Active clinical trials for "COVID-19"

The ongoing Coronavirus Disease 2019 (COVID-19) pandemic has been intensified by no population-based immunity to the severe acute respiratory disease coronavirus 2 (SARS-CoV2) and initially lack of effective treatments or vaccines available to mitigate the pandemic. Currently, two COVID-19 vaccines are available for vaccination in Europe through conditional marketing authorisation granted by the European Medicines Agency and further vaccine will be licensed. These vaccines have shown good vaccine efficacy in phase 3 vaccine trials. We will recruit subjects who will be prioritised for vaccination with the primary aim of comparing the immune responses after COVID-19 vaccination and natural SARS-CoV-2 infection. In Western Norway we have recruited cohorts of health care workers and patients infected with SARS-CoV-2 and will extend to COVID-19 vaccinees. Demographic, clinical data and repeated blood samples will be collected to evaluate the complications and kinetics, duration and breadth of the immune responses comparing natural infection to vaccination.

This Phase 2/3 study is a multi-portion design to confirm that the chosen formulation and dosing regimen of CoVLP has an acceptable immunogenicity and safety profile. The Phase 3 portion is an event-driven, randomized, observer blinded, placebo-controlled design that will evaluate the efficacy and safety of the CoVLP formulation compared to placebo. Subjects will be followed for safety and immunogenicity for a period of 12 months after the last vaccination.

On 30 January 2020, WHO declared the SARS-CoV-2 outbreak as a public health emergency of international concern. Compared to SARS-CoV, which caused an outbreak of SARS in 2003, SARS-CoV-2 has a higher transmission capacity. Although the clinical manifestations of SARS-CoV-2 are dominated by respiratory symptoms, some patients have severe cardiovascular damage. In addition, patients with underlying cardiovascular disease may be at increased risk of death. Therefore, understanding the impairments caused by SARS-CoV-2 to the cardiovascular system and the underlying mechanisms is of the utmost importance. Circulating endothelial cells (CECs) are generally considered markers of lesions and may be non-invasive markers of pulmonary vascular dysfunction during SARS-CoV-2 infection. Another marker of endothelial activation could be circulating extracellular vesicles. They could also be involved in the spread of the virus. Thus this project proposes to study different aspects of the diagnosis and pathophysiology of SARS-CoV-2. We propose to fully study activation state of coagulation and endothelium on a plasma and cellular side in patients diagnosed with SARS-CoV-2/COVID19. The different forms of the disease will be included: without lung disease, with a more or less severe lung disease, i.e. having evolved or not towards acute respiratory distress syndrome (ARDS). Extensive research of biomarkers will be compared to the detection of the virus in the respiratory tract as well as in the blood. This work will contribute to a better description of disease pathophysiology and should allow us to identify a patient profile in whom preventive or curative anticoagulant therapy could be considered.

Background: The immune response is how the body recognizes and defends itself against foreign and harmful substances. Researchers want to compare the immune responses between young and older healthy adults after they receive vaccine doses for COVID-19. This research may help to determine whether age impacts cell response to COVID-19 vaccines. Objective: To study the immune response of people who receive Pizer or Moderna COVID-19 vaccines. Eligibility: People aged 18 and older who have not had COVID-19 and who either plan to receive the first dose of a COVID-19 vaccine within the next month or have received at least the first of 2 doses of the vaccine within the last 6 months. Design: Participants will be screened by telephone. Participants will not get the COVID-19 vaccine in this study. They must get it through a vaccine location. Participants who have not yet been vaccinated will have 7 visits. The first 4 visits will occur in the first month before and after each vaccination. The last 3 visits will occur 6 months, 1 year, and 2 years after completed vaccination. Participants who have received at least 1 of 2 doses of the COVID-19 vaccine within the last 6 months will have 3 visits. The first visit will occur within 6 months of receiving the first vaccine dose. The last 2 visits will occur 1 year and 2 years after the first vaccine dose. At visits, participant will review their medical history. Their height, weight, and/or vital signs will be measured. They will give blood samples after fasting. They may give urine samples. They may have a nasal swab test for COVID-19.

The main goals of this study are to assess the immune response and safety of two different vaccines for first, second, third and fourth doses as well as for differing intervals between the first and second dose of two-dose vaccines.

