View clinical trials related to SARS-CoV-2 Infection.
Filter by:The objective of the study is to evaluate the immunogenicity and safety of SCTV01C or SCTV01E, comparing the immunogenicity data against Beta (B.1.351), Delta (B.1.617.2), Omicron (B.1.1.529) and other variants with Sinopharm inactivated COVID-19 vaccine or mRNA vaccine.
This is a Randomized, Double-blinded, Active-controlled Study to evaluate the Safety, Tolerability and Immunogenicity of VLA2001 in participants of ≥2 to 12 years. In total 1720 participants will receive either VLA2001 or active Comparator.
The AIDI study has to phases. It's purpose is to capture vital signs using a non-invasive, hand-held, home monitoring device (MouthLab Device) from individuals with COVID-19 or who test positive for SARS-CoV-2 (Phase I) and use an algorithm-based approach to identify individuals at risk of clinical decompensation (Phase II). Up to 500 unvaccinated and partially vaccinated subjects will be included (up to 100 in Phase I and up to 400 in Phase II).
Adaptive Biotechnologies has developed a clinical test called T-Detect COVID Test that can identify a T-cell response to the SARS-CoV-2 virus, indicating recent or prior infection This study aims to evaluate the potential cross-reactivity of the T-Detect COVID test in participants presenting with viral upper respiratory tract infections within the assay's intended use population and testing positive for seasonal coronavirus.
This study is designed to test the efficacy and safety of combinations of two well-understood agents - famotidine and celecoxib in patients hospitalized with moderate-to-severe COVID-19 (based on World Health Organization [WHO] Ordinal Scale for Clinical Improvement). Both famotidine and celecoxib separately demonstrate clinical activity in mitigating COVID-19 disease symptoms or severity, and appear to have separate and complementary mechanisms of action.
Months after seemingly recovering from COVID-19, many patients continue to suffer from major long-term effects. Interestingly, the existence of direct link between the severity of the disease in its acute phase and the severity of the long-lasting symptoms is uncertain. We aim at characterizing the long term outcomes in patients hospitalised for COVID-19 including symptoms, medical history, persistent organ damage and neurological and behavioural sequelae.
The most recently discovered coronavirus (SARS-CoV-2) may cause illness in humans ranging from the common cold to serious illness, also referred to as Coronavirus disease 2019 (COVID-19). As of January 2021, there are only few authorized vaccines available for the prevention of COVID-19. "CVnCoV" is a new SARS-CoV-2 messenger ribonucleic acid (mRNA) vaccine which is currently being developed for the prevention of COVID-19. The vaccine contains a molecule called mRNA which serves as an instruction manual for the cells in the body to produce a piece of protein from SARS-CoV-2 which activates the body´s defense system. The "CVnCoV" vaccine is injected into the muscle. After the injection, the body recognizes the protein as something that does not belong there. In this way the natural infection with the virus is imitated. The body activates immune cells to produce antibodies against the virus and creates specific immune cells called T cells. "CVnCoV" is given in two doses separated by 28 days. In this study, the researchers will look at how well "CVnCoV" works when the first of the two doses is given together with a flu vaccine called seasonal quadrivalent influenza vaccine (QIV). They will also look at how well the flu vaccine works under these conditions. The QIV is injected into the muscle and is given as 1 dose. To see how well the participants' immune systems is activated by "CVnCoV" and QIV, the researches will measure the levels of specific antibodies against the viruses in the blood. Antibodies are proteins that allow the immune system to find and react to bacteria and viruses in the body. The researches will look into how safe the vaccination is and which type and degree of typical vaccination reactions are seen. To give "CVnCoV" and the flu vaccine together in the future when needed, e.g. during the flu season, would reduce the burden on the health system and on the patients. Participants in this study are adults aged 60 years and older. In this study, participants are assigned to one of the two parallel groups of the same size. The assignment to either group is done by chance via a computer program. Participants in group 1 (Co-ad group) will receive CVnCoV at the same visit as QIV. Participants in group 2 (control group) will receive QIV and CVnCoV at two different visits. The Co-ad group will receive the first dose of CVnCoV and a dose of QIV in opposite arms at Day 1, the second dose of CVnCoV at Day 29, and a placebo injection, i.e. an injection that looks like a vaccination injection but does not contain vaccine, at Day 57. The control group will receive QIV and placebo in opposite arms at Day 1, the first dose of CVnCoV at day 29 and the second dose of CVnCoV at Day 57. There will be five visits and four phone calls. During the study, the study team will take blood samples on four occasions to measure the antibodies against SARS-CoV-2, and nasopharyngeal swabs at 1 occasion. The physicians will do physical examinations at each visit. The participants will be asked how they are feeling and if they have any medical problems. They will, in addition, receive an electronic Diary to report medical problems.
The coronavirus disease-2019 (COVID-19) is spreading throughout the United States. While there are no known therapies to treat those who have become sick, there have been some reports that a medication currently used to treat rheumatoid arthritis, lupus, and malaria (Hydroxychloroquine sulfate, also known as Plaquenil) may help to lessen the chance or severity of illness, especially if combined with a medicine that treats other kinds of infections (Azithromycin, also known as Zithromax or Zmax or Zpak). There are some people who test positive for the virus but who are otherwise not ill. Current standard of care is to advise these people to self-monitor but no treatment is offered. It is not known how many of these individuals will remain symptom free, and how many will become sick or how severe those symptoms will be. This study will randomize those people who do not have symptoms into one of three treatment plans 1) Hydroxycholoquine and Azithromycin, or 2) no active medication (placebo). All participants will be followed for 2 months. The study will determine if there is any benefit to those who are asymptomatic to taking taking Hydroxychloroquine sulfate in combination with Azithromycin, or if there is no benefit from taking these medications.