View clinical trials related to Sars-CoV2.
Filter by:Interferon (IFN) lambda is one of the fundamental responses of the innate immune system. Peginterferon lambda is a long-acting form that has been studied extensively in human trials in viral hepatitis, confirming it safety and tolerability. It is particularly attractive for consideration in the use of acute respiratory illness due to the high expression of the lambda receptor in lung epithelia. We propose to evaluate peginterferon-lambda in ambulatory patients with mild to moderate COVID-19.
Our goal is to assess the effects of Tadalafil in the setting of confirmed COVID-19 pneumonia. In particular we plan to assess its effects on oxygen saturation, P:F ratio, and mixed central venous oxygen We plan to recruit all hospitalized patients at Santa Barbara Cottage Hospital with a confirmed COVID19 pneumonia (positive PCR + clinical signs/symptoms of lower respiratory disease) who meet the Berlin definition of ARDS and have access to measure a mixed venous oxygen saturation. For the purposes of obtaining mixed central venous oxygen, all participating patients will already have an internal jugular central venous catheter in place for inclusion in this study. Since all patients will be intubated, their Legally Authorized Representative (LAR) will be approached to discuss the study and asked to participate in the study by an ICU physician, either the attending physician or a medical resident. Informed consent will be obtained from the LAR by an ICU attending physician or resident involved in the study prior to participation. Patients who meet the above eligibility criteria will have baseline levels of mixed central venous oxygen, oxygen saturation, P:F ratio, blood pressure and PaO2 recorded. Each patient will then receive Tadalafil 40mg once. The above listed parameters will be monitored again 30 minutes after drug administration and 4 hours after drug administration. No other medication or ventilator changes will be made during this time period outside of emergent changes in the setting of patient deterioration. We will continue to analyze the data in the event of emergent ventilator changes.
The recent SARS-CoV2 pandemic has highlighted that the transmission of the virus within health care facilities plays a fundamental role in its propagation and, therefore, in the increase in COVID-19 cases registered among patients and healthcare workers. This study, original for the current lack of data on nosocomial transmission mechanisms compared to what happens in the community, proposes to conduct a study in patients, health workers and people in real-life setting. The study will be monocentric and performed at the San Raffaele Pisana Institute in Rome, that is able to guarantee the necessary number and the right case-mix that will allow to evaluate any possible correlations between infection and pre-existing disease.
Patients admitted to the intensive care unit develop psychiatric disorders, such as anxiety, depression or post-traumatic stress disorder, which can be prolonged. During the COVID crisis, the presence of relatives in the intensive care unit was reduced and this, in a lasting way. The hypothesis is that there is a difference in the experience of the stay in the intensive care unit whether or not one is affected by SARS-CoV-2 and that this difference is likely to have an impact on the long-term outcome of the patients and their relatives.
This is a national, multicenter, open-label, randomized, phase II/III trial that evaluates the efficacy and safety of favipiravir and ribavirin in the treatment of patients with confirmed COVID-19 observed within 72 hours. Approximately 100 patients will be randomized in 1:1 ratio and divided into two groups.
The ongoing pandemic caused by the Severe Acute Respiratory Syndrome Coronavirus 2 (SARS CoV-2) has infected more than one hundred twenty million peoples worldwide one year after its onset with a case-fatality rate of almost 2%. The disease due to the coronavirus 2019 (i.e., COVID-19) is associated with a wide range of clinical symptoms. As the primary site of viral invasion is the upper respiratory airways, lung infection is the most common complication. Most infected patients are asymptomatic or experience mild or moderate form of the disease (80 %). A lower proportion (15%) develop severe pneumonia with variable level of hypoxia that may required hospitalization for oxygen therapy. In the most severe cases (5%), patients evolve towards critical illness with organ failure such as the acute respiratory distress syndrome (ARDS). At this stage, invasive mechanical ventilation is required in almost 70 % and the hospital mortality rises to 37 %. Immune cells are key players during SARS CoV-2 infection and several alterations have been reported including lymphocytes (T, B and NK) and monocytes depletion, and cells exhaustion. Such alterations were much more pronounced in patients with the most severe form of the disease. Beside, a dysregulated proinflammatory response has also been pointed out as a potential mechanism of lung damage. Finally, COVID-19 is associated with an unexpectedly high incidence of thrombosis which probably results from the viral invasion of endothelial cells. The investigators aim to explore prospectively the alterations of innate and adaptive immune cells during both the acute and the recovery phase of SARS CoV-2 pneumonia. Flow and Spectral cytometry will be used to perform deep subset profiling focusing on T, B, NK, NKT, gamma-gelta T, monocytes and dendritic cells. Each specific cell type will be further characterized using markers of activation/inhibition, maturation/differenciation and senescence as well as chemokines receptors. T-cell memory specificity will be explore using specific SARS CoV-2 pentamer. Platelet activation and circulating microparticles will be explore using flow cytometry. Serum SARS CoV-2 antibodies (IgA, IgM, IgG), serum cytokines, and serum biomarkers of alveolar epithelial and endothelial cells will be analyze using ELISA and correlate with the severity of the disease.
COVID-19 survivors commonly exhibit a marked extra-respiratory complication affecting the cardiac (arrhythmias and myocardial injury), renal (acute kidney injury), gastrointestinal, nervous (neuropathy, encephalopathy), endocrine and musculoskeletal (weakness, pain, and fatigue) systems. In this context, several studies have found that resistance training intervention promotes important health-related benefits, including cardiac function, compared to aerobic exercise training. Other exercise adaptations include increased skeletal muscle metabolism function, yet physio/psychological adaptations are known to be limited in COVID-19 survivors. Hence, given that resistance training intervention is implemented in a manner that is tolerable to the individual patient, it may be a potential beneficiary "personalized" rehabilitation treatment for patients with COVID-19 syndrome ambulatory. The "EXER-COVID Clinical Study" project aims at determining the role of personalized exercise intervention in the treatment of post-COVID-19 syndrome ambulatory patients.
Despite enormous progress in understanding COVID-19, there is little evidence that a solution, therapeutic or preventive, is close to being achieved. Repurposing of well known, widely available drugs represent an attractive approach to speed up availability of active treatments. Such substances as i.e. hydroxychloroquine and others, are already under investigation and in widespread off label use. For many reasons Methylene blue (MB), the oldest synthetic substance in medicine (1876 synthesized by BASF) is such a promising candidate for an active treatment against SARS-CoV-2 infected people and for COVID-19 patients.
Emergency call centers are very solicited in epidemic situations. It is necessary to detect early Predictive Criteria of Severity in COVID respiratory infection to identify patients at risk of complication or aggravation from an emergency call center in order to adapt their orientation and their medical management.
The Innovative Support for Patients with SARS COV-2 Infections Registry (INSPIRE) study is a CDC-funded COVID-19 project to understand the long-term health outcomes in recently tested adults, both negative and positive, who have suspected COVID symptoms at the time of their test. Participants will complete short online surveys every 3 months for 18 months, share information about their health using a secure web-based platform, and are compensated for their time.