Active clinical trials for "COVID-19"

The purpose of this study is to determine whether nitazoxanide (NTZ) is safe and effective for treatment of mild COVID-19 illness. Adults and adolescent participants will be followed for approximately 28 days.

This is a randomised controlled, adaptive, multicentre Phase II protocol evaluating different booster strategies in individuals aged 75 years and older already vaccinated against SARS-CoV-2. Part B of this trial foresees testing of different vaccines as a 4th vaccination dose (second booster) for comparative assessment of their immunogenicity and safety against SARSCoV- 2 wild-type and variants in the elderly, a usually neglected population. Additional vaccines and extended follow-up visits can be added through amendments of this sub-protocol. As stated in the EU-COVAT master protocol, this trial, i.e., the EU-COVAT-1_AGED study, implements a specific safety monitoring strategy (see below). Cohorts and arms can be withdrawn or added as deemed necessary according to the criteria specified in this protocol

Of the 1,900,000 Canadians who have been infected by COVID-19, 8 to 15% will continue to experience COVID-19 related symptoms well after 12 weeks. The persistence of such symptoms is now defined as "long COVID" syndrome. Current evidence does not provide a clear understanding of the physical and cognitive impairments and functional limitations that persons with long COVID present. The objectives of this project are to describe the physical and cognitive impairments and functional limitations experienced by people with long COVID and compare the evolution over 6 months of people from three separate groups: a group of people with long COVID (long COVID Group), another group of people who contracted COVID-19 but did not experience persistent symptoms (acute COVID Group), and a group of people who did not contract COVID-19 (Control Group). One hundred and twenty adults in each of the three groups will be recruited and will take part in three evaluations within 6 months (baseline and 3 and 6 months after baseline). At baseline, all participants will complete questionnaires on sociodemographics, COVID symptomatology and comorbidity, and self-reported questionnaires on quality of life, functional status, sleep, pain-related disabilities, anxiety, depression, fatigue and cognitive function. Then, physical and cognitive tests will be performed in a laboratory to provide complementary results on impairments and functional limitations. Finally, participants will wear a fitness tracker watch to monitor their activity and sleep for 7 days. The participants will complete the same measures (questionnaires, lab measures, fitness tracker watch) at 3 and 6 months after baseline evaluations. This project will lead to a better understanding of the impairments/limitations experienced following COVID-19. Hence, these results will allow to identify the interventions needed by the population and ensure these are offered through effective healthcare pathways.

The investigators will randomise individuals from family doctors' lists of patients that are at risk of severe Coronavirus Disease 2019 (COVID-19), and that are not registered as having taken the vaccine against the disease. The patients will be randomised to receiving a phone call from their family physician where the participants are given the opportunity to raise questions they might have around vaccination. The investigators will assess whether this has an impact on vaccine uptake.

Vaccines routinely used are extremely safe; however, severe adverse events to vaccines do occur. As vaccination against COVID-19 has begun, adverse events to the vaccine, particularly Guillain-Barré syndrome (GBS), vaccine-induced immune thrombotic thrombocytopenia (VITT)/thrombosis with thrombocytopenia syndrome (TTS), and myocarditis/pericarditis, after COVID-19 vaccination have been reported worldwide. Study hypothesis: there are genetic factors that contribute to increased risks of particular COVID-19 vaccine-induced adverse events. The objective of the study is to determine if there are specific genetic factors strongly associated with each of the COVID-19 vaccine-induced adverse events (i.e., GBS, VITT/TTS, and myocarditis/pericarditis).

aim of this research is to evaluate the effects of FFP2/N95 masks on peripheral oxygen saturation and pulse rate in dental professionals

NEUROCOVID is a prospective multicenter study comparing the proportion of patients with SARS-CoV-2 viral RNA at the level of the olfactory clefts in a group of cases compared to a group of controls as well as the correlations between the virological and cellular abnormalities observed in the olfactory mucosa and the severity of the clinical neurological profile

Hypotheses: Severe new-onset headache after Covid-19 vaccine occur in a minor subset of vaccinated individuals. Immunological reactivity with activation of trigeminal nociceptors can be among the mechanisms in severe headaches after Covid-19 vaccines. Biomarkers in blood and CSF and imaging findings can be used to assess severe new-onset headache after Covid-19 vaccines. The main aim of the project is to describe the characteristics of severe new-onset headache after Covid vaccine and the treatment effects. Secondary aim: Investigate potential mechanisms and analyse biomarkers to predict treatment effects. To assess at baseline and 6-month follow-up the rate of brain MRI pathology. To assess the change xof brain 18F-FDG PET metabolism from baseline and 6-month follow-up To assess the levels of brain specific biomarkers To assess the level of blood specific biomarkers Duration of Study participation: Enrollment: 24 months Follow-up: at 3 and 6 months after inclusion. For those with continued severe headache regular 3-month controls are planned during the study. Total study duration 24 months

A Clinical Study to Evaluate the Safety and Immunogenicity of Sequential Immunization of Recombinant SARS-CoV-2 Fusion Protein Vaccine (V-01) in Healthy Adults Aged 18 Years and Older After the Vaccination of 2 Doses of Inactivated Vaccines

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a novel coronavirus causing coronavirus disease 2019 (COVID-19), which has been a global pandemic since March 2020. According to WHO, more than 289 million cases have been confirmed worldwide, with just over 5.4 million reported deaths as of January 2022. SARS-CoV-2 variants continue to emerge, with the omicron variant causing the increased surge in cases. Currently, Johns Hopkins University of Medicine reports a case fatality rate of 1.5% for the United States. COVID-19 infections may be asymptomatic in some cases, while most cases cause mild to moderate illness with respiratory and flu-like symptoms. However, a significant number of COVID-19 cases develop severe life-threatening illness involving severe pneumonia and acute respiratory distress syndrome (ARDS), requiring admission to the intensive care unit (ICU) Although there have been breakthroughs in the treatment for COVID-19, most of these are directed at mild-to-moderate disease rather than patients with severe disease on mechanical ventilators. There is still a need for novel and effective treatment options in severe COVID-19 illness with continued vaccine hesitancy, decreased social distancing, and new emerging variants. Centhaquine is a first-in-class resuscitative agent for the hypovolemic shock that is approved for marketing in India. Centhaquine has been found to be an effective resuscitative agent in rat, rabbit, and swine models of hemorrhagic shock. Its safety and tolerability have been demonstrated in a human phase I study in 25 subjects (CTRI/2014/06/004647). Clinical phase II (CTRI/2017/03/008184) and phase III (CTRI/2019/01/017196) results indicate that centhaquine is a novel first-in-class, highly effective resuscitative agent for hypovolemic shock. Centhaquine provided hemodynamic stability and significantly improved acute respiratory distress syndrome (ARDS) and multiple organ dysfunction score (MODS) in clinical trials conducted in India. A total of 155 patients with hypovolemic shock have been studied (combined phase II and III). Centhaquine is safe and reduced the mortality from 10.71% in patients receiving standard treatment to 2.20% in patients that received centhaquine (odds ratio 5.340; 95% CI 1.270-26.50; P=0.0271). In a phase 3 study of hypovolemic shock, ARDS and MODS were secondary endpoints, and centhaquine reduced both with a significant p-value.