Active clinical trials for "Respiratory Distress Syndrome"

To evaluate allogeneic human mesenchymal stem cell exosomes (hMSC-Exos) in the treatment of acute respiratory distress syndrome (ARDS)

Acute respiratory distress syndrome remains a serious condition, with a mortality rate of between 30 and 50%. The use of mechanical ventilation with small tidal volumes, and by limiting the plateau pressure in the respiratory tract below 30 cm H2O has been shown to reduce mortality by approximately 10%, probably by reducing pulmonary hyperinflation and pulmonary lesions induced by mechanical ventilation. It is therefore now established that the respirator settings influence patient prognosis. However, around 30% of patients with ARDS ventilated with these settings supposedly protective continue to present signs of pulmonary hyperinflation on tomodensitometry, suggesting an additional reduction in the tidal volume could be required in certain patients. Electrical impedance tomography (EIT) is a new imaging technique that gathers functional pulmonary information at bedside. This technique also allows a regional analysis, allowing the complexity of the spatial distribution of ARDS pulmonary lesions to be understood. The hypothesis is that EIT is a reliable method to detect at-risk situations of lesions induced by mechanical ventilation among patients with ARDS.

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.

APRV mode of ventilation will result in an improved partial pressure of arterial oxygenation/ fraction of inspired oxygen (P/F ratio) on day 3 of mechanical ventilation. Sub hypotheses: APRV will be associated with a reduced amount of sedation used during the ICU stay in patients with respiratory failure. APRV will be associated with a reduction in the amount of vasoactive medication used for blood pressure support in patients with respiratory failure.

Acute respiratory distress syndrome (ARDS) is characterized by acute bilateral pulmonary infiltrates and impairment of oxygen uptake. For example, pneumonia can cause the development of ARDS. Despite modern intensive care treatment, mortality in ARDS patients remains high (40%). Invasive mechanical ventilation (MV) is the mainstay of ARDS treatment. Controlled MV is the conventional ventilation strategy to ensure lung protective ventilation (low tidal volumes) and recovery of the lungs. However, among disadvantages of controlled MV are the development of respiratory muscle atrophy (due to disuse) and the need for high dose sedatives to prevent patient-ventilator asynchrony. The use of high doses of sedatives and respiratory muscle weakness are associated with increased morbidity, worse clinical outcomes and prolonged MV. Besides controlled MV, a patient can be ventilated with supported ventilation. Supported MV decreases the likelihood to develop muscle atrophy, improves oxygenation and hemodynamics, and lowers consumption of sedatives. However potential disadvantages of supported ventilation include generation of too high tidal volumes, especially in patients with high respiratory drive. A previous study in healthy subjects has shown that titration of neuromuscular blocking agent (NMBA) can decrease activity of inspiratory muscles, while maintaining adequate ventilation. It is hypothesized that low dose NMBA may enable supported MV with adequate tidal volumes, in patients with high respiratory drive.

The main objective of this study is to show that "diaphragmatic excursion measures upon emergency admission" (CDA values) on patients with acute respiratory failure are predictive of the need to use mechanical ventilation (invasive or non-) in the first four hours.

The purpose of this study is to investigate the change of extravascular lung water (EVLW), cytokine and oxygenation parameters in patients with acute lung injury (ALI) or acute respiratory distress syndrome (ARDS) after alveolar recruitment maneuver.

A new artificial lung device has been developed that potentially provides added support to mechanical ventilation for severely damaged lungs. The Hattler Respiratory Assist Catheter is designed to provide gas exchange (deliver oxygen and remove carbon dioxide) for a period of up to 7 days, providing more time for the lungs to improve. Extrapolating from large animal data, the hypothesis is that the Hattler Catheter will be capable of providing 30% to 40% of the basal requirements of carbon dioxide exchange in a manner that is dependable and reproducible.

The purpose of this protocol is to perform serial physiological measurements and blood testing on mechanically ventilated patients comparing conditions of eucapnia and hypercapnia in the same patient. We will be testing two hypotheses: (1) while administering inspired carbon dioxide (CO2), eucapnia achieved by high respiratory rate (EHR) significantly decreases pulmonary artery pressures compared to hypercapnia with a lower respiratory rate (HLR), and (2) that EHR decreases myocardial strain compared to HLR.

Given the popularity that LISA technique has gainig in worldwide neonatal units, the lack of evidence regarding its premedication is becoming even more relevant to provide the best care to premature infants. Objective of this clinical trial is to establish the best premedication for LISA procedure considering neonatal pain assessed with premature infants pain scale, salivary cortisol levels as an indicator of stress and crSO2 values as indicators of cerebral oxygenation. Moreover, we aim to verify if sucrose 24% given orally is an effective tool for pain management in preterm neonates also in more invasive procedure, comparable to pharmacological treatment.