View clinical trials related to Covid19.
Filter by:: Coronavirus disease 2019 (COVID-19) is an infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). SAB Biotherapeutics has developed SAB-185, an Anti-SARS-CoV-2 Human Immunoglobulin Intravenous (transchromosomic [Tc] bovine-derived), as a potential therapeutic to treat COVID-19. This study will evaluate the safety, immunogenicity, and pharmacokinetics of SAB-185 in ambulatory participants with COVID-19.
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a new coronavirus responsible for the pandemic called coronavirus disease 2019 (COVID-19), which appeared in China in December 2019 and which has spread rapidly around the world. Even if in the vast majority of viral infection results in a mild illness, it can also progress to a severe form with sometimes fatal consequences. Indeed, clinical worsening, between the 7th and 10th days of the onset of symptoms, has been widely described since the start of the pandemic. This manifests itself at the biological level by hyperinflammation (VS, CRP, ferritin), coagulopathy (elevation of D-dimers, sometimes disseminated intravascular coagulation) and cell lysis (CPK, LDH). At the same time, it was observed high levels of pro-inflammatory cytokines (IL-1β, IL-6, TNF-α, IL-18), suggestive of a cytokine storm, and the first studies on therapeutic management targeting these cytokines are currently underway in COVID-19. Such a profile strongly recalls on the one hand the cytokine release syndrome (CRS, observed in CAR-T cell therapy in malignant hematology), and on the other hand the lymphohistiocytic activation syndrome (SALH). Systemic diseases, such as adult Still's disease and its pediatric side, can also be complicated by a cytokine storm, known as macrophagic activation syndrome (SAM, equivalent to secondary SALH). Under all these conditions, IL-1β, IL-18, IFN-γ and IL-6 seem to be key mediators of hyperinflammation. Plasma ferritin is a biological marker of inflammation, long known, associated with various infectious, hematological and immunological conditions. An increase in ferritin levels has in particular been associated with an unfavorable development in certain infections such as influenza and certain authors have moreover shown an association between plasma ferritin and the evolution towards ARDS or death in patients. Its dosage is also used as a diagnostic tool for SAM, and could make it possible to differentiate the latter from severe sepsis in intensive care. Some authors have also noted it as a prognostic factor in Kawasaki disease or CRS. The plasma dosage of ferritin, associated with that of its glycosylated fraction, could therefore be a diagnostic (difference between SAM and severe sepsis in intensive care), prognostic (evolution towards ARDS, mutation in intensive care, mortality) and therapeutic (indication of preemptive treatment with an inhibitor of IL-1 or IL6) in patients infected with SARS-CoV-2. The objective of this study is to retrospectively assess the prognostic value of ferritin and glycosylated ferritin in SARS-CoV-2 infection in hospitalized.
Tofacitinib suppresses pro-inflammatory signaling that may be important pathogenetically to progression to more severe lung disease and acute respiratory distress syndrome (ARDS) in patients with COVID-19. The purpose of the study is to assess the safety and efficacy of tofacitinib plus standard pharmacologic and supportive measures in treating hospitalized participants with COVID-19 pneumonia.
To assess the safety and efficacy of CK0802 in treatment of patients with COVID-19 induced moderate-to-severe PNA-ARDS.
Coronavirus disease 2019 (COVID-19) is an infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). SAB Biotherapeutics has developed SAB-185, an Anti-SARS-CoV-2 Human Immunoglobulin Intravenous (transchromosomic [Tc] bovine-derived), as a potential therapeutic to treat COVID-19. This study will evaluate the safety, immunogenicity, and pharmacokinetics of SAB-185 in healthy participants.
Mortality rates caused by SARS CoV-2 differ between countries and this difference might be explained by several reasons. Childhood vaccination rate is thought to be one of them. Therefore present study aimed to examine the possible relationship between DTaP (diphtheria, tetanus, pertussis) and measles vaccination rates of Organization for Economic Co-operation and Development (OECD) countries and case fatality rate (CFR) caused by SARS CoV-2.
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.
Rationale: Infection with severe acute respiratory syndrome coronavirus (SARS-CoV) 2 could result in endothelial dysfunction with increased risk of arterial thrombotic events by downregulating the expression of angiotensin converting enzyme 2 (ACE2). Endothelial function can be easily and non-invasively determined by carotid artery reactivity (CAR) testing. Objective: To investigate the predictive value of endothelial dysfunction, measured by carotid artery reactivity testing, for 1-year cardiovascular events in patients with past COVID-19 infection. Study design: A prospective observational longitudinal cohort study. Study population: Patients recovered from confirmed infection with SARS-CoV2. Main study parameters/endpoints: macrovascular endothelial function measured by carotid artery reactivity testing.
All patients with heart disease should have the opportunity to participate in research into their condition, to advance knowledge and treatment. The HeartHive COVID-19 study is an international online pilot observational cohort study evaluating the impact and clinical outcomes of the COVID-19 pandemic on subjects enrolled in the HeartHive. Cardiomyopathies are progressive diseases, and there is a need to better understand what factors affect the chances of developing cardiomyopathy, and how the condition progresses. The impact of the COVID-19 pandemic on patients with cardiomyopathy has not been explored and represents a critical unmet need. Insights into exposure, healthcare outcomes, behavioural changes and the psychosocial ramifications of the pandemic are required to better understand the health needs of this population during these unprecedented circumstances and to adapt clinical services to meet these. The study will entail completing serial online surveys during the pandemic. This study uses The Heart Hive - an international, online registry of patients with self-reported clinically diagnosed cardiomyopathy, and people without heart disease. Participants enrol and upload their own data through the website. It is the second research study that will be offered to registry participants and delivered through The Heart Hive platform.
The current coronavirus disease pandemic has posed a problem and a challenge for health systems globally. In the framework of a pandemic, a diagnosis is a key tool in containing and monitoring disease outbreaks. In this pandemic, the qPCR technique has become vitally important in virus detection, due to its wide detection and quantification range, and the high levels of sensitivity and specificity it presents. The methodology for diagnosing coronavirus by qPCR requires the prior extraction of viral genetic material, which is carried out using commercial kits created for this purpose. Currently, the high demand for supplies to carry out this technique has generated reagent shortage problems, including commercial kits for the extraction of viral genetic material. This research aims to evaluate a solution called AAA-Safe and its method, developed to optimize the diagnostic process, eliminating and replacing the viral RNA extraction stage. We hope that this alternative can be implemented in any molecular diagnostic laboratory, in order to speed up the delivery of a fast and safe diagnosis.