View clinical trials related to Covid19.
Filter by:The Covid-19 pandemic requires a reliable diagnosis of patients in order to take care of them in the best conditions and in the appropriate services. Moreover, the current diagnostic reference is reverse transcription by polymerase chain reaction (RT-PCR) on a nasopharyngeal sample taken by swab. This technique is expensive (54€) and its production time is several hours. Alternative methods are in progress, including, rapid diagnostic tests. The MEMS microfluids and nanostructures (MMN) laboratory, in partnership with the Institut Chimie Biologie Innovation (CBI) (Paris, 75005), have developed a portable test "COVIDISC", low-cost (10 €), fast (1 hour), including extraction, elution and amplification in solid medium isothermal, reverse amplification loop mediated transcription (RT-LAMP). The "lab" version has received an analytical validation on human nasopharyngeal samples with performance comparable to classic RT-PCR (sensitivity of 7 copies per μl, specificity 100%). The objective of this study is to validate the in vitro diagnostic medical device, COVIDISC, with the standard nasopharyngeal RT-PCR test.
The study is designed to demonstrate suitability of the Dräger Antigen Test for SARS-CoV-2 detection in clinical nasal specimens. Real-time polymerase chain reaction (RT-PCR) on specimens collected by pharyngeal swabs serves as a reference method.
The spectrum of coronavirus disease 2019 (COVID-19) ranges from asymptomatic infection to acute respiratory distress syndrome ("ARDS") and patient death. Severely affected patients may develop a cytokine storm-like clinical syndrome with high mortality. Laboratory tests in these patients show an excessive and uncontrolled immune response with consecutive multi-organ failure. In addition, there is evidence for the development of prothrombotic autoantibodies as an epiphenomenon of "Severe Acute Respiratory Syndrome Coronavirus 2" (SARS-CoV-2) infection. Therapeutic plasma exchange ("TPE") is being discussed as a therapeutic alternative in patients with severe, refractory COVID-19. The idea is that plasma exchange eliminates both endogenous and exogenous inducers of an exuberant inflammatory response as well as prothrombotic factors, thus breaking the secondary vicious circle of SARS-CoV-2 infection. In general, TPE is a safe procedure with known efficacy in other severe viral diseases as well as in cytokine storm-like diseases and ARDS of other geneses. Moreover, initial data, mostly derived from case studies, demonstrate promising therapeutic efficacy of TPE in severe COVID-19 courses with previously lacking treatment options. To further evaluate the therapeutic efficacy of TPE in severe COVID-19, a prospective randomized controlled trial of TPE in severe SARS-CoV-2 infection is being conducted at our center. Patients will be randomized to a control group (standard therapy according to center standards) and a therapy/intervention group (standard therapy + TPE).
To explore the efficacy and confirm the safety of the concomitant administration of the standard of care and hzVSF-v13 in patients with COVID-19 infection
This is a randomized, multicenter, placebo-controlled, double-blind clinical study in patients hospitalized due to severe Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) infection.
This is a Phase 2, randomized, placebo-controlled, and observer-blind study in healthy adults. The study will evaluate the safety, tolerability, and immunogenicity of the SARS-CoV-2 RNA vaccine candidate against COVID-19: As 2 doses (at two different dose levels), separated by 28 days or as 1 dose In adults 18 years of age and older
This multi-center, open-label, 2 arm parallel-group, randomized, interventional prospective exploratory study in 40 patients aimed to evaluate safety and explore putative clinical benefits of Silmitasertib 1000 mg BID dose in patients with severe illness caused be SARS-COV-2. This will be a two-arm trial comparing the SOC/best supportive care alone to the SOC/best supportive care with addition of Silmitasertib (allocation ratio 1:1).
Background: Some people who have had COVID-19 experience changes in the eye. Sometimes these changes are subtle and may not affect vision. Researchers want to learn how many people experience these eye changes and where in the eye they occur to better understand the outcomes of COVID-19 and its treatments. Objective: To examine possible changes in the eye that might have occurred as a result of COVID-19. Eligibility: Adults age 18 and older who were diagnosed with COVID-19 and recovered. Design: Participants will be screened with a medical history and physical exam. They will have blood tests. Participants will have an eye exam. Their pupils will be dilated with eye drops. Eye pressure and movements will be measured. Participants will have optical coherence tomography. Pictures will be taken of the retina and the inside of the eyes. Participants may have fluorescein angiography and indocyanine green angiography. They will be given a dye through an intravenous line. The dye will travel up to the blood vessels in their eyes. Pictures will be taken of the dye as it flows through the blood vessels. Participants may have electroretinography to test the retina. They will sit in the dark with their eyes patched for 30 minutes. Then they will watch flashing lights while wearing contact lenses that sense signals from the retina. Participants may have adaptive optics-assisted imaging. They will look at a specific location while images are taken of the retina. During the study, participants will have blood drawn through a needle in their arm. Fluid or tissue from the eye may be obtained if participants have a medically needed procedure. Participation will last for 12 months.
Respiratory infections such as colds, flu and pneumonia affect millions of people around the world every year. Most cases are mild, but some people become very unwell. Influenza ('flu') is one of the most common causes of lung infection. Seasonal flu affects between 10% and 46% of the population each year and causes around 12 deaths in every 100,000 people infected. In addition, both influenza and coronaviruses have caused pandemics in recent years, leading to severe disease in many people. Although flu vaccines are available, these need to change every year to overcome rapid changes in the virus and are not completely protective. This study aims to find and develop predictive tests to better understand how and when flu-like illness progresses to more severe disease. This may help to decide which people need to be admitted to hospital, and how their treatment needs to be increased or decreased during infection. The aim is to recruit 100 patients admitted to hospital due to a respiratory infection. It is voluntary to take part and participants can choose to withdraw at any time. The study will involve some blood and nose samples. This will be done on Day 0, Day 2 and Discharge from hospital, and an out-patient follow-up visit on Day 28. The data will be used to develop novel diagnostic tools to assist in rational treatment decisions that will benefit both individual patients and resource allocation. It will also establish research preparedness for upcoming pandemics.
The overall objective of this study is to efficiently evaluate the clinical efficacy and safety of different investigational therapeutics among adults who have COVID-19 but are not yet sick enough to require hospitalization. The overall hypothesis is that through an adaptive trial design, potential effective therapies (single and combination) may be identified for this group of patients. COVID-19 Outpatient Pragmatic Platform Study (COPPS) is a pragmatic platform protocol designed to evaluate COVID-19 treatments by assessing their ability to reduce viral shedding (Viral Domain) or improve clinical outcomes (Clinical Domain). To be included into the platform, every investigational product will collect data for both Domain primary endpoints. Individual treatments to be evaluated in the platform will be described in separate sub-protocols.