View clinical trials related to Acute Lung Injury.
Filter by:The goal of this study is to evaluate the sensitivity and specificity of Electrical Impedance Tomography (EIT) as a bedside diagnostic tool for lung pathologies in patients who are mechanically ventilated. In electrical impedance tomography low amplitude, low frequency current is applied on electrodes, and the resulting voltage is measured and used to computed the electrical properties of the interior of the chest as they change in time. The computed properties are used to form an image, which can then be used for monitoring and diagnosis.
Lung injury in patients undergoing oesophagectomy may occur during surgery (peri-operatively) as a result of One Lung Ventilation (OLV) and/or during the immediate post-operative period when patients receive intensive care. This is reinforced by the observation that physiological markers of lung injury are most elevated immediately after completion of surgery, and the development of clinical Acute Respiratory Distress Syndrome (ARDS)occurs immediately post-operatively (within 72 hours of surgery), with the majority of cases reported 24-48 hours after completion of surgery. This study is designed to investigate the impact of pre-operative administration of GSK2862277 on biological and physiological markers of lung injury in patients undergoing surgical resection of oesophageal cancer in order to achieve optimal exposure at the site of injury following OLV and lung deflation. This study is a randomized placebo controlled, double-blind, multi-centre, single dose parallel group, design. There will be two treatment groups comprising one active and one placebo arm with approximately 40 patients per group. Patients enrolled in the study will be scheduled to undergo planned/elective trans-thoracic surgery for oesophagectomy. The primary endpoint for this study is the change in pulmonary vascular permeability index (PVPI) from pre-surgical levels to the end of surgery. GSK2862277 will be administered as an orally inhaled aerosol (single nebulized dose) over approximately 3 to 5 minutes (min) 1-3 hours prior to surgery. Subject will be monitored daily until discharge and followed up till day 28.
This is a multi-center, open-label, non-randomized controlled trial. Patients with viral-induced acute respiratory distress syndrome (ARDS) on extracorporeal membrane oxygenation (ECMO) will be eligible. Ten patients will be enrolled and receive allogeneic bone marrow-derived mesenchymal stromal cells (BM-MSC). Ventilator parameters as well as preoperative clinical characteristics and postoperative clinical outcomes will be registered. Routine blood sampling, radiography, and bronchioalveolar lavage will be performed pre- and postoperatively. Spirometry, quality of life assessment, and 6 minute walk test will be performed postoperatively. All available data will be collected prospectively. Follow-up is 12 months. Informed consent will be obtained from relatives to patients meeting the inclusion criteria before the initiation of any study-specific procedures.
Tracheal intubation in the ICU is associated with significant complications and morbidity. Desaturation is among the most frequent and hazardous complication, occurring in almost one out of four intubations, that may in some instances lead to cardiac arrest; despite appropriate preoxygenation. Non-invasive ventilation may help improve preoxygenation but does not allow for apneic oxygenation and may not be performed in patients with neurological impairment. High flow nasal canula oxygen is increasingly used in the ICU in patients with acute hypoxemic respiratory failure and may be used to improve preoxygenation. It is currently used in our ICU for that purpose. Because high flow nasal canula oxygen is our first line oxyten therapy for patients with acute respirtory distress syndrome, we sought to determine its use as a means to ensure preoxygenation in those ARDS patients that require intubation.
Patients with mechanical ventilation have shown improved weaning rates when enteral tube feeding high in EPA, GLA and antioxidants were fed to patients in the critical care setting. LTAC Patients on chronic mechanical ventilation will have decreased days an mechanical ventilation, decreased mortality rates and decreased organ failure when fed an enteral product high in EPA, GLA and antioxidants compared to an isotonic high fiber enteral nutrition product.
Efforts to identify circulating factors that predict severity of acute lung injury/acute respiratory distress syndrome(ALI/ARDS) patients is unrevealing. The primary purpose of this study is to verify our hypothesis that soluble CD74 might be a potential novel ALI/ARDS biomarker.
Today, the electronic medical record, microprocessor mechanical ventilators, and physiologic monitoring are under-utilized when translating research into decision support. Current medical informatic capabilities can be leveraged to calculate trends in measured parameters to initiate a paradigm shift in critical care from reaction-based treatment to proactive and plausibly preventative care. Therefore, the purpose of this study is to develop baseline understanding of our practice and how data collection utilizing a newly implemented system called T3. We would like to retrospectively review mechanically ventilated patients in which we have collected continuous data to test a newly developed analytic platform. Additionally we would like to compare these results to our standards of practice established by clinical practice guidelines.
The Acute Respiratory Distress Syndrome (ARDS) is one of common clinical critically diseases. In the United States, the incidence of ARDS reaches 31%, which is one of the main causes of death in patients. There is no unified treatment process for ARDS currently and the treatment measures are not yet standardized, so the standardization of ARDS treatment processes is needed to reduce mortality in patients. Following the evidence-based medicine principles and six-step treatment standards of ARDS, this study uses the method of multi-center randomized controlled clinical trials to evaluate the standardized treatment process of ARDS, which provides the basis for the standardized treatment of ARDS.
To evaluate safety and efficacy using decidual stromal cell therapy for toxicity and inflammation, with special focus on allogeneic hematopoietic cell transplantation patients. The hypothesis to be tested is that the cells are safe to infuse and that they have an anti-inflammatory and healing effect.
This study attempts to study a new ventilation mode in children with Acute respiratory distress syndrome (ARDS). Despite decades of research, no intervention has brought about a significant decrease in ARDS mortality. Moreover, most of the studies are adult-based and have been extrapolated to children. Airway pressure release ventilation (APRV) mode is hypothesized to be superior in terms of lower need for sedation, shorter duration of mechanical ventilation, etc. It is unique and the first worldwide randomized controlled trial on APRV mode in children. We plan to recruit a minimum of 50 children aged (1 month-12 years) in each group. The study is to be conducted at the Post-Graduate Institute of Medical Education and Research (PGIMER), Chandigarh between March 2014 to March 2016. This trial would recruit children with respiratory failure and early ARDS and, randomize them to receive either conventional ventilation or the APRV mode. Rest of the supportive care has also been protocolized so that both groups receive treatment as per the existing best practices in every aspect. The primary outcome being studied is the number of ventilator-free days. The secondary outcomes include length of PICU stay, hospital stay, organ-failure free days, 28 day & 3 month survival, biomarkers of lung injury (IL-6, IL-8, Angiopoeitin-2, soluble-ICAM-1, etc), functional status, Pulmonary function tests, etc. Funding request would be sent to the Indian Council of Medical Research, New Delhi, India. Assessing lung biomarkers like Interleukin-6 would assess the role of different modes of ventilation in acting as triggers for multi-organ dysfunction as well as for worsening lung injury. This pathbreaking research is likely to open up new avenues upon completion.