. High frequency oscillatory ventilation (HFOV) provides effective gas exchange with minimal pressure fluctuation around a continuous distending pressure and therefore small tidal volume. Animal studies showed that recruitment and maintenance of functional residual capacity (FRC) during HFOV ("open lung concept") could reduce lung injury. "Open lung HFOV" is achieved by delivering a moderate high mean airway pressure (MAP) using oxygenation as a guide of lung recruitment. Some neonatologists suggest combining HFOV with recurrent sigh-breaths (HFOV-sigh) delivered as modified conventional ventilator-breaths at a rate of 3/min. The clinical observation is that HFOV-sigh leads to more stable oxygenation, quicker weaning and shorter ventilation. This may be related to improved lung recruitment. Electric Impedance Tomography (EIT) enables measurement and mapping of regional ventilation distribution and end-expiratory lung volume (EELV). EIT generates cross-sectional images of the subject based on measurement of surface electrical potentials resulting from an excitation with small electrical currents and has been shown to be a valid and safe tool in neonates. Purpose, aims: To compare HFOV-sigh with HFOV-only and determine if there is a difference in global and regional EELV (primary endpoints) and spatial distribution of ventilation measured by EIT To provide information on feasibility and treatment effect of HFOV-sigh to assist planning larger studies. We hypothesize that EELV during HFOV-sigh is higher, and that regional ventilation distribution is more homogenous. Methods: Infants at 24-36 weeks corrected gestational age already on HFOV are eligible. Patients will be randomly assigned to HFOV-sigh (3 breaths/min) followed by HFOV-only or vice versa for 4 alternating 1-hours periods (2-treatment, double crossover design, each patient being its own control). During HFOV-sigh set-pressure will be reduced to keep MAP constant, otherwise HFOV will remain at pretrial settings. 16 ECG-electrodes for EIT recording will be placed around the chest at study start. Each recording will last 180s, and will be done at baseline and at 30 and 50 minutes after each change in ventilator modus. Feasibility No information of EIT-measured EELV in babies on HFOV-sigh exists. This study is a pilot-trial. In a similar study-protocol of lung recruitment during HFOV-sigh using "a/A-ratio" as outcome, 16 patients was estimated to be sufficient to show an improvement by 25%. This assumption was based on clinical experience in a unit using HFOV-sigh routinely. As the present study examines the same intervention we assume that N=16 patients will be a sufficient sample size. We estimate to include this number in 6 months.

Neurally-Adjusted Ventilatory Assist (NAVA) is a ventilatory mode that uses the electrical activity of the diaphragm to control the mechanical ventilator, offering inspiratory assistance in proportion to respiratory effort to patients who need artificial ventilatory support. It has been shown to improve the interaction between the patient and the mechanical ventilator in several clinical situations, but no previous studies have tried to use it for patients with a severe type of respiratory insufficiency, called Acute Respiratory Distress Syndrome (ARDS). Patients with ARDS benefit from a mechanical ventilatory strategy that includes low inspiratory volumes (tidal volumes) and limited airway pressures, but the application of such strategy frequently requires high levels of sedation. The investigators' hypothesis is that NAVA can be used for patients with ARDS, and that it will not be associated with excessive tidal volumes or elevated airway pressures.

In order to identify the effect of noninvasive positive pressure ventilation (NPPV) on decreasing inflammatory response, improving the pathophysiological manifestation and reducing the morbidity and mortality in the moderate acute respiratory distress syndrome (ARDS) patients, the investigators conduct this clinical trial comparing NPPV with invasive mechanical ventilation in more than twenty ICUs in China.

The investigators aimed to compare the efficacy of nasal intermittent mandatory ventilation (IMV) and nasal continuous positive airway pressure (CPAP) in early rescue surfactant treatment in preterm infants.

The purpose of this study is to evaluate the effect of lung recruitment maneuver in patients with early ALI/ARDS

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.

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.

The purpose of this study is to evaluate the hypothesis that nasal intermittent positive pressure(NIPP), used as a primary mode of ventilation in preterm infants with RDS, will decrease the need for conventional endotracheal ventilation when compared to nasal continuous positive airway pressure.(NCPAP)

To evaluate the feasibility, safety and tolerability of aerosolized lucinactant delivered by nasal continuous positive airway pressure (nCPAP) for the prevention of respiratory distress syndrome (RDS) in premature infants.