Effectiveness Inspirational Muscle Training
Respiratory InsufficiencyThe long stay in mechanical ventilation can induce several complications, among them respiratory muscle weakness, this has been related to the duration of mechanical ventilation, delay and failure to wean, resulting in longer hospitalization, which reflects in greater care increase in hospital costs. Therefore, of this research will be to compare the effectiveness of early inspiratory muscle training (IMT) versus non-IMT in patients undergoing mechanical ventilation to improve the outcome of mechanical ventilation weaning time.
Helmet NIV vs. CPAP vs. High-flow Nasal Oxygen in Hypoxemic Respiratory Failure
Respiratory FailureHypoxemic Respiratory FailureMulticenter, open label, three-arm randomized trial to assess the effect of helmet noninvasive ventilation vs. helmet continuous positive airway pressure vs. high-flow nasal oxygen on the rate of endotracheal intubation of patients with acute moderate-to-severe hypoxemic respiratory failure
Non-invasive Ventilation and Dex in Critically Ill Adults
Respiratory InsufficiencyNon-Invasive ventilation (NIV) is a life saving intervention for patients with acute respiratory failure (ARF). Some patients are not able to tolerate the NIV intervention and ultimately fail, requiring the use of invasive mechanical ventilation (IMV) and intubation. Sedation may improve a patient's NIV tolerance. However, this practice has not been adopted by intensivists as the risk of over-sedation resulting in respiratory depression, inability to protect the airway, and inadvertent need for intubation are all large deterrents of sedative use in NIV. The Non-invasive Ventilation and Dexmedetomidine in Critically Ill Adults: a Vanguard Pragmatic Randomized Controlled Trial (inDEX) is looking to evaluate the effectiveness of dexmedetomidine compared to placebo in reducing non-invasive ventilation failures in patients admitted to the hospital with acute respiratory failure. The results from this pilot trial, will subsequently inform a large, pragmatic, powered trial to definitively address the question.
Automated Oxygen Control by O2matic to Patients Admitted With Acute Hypoxemia
Hypoxemic Respiratory FailureHypoxia3 moreThe aim of this study is to examine if automated oxygen delivery with O2matic allows for faster weaning from oxygen supply and better oxygen control than manually controlled oxygen therapy for patients admitted to the emergency department with acute hypoxemia. Furthermore it will be tested if O2matic compared to manual control allows for earlier discharge.
Totally Transdermal Sedation in the Weaning From Remifentanil Infusion
Respiratory InsufficiencyVentilator Weaning2 moreThe choice of the sedation protocol has a massive impact on the duration of mechanical ventilation and the timing of extubation. Many sedation protocols are described in the literature. The investigators aim to assess if a transdermal fentanyl-based sedation protocol can have an impact on the global Work of Breathing (WOB)
The ROTAtional-USE of Interface STUDY
Pressure UlcerNoninvasive Positive Pressure Ventilation1 moreIn this trial investigators will explore if a protocolized rotational use of interfaces i.e., masks, during noninvasive positive pressure ventilation (NPPV) compared to standard care is clinically effective and cost-effective in reducing the incidence of pressure sores in patients with hypercapnic acute respiratory failure (AHRF) treated continuously i.e., for more than 24 hours, with NPPV (to avoid intubation, as alternative to invasive ventilation and after early extubation and weaning).
Viscoelastic Testing Guided Tissue Plasminogen Activator Treatment in Acute Respiratory Failure...
Acute Respiratory FailureHypercoagulability1 morePatients with coronavirus disease (COVID) and non-COVID acute respiratory failure (ARF) may be at an increased risk of thrombosis due to increased clot formation and decreased clot lysis. This two stage study aims to utilise bedside coagulation technology to detect patients at increased risk and guide tPA treatment to maximise efficacy and safety through a personalised approach.
Hospital Airway Resuscitation Trial
Cardiac ArrestRespiratory FailureThe Hospital Airway Resuscitation Trial (HART) is a cluster-randomized, pragmatic trial of advanced airway management with a strategy of first choice supraglottic airway vs. first choice endotracheal intubation during in-hospital cardiac arrest.
Platform of Randomized Adaptive Clinical Trials in Critical Illness
Respiratory InsufficiencyExtracorporeal Membrane Oxygenation Complication1 morePRACTICAL: PRACTICAL is a randomized multifactorial adaptive platform trial for acute hypoxemic respiratory failure (AHRF). This platform trial will evaluate novel interventions for patients with AHRF across a range of severity states (i.e., not intubated, intubated with lower or higher respiratory system elastance, requiring extracorporeal life support) and across a range of investigational phases (i.e., preliminary mechanistic trials, full-scale clinical trials). ULTIMATE domain (currently enrolling): The ULTIMATE pilot trial is a multi-center, randomized, open-label trial, embedded as a domain within the PRACTICAL platform trial. This domain will evaluate the effect of ultra-low intensity ventilation facilitated by CO2 removal through VV-ECMO versus best current conventional ventilation on all-cause hospital mortality among patients with early moderate-severe AHRF with high respiratory system elastance receiving potentially injurious mechanical ventilation. Invasive Mechanical Ventilation (IMV) Strategies domain: The IMV Strategies domain will evaluate multiple novel invasive ventilation strategies in comparison to conventional lung-protective ventilation in patients with acute hypoxemic respiratory failure (AHRF). Multiple approaches to mechanical ventilation are used, and the optimal approach is unknown. An efficient strategy to identify the best strategy is to compare multiple potential approaches simultaneously to determine more rapidly (a) which interventions are least effective (and should be dropped), and (b) which interventions result in the best outcomes for patients. In the current domain design, we will compare the current recommended ventilation strategy to two new approaches: a strategy that targets lung-inflating (driving) pressure instead of lung-inflating (tidal) volume, and a strategy that aims to maintain an optimal level of breathing effort to prevent diaphragm atrophy and injury while maintaining safe lung-inflating pressures. CORT-E2: The Corticosteroid Early and Extended (CORT-E2) Trial is a phase III, multicentre Bayesian randomized controlled trial (RCT), which includes two cohorts within the domain; one examining the role of early corticosteroids as compared to not extending in persisting AHRF due to COVID or non-COVID (Extended Cohort).
Normal Saline Nebulization on Prevention of Extubation Failure in Neonates
Neonatal Respiratory Failurethis study is about evaluating the effect of using normal saline nebulization in preventing re-intubation in extubated neonates , provided that the cause of intubation is mainly due to respiratory cause