View clinical trials related to Covid19.
Filter by:This is a Phase 3, randomized, observer-blind study in healthy individuals. The primary study will evaluate the safety, tolerability, and immunogenicity of the SARS-CoV-2 RNA vaccine candidate (BNT162b2): - As a 30-microgram dose, administered from 1 of 4 manufacturing lots (batches) - As a 20-microgram dose, administered from 1 of the manufacturing lots - As a 2-dose (separated by 21 days) schedule - In people 12 through 50 years of age The booster study will evaluate the safety, tolerability, and immunogenicity of 2 SARS-CoV-2 RNA vaccine candidates (BNT162b2 and BNT162b2.B.1.351): - Each as a 30-microgram dose - Each as a 1-dose booster vaccine, administered approximately 3 months after Dose 2 - In people 18 through 50 years of age
The novel coronavirus (COVID-19) pandemic has caused an unprecedented stress on healthcare systems in affected countries, and in particular, on the healthcare workers at the frontline working directly with COVID-19 positive patients. Numerous lines of evidence support the damaging impact of stress on our immune systems which increases susceptibility to infection. Yet, the accurate measurement of immediate stress responses in real time and in naturalistic settings has so far been a challenge, limiting our understanding of how different facets of acute or sustained stress increases susceptibility. This study utilizes wearable technologies including an Oura smart ring as well as semi-continuous passive and active biometric measurements carried out using individuals' own smartphones equipped with applications to track and transmit key data to measure frontline workers stress and recovery during a uniquely stressful and high-risk work environment.
In order to control the COVID-19 pandemic, a policy for the diagnosis and screening of people likely to be infected with SARS-CoV-2 has been established The reference diagnostic test is RT-PCR on nasopharyngeal swab. Nasopharyngeal swabbing requires training, generates a risk of aerosolization and therefore viral transmission to the operator, and is unpleasant or even painful for the patient. RT-PCR is efficient, but time-consuming. It is therefore necessary to consider techniques that are less subject to difficulties of production and sampling, and less time-consuming. Tandem mass spectrometry on saliva samples is a promising option. A combined "mass spectrometry/saliva test" should provide faster results.
TAK-019 is a vaccine in development to protect people against Covid-19. The main aims of the study are to learn if TAK-019 can protect people from Covid-19 and to check for side effects from TAK-019. At the first visit, the study doctor will check if each person can take part. Those who can take part will be chosen for 1 of 2 treatments by chance. Participants will either receive an injection of TAK-019 or a placebo in their arm. In this study, a placebo will look like the TAK-019 vaccine but will not have any medicine in it. 3 times as many participants will receive TAK-019 than placebo. Participants will receive 2 injections of TAK-019 or placebo, 21 days apart. Participants will be asked to record their temperature and any medical problems in an electronic diary for up to 7 days after each injection. During the study, participants will visit the clinic for regular check-ups, blood tests, and sometimes for nose swab samples. When all participants have attended a clinic visit 28 days after their 2nd injection, the study sponsor (Takeda) will check how many participants have made enough antibodies to protect them against Covid-19. The participants will stay in the study for up to 12 months after they have had their 2nd injection. During this time, the study doctors will continue to check how many participants have made enough antibodies to protect them against Covid-19. Also, they will check if participants have any more side effects from TAK-019 or the placebo.
This study aims to improve the personal protective equipment (PPE) used while treating patients with COVID-19, to protect staff and avoid cross-infection of patients. Protecting staff from infection during the Covid pandemic is critical to maintaining health services. Mistakes in using protective equipment (PPE) are the commonest avoidable factor in staff becoming infected at work. Recently, intensive care doctors have also reported an increase in the spread of dangerous multi-resistant bacteria between patients, which appears likely to be transmitted between patients by Level 2 PPE worn by staff (specifically gown sleeves). This study therefore seeks to develop and test a new protocol to decrease cross-infection risks whilst using Level 2 PPE.
COVID-19 is affecting the people around the world and the infected individuals' may either stay asymptomatic or present to hospitals with severe distress and life threatening symptoms. The objective of the study is to investigate role of Prone positioning and alternate nostril breathing in patients with Covid-19.
Olfactory dysfunction is a defining symptom of COVID-19 infection. As the number of total, confirmed COVID-19 cases approached 19 million in the United States, it is estimated that there will be 250,000 to 500,000 new cases of chronically diminished smell (hyposmia) and loss of smell (anosmia) this year. Olfactory dysfunction is proposed to worsen numerous common co-morbidities in patients and has been shown to lead to a decreased quality of life. There are very few effective treatments for hyposmia or anosmia, and there is no gold standard of treatment. One proposed treatment option is smell training, which has shown promising yet variable results in a multitude of studies. It garners its theoretical basis from the high degree of neuroplasticity within the olfactory system, both peripherally and centrally. However, due to a relative inadequacy of proper studies on olfactory training, it is unknown what the most efficacious method in which to undergo the training is. This study proposes two novel procedural modifications to smell training in an attempt to enhance its efficacy. The investigators propose using a bimodal visual-olfactory approach, rather than relying on olfaction alone, during smell training, as well as using patient-preferred scents in the training that are identified as important by the study participant, rather than pre-determined scents with inadequate scientific backing. The investigators hypothesize that by utilizing bimodal visual-olfactory training and patient-selected scents, the olfactory training will be more efficacious and more motivating for participants.
The aim of the study is to achieve prevention of COVID-19 disease in healthcare professionals with the administration of the IMUNOR® preparation, and decreasing the symptoms should the disease appear.
Acute respiratory failure due to COVİD-19 pneumonia has poor prognosis and high mortality . Both the lack of an effective antiviral treatment and the low level evidence of the recommendations presented in the guidelines on other treatment methods have highlighted supportive treatments. Studies suggest that high-dose vitamin C treatment reduces mortality in patients with sepsis and ARDS, and may also be beneficial in COVİD-19 disease. In the study; the investigator aimed to determine the effect of Vitamin C on short-term mortality and length of intensive care stay in COVID-19 patients.
Maraviroc (MVC) is a drug, very well tolerated, it has been seen that MVC has properties of modulating the immune system, exerting an anti-inflammatory effect in different diseases. In COVID-19, very high levels of inflammation occur that cause organs and systems to be damaged. MVC could reduce this inflammation achieving a better prognosis of COVID-19.