View clinical trials related to Respiratory Insufficiency.
Filter by:The objective of this study is to assess the efficacy and safety of this new Prismalung+ membrane in its intended clinical setting by demonstrating a reduction in ventilatory parameters and pulmonary energy load or the successful maintenance of spontaneous breathing, respectively, the absence of the need to initiate vv-ECMO therapy, and initial survival.
evaluation of ROX index among ICU patients to evaluate the success of non invasive ventilation or the need for intubation
NOTACS aims to determine if prophylactic use of high-flow nasal therapy (for a minimum of 16 hours after tracheal extubation, inclusive of up to one hour off randomised therapy for transfers around the hospital and/or physio mobilisation) increases days at home in the first 90 days after surgery, for adult patients undergoing cardiac surgery who are at high risk of postoperative pulmonary complications. The study also incorporates a health economic analysis to estimate the incremental cost-effectiveness and cost-utility of HFNT versus standard oxygen therapy at 90 days, from the view-point of the public sector, NHS and patients.
In patients with COVID-19, severe hypoxemic respiratory failure (SRF) leading to invasive mechanical ventilation (IMV), raises the mortality rate substantially. Thus, the management of patients with SRF to avoid intubation and intensive care admission is a challenging and crucial issue. This study describes, as rescue/compassionate treatment, a therapeutic protocol based on the multi-mechanistic nature of severe COVID-19, using the combination of inhaled DNase, Baricitinib and Tocilizumab on top of standard of care (SOC) consisting of heparin and dexamethasone. COVID-19 patients with SRF who were treated with SOC, SOC plus Anakinra (ANA), and SOC plus Tocilizumab (TOCI) will be studied as comparators. Primary endpoint will be the reduction of the in-hospital mortality rate, whereas secondary endpoints concern intubation rate, days of hospitalization and overall survival as derived from the last follow-up visit, either in-office or remote. This is a non-randomized, open-label, study, conducted in the First Department of Internal Medicine, University Hospital of Alexandroupolis, Greece.
Automated quantification of the pulmonary volume impaired during acute respiratory failure could be helpful to assess patient severity during COVID-19 infection or perioperative medicine, for example. This study aims at assessing the correlation between the amount of radiologic pulmonary alteration and the clinical severity in two clinical situation : 1. SARS-CoV-2 infections 2. Postoperative hypoxemic acute respiratory failure.
Among critically ill adults undergoing emergency tracheal intubation, one in five experience hypotension, cardiac arrest, or death. The sedatives used to rapidly induce anesthesia for emergency tracheal intubation have been hypothesized to effect cardiovascular complications and patient outcomes, but the optimal sedative medication for intubation of critically ill adults remains unknown. Ketamine and etomidate are the two most commonly used sedatives during intubation of critically ill adults. Data from a randomized clinical trial are urgently needed to determine the effect of ketamine versus etomidate on cardiovascular complications and clinical outcomes of emergency tracheal intubation.
Lung transplantation is an effective therapeutic option in the end-stage of chronic respiratory diseases. Lung transplantation improves lung function in terms of capacity and volume. However, the transplanted patient still suffers from muscle weakness and exercise intolerance. In recent years, respiratory physiotherapy work has intensified in critically ill patients with respiratory muscle weakness and the application of inspiratory muscle training (IMT), which has been shown in several studies to increase inspiratory muscle strength (IMT), improve ventilation and reduce the sensation of shortness of breath. Despite this emerging evidence, inspiratory muscle training (IMT) is not standard practice in most ICUs around the world, nor is it included in a protocolised manner among the components of a pulmonary rehabilitation programme. Given the limited evidence, the investigators propose to conduct this randomised controlled clinical trial in lung transplant recipients. The study will compare two groups of transplanted patients, a control group that will follow the rehabilitation programme and standard medical care and another experimental group that will also perform inspiratory muscle training. This study aims to analyse the effect of IMT on inspiratory muscle strength, exercise capacity and quality of life in lung transplant patients.
