View clinical trials related to Covid19.
Filter by:CLARITY 2.0 is an investigator-initiated trial that will evaluate the safety and efficacy of dual treatment with repagermanium, a CCR2 antagonist, and candesartan, an ARB, in patients hospitalised with COVID-19 disease.
This is a two-arm, double blind randomized 12-week study to supplement omega-3 (Eicosapentaenoic acid - EPA + docosahexaenoic acid - DHA) among 100 adults (age 18+) who had coronavirus-19 (covid-19) and are experiencing possible after-effects from post-acute sequelae of covid-19 (also called post-covid syndrome or long covid syndrome).
The goal of this longitudinal and observational study is to better understand the psychiatric consequences of COVID-19 over time. Psychiatric outcomes like mood, anxiety, stress, and cognitive symptoms in patients who underwent inpatient hospitalization at NewYork-Presbyterian Hospital/Weill Cornell Medicine for COVID-19 will be assessed at 6 months or later post-discharge.
The rapid spread of SARS-CoV-2 (also known as 2019-nCoV and HCoV-19 1), a novel beta coronavirus B lineage (βCoV), has sparked a global coronavirus disease (COVID-19) pandemic. It has been suggested that RRAR, a unique furin-like cleavage site (FCS) in the spike protein (S) that is absent in other B βCoV lines such as SARS-CoV, is responsible for its high infectivity and transmissibility. Furin is a protein with a special function of a fermentative biocatalyst: which recognizes the degree of maturity of a group of amino acids Functionally, Furin works to renew the body, but it is also a path to the introduction of the SARS-CoV virus into a living human cell, HIV virus, Ebola virus, and others that penetrate a human cell using the Furin protein, sending a conditioned signal from the extracellular matrix, and gives the virus the opportunity to merge the protein of the coronavirus spike and the protein content of the cut cell, which activates the phase of virus replication in the body. We hypothesize that measuring the quantitative indicators of Furin protein expression in patients (at the onset of the disease) who have recovered from SARS-CoV-2 and vaccinated (with all types of vaccines) against coronavirus can provide an understanding of the molecular-cellular mechanisms of the virus's cellular invasion. This means that it will be possible to find new ways to prevent the fusion of the membranes of infected cells with normal ones (this mechanism allows the virus to spread throughout the body without leaving the affected cells). Protein identification will be carried out by Enhanced Chemiluminescence (ECL) (the method of enhanced chemiluminescence differs from the method of immunochemical staining using chromogenic substrates by a much greater sensitivity)
Most patients with acute COVID-19 (Coronavirus 19) recover within weeks, however a significant number of individuals will develop the post-acute COVID 19 syndrome (PASC). As of July 2021, the post COVID syndrome qualifies as a disability under the Americans with Disabilities Act. The symptoms which comprise this condition are highly variable and often extraordinarily debilitating. They may be distinct from the initial presentation or may mimic those which defined the initial infection. The post COVID syndrome can be diagnosed when symptoms persist longer than 3 months and may extend to beyond one year. There are risks for permanent levels of disability. Patients who seemingly did not have active COVID-19 symptoms in the days following infectious exposure may also develop post Covid syndromes. These syndromes are considered to constitute a distinct clinical entity which has of yet no clearly defined pathogenic mechanism or validated treatment algorithms. International investigative efforts are now underway to determine who might develop the post COVID syndrome, it's long term consequences and how best to treat its many problematic symptoms.
The primary objectives of the study are: - To characterize the concentrations of casirivimab+imdevimab in serum over time - To evaluate the safety and tolerability of casirivimab+imdevimab The secondary objective of the study is: • To assess the immunogenicity of casirivimab+imdevimab
This is a study of the BinaxNOW Covid-19 Ag Card as a method to rapidly identify SARS-CoV-2 infection in asymptomatic children, teachers, and other school staff for exclusion. 240 students and 80 teachers in the Madison Metropolitan School District (MMSD) will be enrolled and can expect to be on study for up to 8 weeks.
To provide more information on safety profile of VAXZEVRIA in Japanese subjects, specific drug use result study in subjects with underling disease at higher risk of worsening COVID-19 is planned as an additional pharmacovigilance plan. The present study aims to collect information on adverse drug reactions or COVID-19 infection after VAXZEVRIA vaccination and to evaluate the safety of this vaccine.
Primary Objectives Phase 1 (Safety and Tolerability) • Evaluate the safety and tolerability of REGN14256+imdevimab and REGN14256 monotherapy, as measured by treatment-emergent adverse events (TEAEs), injection-site reactions (ISRs), and hypersensitivity reactions Phase 1/2 (Virologic Efficacy) • Evaluate the virologic efficacy of REGN14256+imdevimab and REGN14256 monotherapy compared to placebo, as measured by time-weighted average (TWA) change from baseline in viral load through day 7 Phase 1/2/3 (Clinical Efficacy) • Evaluate the clinical efficacy of REGN14256+imdevimab compared to placebo, as measured by COVID-19 symptoms resolution Secondary Objectives Phase 1 (Safety and Tolerability) • Evaluate the safety and tolerability of REGN14256+imdevimab and REGN14256 monotherapy, as measured by treatment-emergent serious adverse events (SAEs) Phase 2 and Phase 3 (Safety and Tolerability) • Evaluate the safety and tolerability of REGN14256+imdevimab and REGN14256 monotherapy, as measured by TEAEs, ISRs, hypersensitivity reactions, and SAEs Phase 1, Phase 2, and Phase 3 (Virologic Efficacy, Drug Concentration, and Immunogenicity) - Evaluate additional indicators of virologic efficacy of REGN14256+imdevimab and REGN14256 monotherapy - Characterize the concentration-time profile of REGN14256 administered in combination with imdevimab or alone as a monotherapy - Assess the immunogenicity of REGN14256 administered in combination with imdevimab or alone as a monotherapy
This study is designed to test the efficacy and safety of combinations of two well-understood agents - famotidine and celecoxib. Each of these agents separately demonstrate clinical activity in mitigating COVID-19 disease symptoms or severity, and each of which appear to have separate and complementary mechanisms of action.