View clinical trials related to Covid19.
Filter by:A 4-week treatment of essential amino acids or placebo to participants with: 1) negative COVID-19 test with exposure, or 2) positive COVID-19 test and no or mild symptoms. The study team will measure change in symptoms. Participants will complete symptom surveys for 4 weeks and once at 8 and 12 weeks as well as pre- and post-assessments.
Patients on haemodialysis are at higher risk of getting a severe form of COVID-19 if they become infected. Vaccinations are soon to arrive and offer great hope of controlling the current pandemic. It is likely that patients on haemodialysis will be amongst the first people to be offered vaccination against COVID-19 when they become available. While any vaccines offered to these patients will be safe to receive, the effectiveness of the vaccines at giving immunity to being infected with COVID-19 are not known as they have not been explicitly tested in patients on haemodialysis. This study will involve having 3 blood tests to test for an antibody response following vaccination for COVID-19. The first will be 1 month after the first vaccination dose to look at the initial antibody response and the second and third will be 1 month and 6 months after the second vaccination dose.
The data were retrospectively collected during the first and the second wave of epidemic in COVID-19 patients with Severe Acute Respiratory Syndrome Coronavirus 2, at the moment of intensive care unit admission and during the in intensive care unit staying.
This is a single center, single arm exploratory imaging study involving up to two intravenous microdoses of [18F]F-AraG (the second tracer dose is optional) followed by whole-body PET-CT imaging in participants with convalescent COVID-19. Up to 20 participants will be enrolled over an accrual period of approximately 24 months. Each participant will undergo one PET-CT scan following 50 +/- 10 minutes uptake following a single bolus injection of [18F]F-AraG in order to determine the tissue distribution of tracer in pariticpants with recent SARS-CoV-2 infection. A second optional [18F]F-AraG dose and PET-CT will be offered approximately 4 months following the initial imaging time point.
Post-marketing study, Chotor study of COMIRNATY vaccenees followed for 11months. Serious adverse events and COVID-19 observed during the follow-up period will be collected, and the long-term safety of this product will be assessed.
This observational clinical study aims to evaluate the presence of symptoms of COVID-19 infection in patients who participated in K031-120 or K032-120 ("long hauler").
This is prospective, observational study using point of care test to determine bio-ADM whole blood concentrations and its predictive value in patients with COVID-19 treated in the ICU.
Uptake of vaccination against COVID-19 is key to controlling the pandemic. However, a significant proportion of people report that they do not intend to have a vaccine, often because of concerns they have about its side effects or safety. It is important to identify ways to communicate information about the vaccines that facilitate informed decisions rather than promoting uptake through coercion. This study will assess whether theory-based messages can change beliefs and increase intentions to receive a COVID-19 vaccine in Scotland. The messages will be based on publicly available information about the need for COVID-19 vaccination and the safety of the vaccines, and structured to address specific types of treatment beliefs. Participants will be randomised to either a group shown the messages or a control group shown general information messages about the COVID-19 virus and vaccination programme. By comparing the two groups we aim to test what impact the theory-based messages have on intentions and beliefs about COVID-19 vaccination.
The ongoing corona virus disease 2019 (COVID-19) is a viral acute respiratory tract infection caused by server acute respiratory syndrom coronavirus typ 2 (SARS-CoV-2). The signs and symptom of SARS-CoV-2 infection vary and most people with COVID-19 experience illness of mild or moderate severity and recover with symptomatic treatment outside of hospital. Studies have found that some people experience lingering/long-lasting symptoms and only a minority of patients were completely free from COVID-19 related symptoms after two months. About one third still had up to two residual symptoms and 55% had three or more. As far as we know no study on lingering symptoms has been published in patients after a mild or moderate infection managed in primary care settings. The aim of this study is to explore the course of disease over a one year period and describe lingering symptoms and their impact on well-being and daily activities in adult non-hospitalized patients with previous established COVID-19 infection.
The outbreak of the novel coronavirus (SARS-CoV-2)-infected disease (COVID-19) began in December 2019, spread throughout China in early 2020 and developed as a pandemic thereafter. Based on current knowledge, Covid-19 infection causes mild to moderate respiratory and gastrointestinal symptoms in the majority of patients. In a smaller percentage severe disease courses are observed, often with the need of hospitalization and intensive care treatment. Apparently, symptoms can persist for relatively long time after viral clearance, suggesting the existence of a "Post-Covid" syndrome. A study from the UK identified fatigue, breathlessness and psychosocial stress as common symptoms after discharge from the hospital. Covid-19 infection is frequently characterized by a hyperinflammatory phenotype and a cytokine storm. The Covid-19 cytokine storm is characterised by rapid proliferation and hyperactivation of T cells, macrophages, mast cells, neutrophil granulocytes and natural killer cells, and the overproduction of inflammatory cytokines and chemical mediators released by immune or nonimmune cells. Early data also suggest that even if symptoms are just 'mild to moderate' during the acute infection, fibrotic lung damage develops in some patients. This may lead to long-term pulmonary complications for a subset of patients. The mechanisms for post-Covid pulmonary fibrosis are still unclear: inflammation triggering fibrosis, epithelial and endothelial injury with inadequate fibroproliferation and vascular damage are considered to be possible mechanisms. A potential therapeutic target in ameliorating post-Covid symptoms could be the gut microbiome. Gut microbiome alterations have been described in Covid-19. The gut-lung axis as a link between dysbiosis, barrier dysfunction, translocation of bacterial products and hyperinflammation has been proposed as a potential therapeutic target. Probiotics have been proposed to be a possible modulator of the deranged gut-lung axis in Covid-disease and post-Covid syndrome. Currently 11 studies are registered in clinicaltrials.gov for treatment of acute Covid disease and prevention of the disease (including one study from Graz), but no study related to post-Covid syndrome could be found. Therefore, it is currently unclear, which clinical, immune system or microbiome related biomarker would be the best to study the effect of a microbiome-based intervention in post-Covid syndrome.