The intensive care units is of the main components of modern healthcare systems. Formally, its aim is to offer the critically ill health care fit to their needs; ensuring that this health care is appropriate, sustainable, ethical and respectful of their autonomy. Intensive medicine is a cross-sectional specialty that encompasses a broad spectrum of pathologies in their most severe condition, and specifically has as its foundation the practice of comprehensive care of the patient with organ dysfunction and susceptible to recovery. Although critically ill patients are a heterogeneous population, they have in common the need for a high level of care, often requiring the use of high technology, specific procedures for the support of organ dysfunction and the collaboration of other medical and surgical specialties for their management and treatment. Since their origins in the late 1950s, intensive care units have been adapting to the changes arising from the best scientific evidence. In the late 1990s and early 2000s, there were some successful clinical trials published that had tested alternative management strategies in the ICU. Mechanical ventilation is an intervention that defines the critical care specialty. Between 1970 and the 1990s, the management focused on normalizing arterial blood gas with aggressive mechanical ventilation. Over the ensuing decades, it became apparent that performing positive pressure ventilation worsened lung injury. The pivotal moment in the mechanical ventilation story would be the low versus high tidal volume trial. This trial shifted the focus away from normalizing gas exchange to reducing harm with mechanical ventilation. Further, it paved way for further trials testing ventilation interventions (PEEP strategy, prone position ventilation) and nonventilation interventions (neuromuscular blockade, corticosteroids, inhaled nitric oxide, extracorporeal gas exchange) in critically ill patients. That evidence-based intensive care medicine has undoubtedly had an influence on the outcome of critically ill patients, in general, and, particularly, of patients requiring mechanical ventilation. Temporal changes in mortality over the time have been scarcely reported for patients admitted to intensive care unit. Objective of this study is to estimate the changes over the time in several outcomes in the patients admitted to an 18-beds medical-surgical intensive care unit from 1991 (year of start of activity) to 2026
Rationale: Opioid misuse and abuse are common problems in the Western world. The rate of unintentional drug overdose is rapidly increasing, not only in the Unites States but also in the Netherlands. Additionally, it is well known that opioids are often used (and abused) in combination with other legal or illicit substances, for example cannabis, including medicinal (i.e. doctor prescribed) cannabis. A major opioid-induced adverse effect is respiratory depression and there are no data that show how oxycodone interacts with cannabis on the ventilatory control system. An appreciable effect is possible given the sedative effects of cannabis. Moreover, investigators previously showed that combining even a low dose of oxycodone (20 mg) with ethanol increased the likelihood of an apneic event (van der Schrier et al. Anesthesiology 2017; 102: 115-122). Because of this side effect and also due to the rising number of addicted chronic opioid users, there is an increasing imminent societal, political and medical interest in advancing research on opioids, opioid-drug interaction and alternatives for the treatment of various chronic illnesses and chronic pain. Hypothesis: The investigators hypothesize that cannabis will amplify the ventilatory depressant effect of oxycodone (primary end-point). Objective: The objective of the study is to quantify the interactive effect of Δ9-tetrahydrocannabinol (THC) and oxycodone on ventilatory control. Study design: Double blind, randomized cross-over, placebo-controlled design. Study population: Healthy human volunteers between the age of 18 and 45 years old. Intervention: Visit A: placebo capsule at t = 0 min + Bedrocan (22.4 mg THC) at t = 90 and 270 min; Visit B: oxycodone 20 mg at t = 0 min + Bedrocan (22.4 mg THC) at t = 90 and 270 min. Main study parameters/endpoints: Primary endpoint: The effect of inhaled THC on ventilation at an end-tidal PCO2 = 55 mmHg without and with concomitant intake of 20 mg oxycodone immediate release (IR) capsule in healthy volunteers 120 min after oxycodone intake. Secondary endpoints: (1) Outcome of Bowdle and Bond & Lader questionnaires; (2) Level of sedation; (3) Pain Pressure Threshold; (4) slope of the hypercapnic ventilatory response; (5) plasma concentrations of THC, 11-OH-THC and oxycodone; a secondary analysis will be performed on the pharmacokinetic and pharmacodynamic data (PKPD modeling).
Up to 25% of patients who require mechanical ventilation (MV) more than seven days in the intensive care unit (ICU) develop muscle weakness, which comprises deep muscle weakness , including the respiratory muscles.Early active mobilization in ICU patients is a safe and viable strategy to prevent the physical problems caused by immobility. Neuromuscular electrical stimulation (NMES) is an alternative to mobilize and exercise because it does not require active patient participation and can be used on bedridden patients.No previous studies have shown whether training-specific respiratory muscles using an electrical stimulation can have overall benefits for ICU patients on MV.For this reason, the aim of this study was to evaluate, the effectiveness of the NMES therapy combined with early rehabilitation in the respiratory muscles of patients on MV.