View clinical trials related to Covid19.
Filter by:A randomised clinical trial to assess the impact of an online singing, breathing and wellbeing programme (ENO Breathe) developed specifically for people recovering from COVID-19.
To determine whether inhaled Yabro protects against progression of COVID19-induced respiratory failure preventing the passage to non-invasive ventilation (NIV) and promotes recovery from COVID19 lung disease in hospitalized patients.
This is a multi-center, retrospective, study to determine if therapeutic dose anticoagulation (High dose group) improves inpatient mortality in severely ill patients with COVID-19 compared to prophylactic dose anticoagulation (Low dose group). The study involved 704 individuals who were admitted to Beaumont Health System (BHS) from March 10th to April 15th, 2020.
The purpose of this study is to describe demographic and clinical characteristics of participants who are hospitalized due to coronavirus 2019 (COVID-19), treatment use for COVID-19 and COVID-19 symptoms, and composite outcomes of COVID-19. This study will also compare composite outcomes between COVID-19 participants treated with and without anticoagulant therapy during follow-up period.
This study will explore the contribution of CBD oral drops in persons experiencing symptoms of Post Acute COVID Syndrome or "PACS".
In this current study the researchers aim to identify the total number of infections and deaths due to COVID-19 and distinguish which are the risk factors most related to COVID-19 infections and deaths in medical personnel in Mexico.
The next phase of the COVID-19 pandemic is likely to see a surge in an associated chronic cardiopulmonary disease that will challenge health systems. Recovered patients are presenting with persistent dyspnea at the Duke Pulmonary Post-COVID clinic. Evidence is now mounting that recovered patients have significant residual pulmonary disease, while myocardial injury has also been increasingly reported. To optimally care for these patients, Duke Pulmonary study team must comprehensively assess and monitor the changes in cardiopulmonary function and relate the changes to physiologic and quality of life outcomes. The study team will deploy cutting-edge MRI to fully characterize cardiopulmonary function in enrolled 30 subjects (accrual 23 subjects) at time point 60-120 days post recovery and 6-9 months later. Cardiac MRI will assess the myocardial status and right ventricular function, while hyperpolarized 129Xe MRI will provide a 3D assessment of pulmonary ventilation, interstitial barrier integrity, and pulmonary vascular hemodynamics. The overall objective outlined in this study is to demonstrate the feasibility and value of comprehensive longitudinal imaging characterization of cardiopulmonary structure and function in patients recovered from Covid-19.
A high incidence of venous thromboembolic events (VTE) has been demonstrated in COVID-19. This incidence correlates with disease severity. Activation of coagulation secondary to sepsis combined with classical thrombotic risk factors may contribute to this prothrombotic state. Since the beginning of March 2020, the issue of venous thrombosis during SARS-CoV-2 infection has rapidly emerged as a major medical challenge since a significant rate of patients were thrombosing, some of them in spite of a well conducted preventive anticoagulation. Although D-dimers have been shown to be useful in identifying patients at risk of severe COVID-19 and even mortality, they cannot be used for diagnostic exclusion of pulmonary embolism. Indeed, since D-dimer levels rise non-specifically during infectious states, the exclusion threshold of 500 ng/ml cannot be used. It would therefore be useful to study the predictive value of D-dimers for thrombosis in COVID-19 patients.
This study will test the filtration, air leak, and breathability of a newly designed fully washable mask developed by Dr. Nordell with the Mayo Clinic. This mask is theorized to be a superior alternative to other respirators currently used when one-time-use N95 masks are unavailable.
COVID-19 infection is the cause of the current pandemic, responsible for loss of life and disability at a rate unseen before. Among survivors, the infection may cause lasting damage, such as permanent loss of lung function. This study aims to investigate if pulmonary rehabilitation done via supportive devices may reduce or prevent lung function injury. Patients will be chosen among COVID-19 patients who require hospitalization. Patients then will be divided into two groups, those who had used said devices, and compare them to those who had not used them for any reason. After a month, two groups will be evaluated by respiratory function tests, which are expected to provide the results required for a proper comparison. Pulmonary rehabilitation provided by the supportive devices is expected to either lessen or eliminate a loss of pulmonary function over time, compared to the group who did not use them.