View clinical trials related to Respiratory Insufficiency.
Filter by:This is a randomized, randomized controlled trial to investigate the efficacy and safety of Neurokinin-1 Receptor (NK-1R) 80 mg orally given daily to treat cytokine storm causing inflammatory lung injury and respiratory failure associated with severe or critical COVID-19 infection. NK-1R is the receptor of Substance P (SP) and responsible for its functionality. Here, we propose that SP via its tachykinin receptor, NK-1R may cause inflammation in Covid-19 infection. It may initiate the cytokine storming via binding to its receptor NK-1 and many inflammatory mediators are released. If SP release is reduced by NK-1R antagonist, it may control the cytokine storming and hence the hyper-responsiveness of the respiratory tract through reduction in cytokine storming It may serve as the treatment strategy for Covid-19 infected patients. Patients fulfilling the inclusion criteria will be enrolled after giving consent. They wll be randomized to treatment with either NK-1R antagonist or placebo in addition to Dexamethasone as a standard treatment given to both groups for Covid-19 infection as per the protocol at the treating hospital. Inflammatory lab markers as detailed should be collected once per day in the morning, preferably at the same time every morning. All enrolled participants will have whole blood collected for whole genome sequencing.
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
The purpose of this prospective, Phase 2, multicenter, blinded, randomized placebo controlled study is to demonstrate that early treatment with mavrilimumab prevents progression of respiratory failure in patients with severe COVID-19 pneumonia and clinical and biological features of hyper-inflammation.
The latest epidemiological data published from Chine reports that up to 30% of hospital-admitted patients required admission to intensive care units (ICU). The cause for ICU admission for most patients is very severe respiratory failure; 80% of the patients present with severe acute respiratory distress syndrome (SARS) that requires protective mechanical ventilation. Five percent of patients with SARS require extracorporeal circulation (ECMO) techniques. Global mortality data has been thus far reported in different individual publications from China. Without accounting for those patients still admitted to hospital, bona fide information (from a hospital in Wuhan) received by the PI of this project estimates that mortality of hospitalized patients is more than 10%. Evidently, mortality is concentrated in patients admitted to the ICU and those patients who require mechanical ventilation and present with SARS. As data in China was globally reported, risk factors and prognosis of patients with and without SARS who require mechanical ventilation are not definitively known. The efficacy of different treatments administered empirically or based on small, observation studies is also not known. With many still admitted at the time of publication, a recent study in JAMA about 1500 patients admitted to the ICU in the region of Lombardy (Italy) reported a crude mortality rate of 25%. The data published until the current date is merely observational, prospective or retrospective. Data has not been recorded by analysis performed with artificial intelligence (machine learning) in order to report much more personalized results. Furthermore, as it concerns patients admitted to the ICU who survive, respiratory and cardiovascular consequences, as well as quality of living are completely unknown. The study further aims to investigate quality of life and different respiratory and cardiovascular outcomes at 6 months, as well as crude mortality within 1 year after discharge of patients with COVID-19 who survive following ICU admission. Lastly, with the objective to help personalize treatment in accordance with altered biological pathways in each patient, two types of studies will be performed: 1) epigenetics and 2) predictive enrichment of biomarkers in plasma. Hypothesis - A significant percentage of patients (20%) admitted to the hospital with COVID-19 infection is expected to require ICU admission, and need mechanical ventilation (80%) and, in a minor percentage (5%), ECMO. - Patients who survive an acute episode during ICU hospitalization will have a yearly accumulated mortality of 40%. Those who then survive will have respiratory consequences, cardiovascular complications and poor quality of life (6 months).
Patients with Critical COVID-19 and respiratory failure who are ineligible for enrollment in NCT04311697, who live more than 50 miles from an existing collaborating research center, or who are already hospitalized and cannot safely be transferred to a collaborating research facility may be considered for expanded access by the sponsor. Treating physicians must complete FDA Form 3396 and receive a letter of authorization from NeuroRx, along with local IRB authorization. Please refer to FDA guidance for Individual Patient Expanded Access https://www.fda.gov/media/91160/download
Background: Patients with COVID-19 have a range of clinical spectrum from asymptomatic infection, mild illness, moderate infection requiring supplemental oxygen and severe infection requiring intensive care support. High flow nasal cannula (HFNC) oxygen therapy and noninvasive ventilation (NIV) may offer respiratory support to patients with COVID-19 complicated by acute hypoxemic respiratory failure if conventional oxygen therapy (COT) fails to maintain satisfactory oxygenation but whether these respiratory therapies would lead to airborne viral transmission is unknown. Aims: This study examines whether SARS-2 virus can be detected in small particles in the hospital isolation rooms in patients who receive a) HFNC, b) NIV via oronasal masks and c) conventional nasal cannula for respiratory failure. Method: A field test to be performed at the Prince of Wales hospital ward 12C single bed isolation room with 12 air changes/hr on patients (n=5 for each category of respiratory therapy) with confirmed COVID-19 who require treatment for respiratory failure with a) HFNC up to 60L/min, b) NIV via oronasal masks and c) conventional nasal cannula up to 5L/min of oxygen. While the patient is on respiratory support, we would position 3 stationary devices in the isolation room (one next to each side of the bed and another at the end of the bed) of the patient with confirmed COVID-19 infection, and sample the air for four hours continuously. Results & implications: If air sampling RTPCR and viral culture is positive, this would objectively confirm that HFNC and NIV require airborne precaution by healthcare workers during application.
This is a research study to see how safe and effective decidual stromal cells are in treating patients with respiratory failure (breathing problem where not enough oxygen is passed from the lungs into the blood) caused by COVID-19.
Data on respiratory mechanics and gas exchange in acute respiratory failure in COVID-19 patients is limited. Knowledge of respiratory mechanics and gas exchange in COVID-19 can lead to different selection of mechanical ventilation strategy, reduce ventilator-associated lung injury and improve outcomes. The objective of the study is to evaluate the respiratory mechanics, lung recruitability and gas exchange in COVID-19 -associated acute respiratory failure during the whole course of mechanical ventilation - invasive or non-invasive.
This Phase 2 Randomized Placebo Controlled Trial will determine if administering nebulized Dornase Alpha (rhDNase) to COVID-19 patients with respiratory failure is safe and will reduce 28-day mortality.
Acute respiratory distress syndrome (ARDS) is a type of respiratory failure characterized by the rapid onset of widespread inflammation in the lungs. ARDS is thought to be the main cause of respiratory failure in COVID-19 patients. Research is still ongoing to further elucidate the different ARDS subtypes that may exist in COVID-19. It is crucial to find new targets for treatment and support of COVID-19 patients with respiratory failure.