View clinical trials related to Acute Respiratory Failure.
Filter by:During mechanical ventilation (MV) hypoxemic or hyperoxemic events should be carefully monitored and a quick response should be provided by the caregiver at the bedside. Pediatric mechanical ventilation consensus conference (PEMVECC) guidelines suggest to measure SpO2 in all ventilated children and furthermore to measure partial arterial oxygen pressure (PaO2) in moderate-to-severe disease. There were no predefined upper and lower limits for oxygenation in pediatric guidelines, however, Pediatric acute lung injury consensus conference PALICC guidelines proposed SpO2 between 92 - 97% when positive end-expiratory pressure (PEEP) is smaller than 10 cm H2O and SpO2 of 88 - 92% when PEEP is bigger or equal to 10 cm H2O. [1] For healthy lung, PEMVECC proposed the SpO2>95% when breathing a FiO2 of 21%.[2] As a rule of thumb, the minimum fraction of inspired O2 (FiO2) to reach these targets should be used. A recent Meta-analyze showed that automated FiO2 adjustment provides a significant improvement of time in target saturations, reduces periods of hyperoxia, and severe hypoxia in preterm infants on positive pressure respiratory support. [3] This study aims to compare the closed-loop FiO2 controller with conventional control of FiO2 during mechanical ventilation of pediatric patients
The investigators aim to achieve experts consensus on respiratory interventions in management of COVID-19 related acute respiratory failure (C-ARF).
The objective of this study is to evaluate the efficacy of noninvasive ventilation with helmet in reducing endotracheal intubation rates in comparison with Noninvasive Ventilation (NIV) facemask among patients with Acute Respiratory Distress Syndrome (ARDS)
This is a prospective, randomized, unblinded trial of trauma patients in the ICU who are identified as being at a high risk to develop acute respiratory failure. We hope that this study will help the study team to identify how best to use a more aggressive respiratory treatment strategy in a high risk trauma population (thoracic trauma or trauma patients requiring thoracic surgery, spine surgery, or open abdominal procedures) to try and decrease the need for intubation with mechanical ventilation.
The QUICK study main aim is to assess the predictive value at Day 1, of a model built on lung ultrasound (LUS) and clinical data, both recorded at hospital admission of COVID-19 patients.
First-line therapy of patients with acute respiratory failure consists in oxygen delivery through standard oxygen, high-flow nasal oxygen therapy through cannula or non-invasive ventilation. Non-invasive ventilation in acute hypoxemic respiratory failure is not recommended. In a large randomized controlled study, high-flow nasal oxygen has been described as superior to non-invasive ventilation and standard oxygen in terms of mortality but not of intubation. Paradoxically in immunocompromised patients, high-flow nasal oxygen has not been shown to be superior to standard oxygen. To improve the level of evidence of daily clinical practice, we propose comparing high-flow nasal oxygen versus standard oxygen, in terms of mortality in all patients with acute hypoxemic respiratory failure
In this study, the investigator examined epidemiological and demographic characteristics, risk factors and 28-day mortality of patients admitted to the intensive care unit with the diagnosis of coronavirus disease 2019 pneumonia.
the purpose of this study to evaluate the effect of early awake PP (prone position)application on oxygenation and intubation requirement in patients with acute respiratory failure due to coronavirus disease 2019 pneumonia.
coronavirus disease 2019 related pneumonia is causing acute respiratory failure and this is the most common reason for ICU admission. We have several different way for respiratory support. HFNC is one of the new technics for oxygen support. Our main purpose to observe the effect of HFNC on coronavirus disease 2019 patients' ICU stay and mortality.
This is an observational study to evaluate the clinical impact of respiratory virus in the patients with acute respiratory failure