The purpose of this study is to compare the risks of COVID-19 in individuals from Chicagoland communities randomized to low (400 IU/day) vs. moderate (4,000 IU/day) or high (10,000 IU/day) dose vitamin D.

phase I study will evaluate safety and immunogenicity of a recombinant SARS-CoV-2 vaccine (CHO cell) in Chinese healthy population aged 3 years and older. 300 subjects will be enrolled and divided into 5 age groups: 18-59 years old group, 60-69 years old group, ≥70 years old group, 9-17 years old group and 3-8 years old group. In each group, there are two regimen cohort: low-dose at 0,30, 60 schedule and high-dose at 0,30,60 schedule. The subjects in regimen cohort will be randomized to receive vaccines or placebos at a ratio of 2:1. Phase II clinical study will explore dose and immunization procedures in 5 age groups, including 18-59 years old group, 60-69 years old group, ≥70 years old group, 9-17 years old group, and 3-8 years old group, with a total of 3280 subjects.

Through SARS-CoV-2 IgG testing of PCR positive and negative cases the study will follow the COVID-19 immune response by monitoring the SARS-CoV-2 IgG antibody levels over a period of two years. Further, risk factors will be identified by the use of the test-negative design including population controls, allowing comparison of participants with positive and negative tests, and with population controls (triangulation). Special emphasis will be on high risk groups in general and on different occupational, environmental and socio-economic groups in particular. Finally, severity of illness, deaths and the use of health care during will be assessed using national register data from Telemark and Agder.

Since initial reports of a novel coronavirus emerged from Hubei province, China, the world has been engulfed by a pandemic with over 3 million cases and 225,000 deaths by 30th April 2020. Health care systems around the world have struggled to cope with the number of patients presenting with COVID-19 (the disease caused by the SARS-CoV-2 virus). Although the majority of people infected with the virus have a mild disease, around 20% experience a more severe illness leading to hospital admission and sometimes require treatment in intensive care. People that survive severe COVID-19 are likely to have persistent health problems that would benefit from rehabilitation. Pulmonary rehabilitation (PR) is a multidisciplinary program which is designed to improve physical and social performance and is typically provided for people with chronic lung conditions. PR courses typically last 6-12 weeks with patients attending classes once or twice weekly and consist of exercise and education components. PR is known to improve symptoms (e.g. breathlessness), quality of life and ability to exercise in those with lung conditions. Breathlessness is a very common symptom reported by people presenting to hospital with COVID-19 and loss of physical fitness will be very common. Using existing pulmonary rehabilitation programmes as a model, we have developed a tele-rehabilitation programme (a programme that will be delivered using video link to overcome the challenges faced by social distancing and shielding advice) for people that have been critically ill with COVID-19. In order to prove whether people benefit from this tele-rehabilitation programme after being admitted to hospital following COVID-19 we would need to perform a large clinical trial. However, before doing this it is important for us to answer some key questions: How many people that have been admitted to hospital and needed intensive care treatment for COVID-19 still report breathlessness, fatigue, cough and limitation of activities after being discharged from hospital? Is it possible to recruit these people to a trial of tele-rehabilitation after hospital discharge? Are people willing and able to perform tele-rehabilitation in their own home using video-link to connect with their therapist? Are there other rehabilitation needs that are commonly encountered by people requiring intensive care treatment for COVID-19 that could be addressed by tele-rehabilitation that the programme doesn't currently address? Investigators will perform a small study called a feasibility trial to answer these questions and gather some early information about possible benefits of tele-rehabilitation. Based on our understanding of other similar diseases, doctors and therapists think that people will benefit from rehabilitation after COVID-19. The investigators therefore want to test a trial design that makes sure that everyone gets the treatment. This type of trial is called a feasibility, wait-list design randomised controlled trial. People with breathlessness and some limitation of activities will be selected at random to receive tele-rehabilitation within 2 weeks or to wait 6-8 weeks before starting. how many people were eligible to take part, how many agreed to take part and the symptoms and rehabilitation needs that they have will be assessed. Investigators will then monitor symptoms and ability to exercise at the start and end of the trial and before and after tele-rehabilitation.

Neurologic, neuropsychological and neuropsychiatric symptoms, signs and diagnoses are increasingly being reported in COVID-19 patients. However, the extent and implications of such "NeuroCOVID" involvement, as well as blood and MRI biomarkers for neurological and psychiatric COVID-19-affection and treatments, warrants further studies. The investigator will perform a national study with clinical and biomarker assessments of NeuroCOVID in approximately 150 Norwegian patients, recruited from ongoing COVID-studies in Norway as well as from neurological departments in Norway. The investigator will define the burden of neurological, psychological and psychiatric complications of COVID-19 disease and identify clinical characteristics and biomarkers for both short- and long-term neurological treatment and rehabilitation. Blood samples for biomarker analyses, brain MRI, clinical neurological, neurophysiological and neuropsychological assessments will be performed at 6 and 12 moths after acute disease,