View clinical trials related to Respiration Failure.
Filter by:Brief Research Proposal: Non-Invasive Detection of Invasive Pulmonary Aspergillosis in ICU Patients Background: Invasive Pulmonary Aspergillosis (IPA) is a critical threat to patients in ICUs, especially those undergoing mechanical ventilation. Traditional diagnostic methods are invasive and carry risks. This study proposes a non-invasive, innovative approach utilizing galactomannan (GM) analysis in Exhaled Breath Condensate (EBC) for early IPA detection. Objective: To evaluate the diagnostic accuracy of measuring GM levels in EBC for detecting IPA in mechanically ventilated patients, comparing it against the conventional Bronchoalveolar Lavage Fluid (BALF)-GM measurements. Methods: A clinical trial will be conducted with 75 mechanically ventilated patients suspected of having IPA. The study will compare the effectiveness of EBC-GM levels against BALF-GM levels in diagnosing IPA, focusing on sensitivity, specificity, and diagnostic accuracy. The novel, self-designed EBC collection device will facilitate the safe and efficient collection of EBC from patients. Expected Outcomes: Validation of EBC-GM Diagnostic Accuracy: Anticipate demonstrating that EBC-GM levels provide a comparable diagnostic accuracy to BALF-GM, establishing a non-invasive, safer alternative for IPA detection. Implementation of a Non-Invasive Diagnostic Tool: The study aims to introduce a non-invasive diagnostic approach that can potentially replace more risky, invasive methods, improving patient care in ICUs. Contribution to Clinical Practice: By providing a new method for early and safer detection of IPA, the study is expected to influence clinical guidelines and practices in the management of critically ill, ventilated patients. Significance: This research has the potential to revolutionize the diagnosis of fungal infections in critically ill patients by offering a non-invasive, accurate, and safer diagnostic tool, thereby improving patient outcomes and reducing the risks associated with invasive diagnostic procedures.
Long-term oxygen therapy improves survival in patients with severe hypoxia. However, some patients despite this oxygen, experience episodes of low oxygen levels (intermittent hypoxia) especially during sleep which may be harmful. In order to overcome this, the investigators have designed an auto-titrating oxygen system (called intelligent oxygen therapy) which automatically adjusts oxygen flow rates to maintain oxygen levels in patients already on oxygen. This study will investigate whether the intelligent oxygen therapy system can prevent intermittent hypoxia during sleep in patients already on long-term oxygen.
To evaluate the effect of automated recording on frequency of recorded scores, number of automated notifications and serious events.
Severe community acquired pneumonia is common and associated with high mortality. Conventional microbiological diagnostics identify pathogens in approximately half of cases, which is inadequate for both clinical and epidemiological purposes. This study applies next-generation sequencing based metagenomic techniques to patients with extremely severe community acquired pneumonia, to investigate the microbiome of severe community acquired pneumonia and evaluate metagenomic approaches as diagnostic tools.