View clinical trials related to Respiratory Insufficiency.
Filter by:This study will use different indices for prediction of NIV failure in ARF patients Evaluation of HACOR score and ROX index for early prediction of NIV failure in patients with ARF. Study value of diaphragmatic dysfunction assessed by ultrasound as tool for prediction of success of NIV in ARF patients. Compare clinical significance of these scoring systems between hypoxemic and hypercapnic RF
Ninety adult patients from both gender, with acute respiratory failure, intubated and mechanically ventilated. Their ages ranged from 50 to 70 years. They were selected from Intensive Care Unit (ICU), Department of Chest Diseases, Cairo University Hospitals. They have randomly assigned into three equal groups. Group (A): trained by threshold IMT device plus routine physical therapy. Group (B): trained by adjusting MV trigger sensitivity plus routine physical therapy. Group (C): only received routine physical therapy. (Negative inspiratory force NIF, arterial blood gases, P/F ration, respiratory rate RR, tidal volume VT, and rapid shallow breathing index RSBI) were measured before the study and at the end of the study (just before weaning for successfully weaned patients, or on the 10 day of intervention for failed weaning patients).
This study assesses the feasibility of digital data collection for a randomized controlled trial in a quaternary pediatric intensive care unit and the effect of two commonly used mechanical ventilation modes on gas exchange (CO2) in children over 2 days after randomization. This is a single-center, open-labelled, randomized controlled trial with two parallel 1:1 treatment arms: pressure controlled (PC) vs pressure-regulated volume controlled (PRVC) mechanical ventilation modes. Use to routine digital data is essential to enable health learning systems and to provide rapid clinical trials readiness, as the pandemic has demonstrated. Despite availability of data to perform digital trials in PICU settings, these are yet scarcely done.
The goal of this prospective multicentric study is to evaluate the presence of long-term pulmonary sequelae in patients who had required hospitalization for treating COVID-19 pneumonia, trough chest CT and pulmonary function tests (PFT). Secondly we would like to evaluate the possible correlation between the chest CT findings and pulmonary function tests pre-existing co-morbidities and type of therapy used during hospitalization.
This study is planned as a part of the post market clinical follow-up (PMCF) on a CE marked product. The purpose of this study is to assess, in a routine clinical environment at two centers the use of fabian-PRICO with noninvasive ventilation and its safety and performance at targeting and maintaining accurate SpO2 levels.
The goal of this diagnostic study is to validate estimation of inspiratory muscle pressure by an artificial intelligence algorithm compared to the gold standard, the measure from an esophageal catheter balloon, in patients under assisted mechanical ventilation. The main questions it aims to answer are: • Are inspiratory muscle pressure estimates from an artificial intelligence algorithm accurate when compared to the direct measure from an esophageal balloon? Participants will be monitored with an esophageal balloon and with an artificial intelligence algorithm simultaneously, with inspiratory muscle pressure estimation during assisted mechanical ventilation with decremental levels of pressure support.
Measurements of esophageal pressure (Pes) as surrogate for pleural pressure are routinely performed in selected ICU patients to facilitate lung-protective ventilation and assess breathing effort. Pes is clinically measured via a nasogastric esophageal catheter. Current techniques involve balloon catheters but have some important disadvantages as they could deflate over time and require a very precise positioning and filling volume. A solid-state sensor does not have disadvantages associated with balloon catheters and may therefore be a useful alternative in clinical practice. This method-comparison study in adult mechanically ventilated ICU patients evaluates the accuracy of Pes measured using an esophageal catheter with a solid-state sensor as compared to a balloon catheter as reference standard.
The goal of this clinical trial is to determine whether one of the two oxygenation or ventilation strategies (NIV and/or HFNO) is superior to standard oxygen to reduce 28-day mortality rate in hypoxemic acute respiratory failure (ARF) patients.
High-flow nasal oxygen (HFNO) therapy is an upcoming and beneficial modality for patients with acute hypoxemic respiratory failure (AHRF). To evaluate whether early use of HFNO in pneumonia patients with (AHRF) can reduce the need for invasive ventilation.
We hypothesized that diaphragm thickness is concerned in acute respiratory failure of COVID19 patients and its ultrasound measure at the begining of hospitalisation is a good predictor of poor outcome. A prospective observational non intervention study is designed.