View clinical trials related to Covid19.
Filter by:The current standard of care for diagnostic of SARS-CoV-2 infection involves sample collection which is then prepared and measured via real time-polymerase chain reaction (RT-PCR). This process is time consuming and dependent on expensive instrumentation and trained technicians to perform both the sample preparation and assay. In many cases, sample turn-around times can take hours to several days. There are no established monitoring nationwide protocols for COVID-19 prevention of infection. Due to the lack of such protocols, this study will provide the proper experience to design a safe monitoring schema of asymptomatic cases of COVID-19. Self-testing using currently available RDT has a high specificity and relatively high sensitivity to identify individuals with a high probability of contagiousness. Therefore, we intend to use these RDT (Rapid diagnostic tests) for other use. There are several studies that point to the importance of the use of RDTs to monitor COVID-19 (3). The recent metadata indicate that the performance of the antigen test is crucial for obtaining good results to detect positive cases. We have already validated in the laboratory and using relevant clinical samples several different labels of antigen tests and we have compared them with already approved USA FDA antigen tests to confirm their performance prior to using them in this study. This project aims to monitor once a week the presence of SARS CoV-2 antigens using anterior nares (AN) swab self-process, executing the test and recording of the result, immediately after. The lack of affordable diagnostic tests which can detect the presence of SARS-CoV-2 in the general population which can give near real-time results is one critical missing control intervention in USA for the control of the pandemic and the spread of this disease. As public health restrictions begin to ease and people return to normal activities, while the COVID-19 pandemic is still a threat, a rapid diagnostic assay that does not require the sophisticated laboratory equipment and techniques could provide a significant advantage to screen asymptomatic individuals. The routine use of such rapid tests is a key element to show efficacy of protocol. We adjusted to once a week testing based on the medium to low risk of the elderly population of this study. The list of rapid nucleoprotein tests utilized in the current study are: NETO Corona test, Novir INSTA-TM COVID-19 Rapid Antigen test, COVICHEK COVID-19 Ag Test, SpectraBiotech COVID-19 track antigen test, Blandford Biotech AS-15™ Rapid Antigen Detection Kit SARS-CoV-2 Test (Colloidal Gold Method), Abbott BinaxNow tests. BACKGROUND The SARS-CoV-2 Direct Antigen Rapid Test ("Lateral flow") is an immunoassay developed for the qualitative detection of SARS-CoV-2 viral particles/secreted protein in anterior nasal swabs and/or saliva samples from both asymptomatic and suspected participants with COVID-19 infection. Lateral flow strips are printed with a monoclonal antibody that binds the signature SARS-CoV-2 viral particles/protein (Test line) and a control antibody (Control line) for quality control. A second monoclonal antibody is attached to gold nanoparticles (conjugate) and quencher buffer, and mixed with the nasal sample. The SARS-CoV-2 nucleocapsid protein attach to both antibodies resulting in a visual line on the test strip within 15 minutes. Prior experience in the detection of virus and viral proteins via antibody binding using lateral flow have been done through IDx20, Inc. The Housing Authority and the Public Health Department of the City of Chelsea will be overseeing this study.
Excessive respiratory effort may cause self-inflicted lung injury (SILI) and inspiratory muscle injuries , stimulate desynchronization between the patient and ventilator , and worsen the perfusion of extrapulmonary organs . Appropriate respiratory drive and effort should be maintained during the treatment of patients with respiratory failure . In contrast, respiratory drive and effort are commonly increased in patients with COVID-19 pneumonia , and this phenomenon may persist in critically ill patients with COVID-19, even after receiving venovenous ECMO (vv-ECMO) support, owing to low pulmonary compliance and a high systemic inflammatory state . To reduce respiratory effort and drive, ICU physicians often administer high doses of sedative drugs, analgesics, and muscle relaxants. The prolonged use of high doses of these drugs can cause loss of the spontaneous cough reflex, which in turn impairs sputum drainage and eventually worsens pulmonary consolidation and lung infections. As the partial pressure of carbon dioxide in arterial blood (PaCO2) could affect the respiratory drive from the respiratory center (1), it has been shown that altering different levels of extracorporeal carbon dioxide removal in patients undergoing ECMO recovering from acute respiratory distress syndrome (ARDS) could alter respiratory drive. We hope to find a more appropriate target for maintaining PaCO2 to control respiratory effort in patients with COVID-19 undergoing ECMO.
To explore whether cornea structure, and optical quality are affected by the covid-19 infection.
Optimal approach for adult patients hospitalized with severe and critical COVID-19 non-responsive to antiviral and immunomodulatory drugs is not well established. The study aim is to evaluate feasibility and safety of extracorporeal photopheresis (ECP) in this setting.
The goal of this single center, double-blinded, placebo-controlled, and randomized Phase 1 trial is to determine if i.v. citicoline is safe and efficacious compared to i.v. saline/control in adults presenting with SARS CoV-2 infection complicated by acute hypoxemic respiratory failure. The main questions it aims to answer: - Is citicoline safe in this patient population? - Does citicoline have a benefit in terms of improving oxygenation? - Does citicoline reduce overall severity of illness as reflected by standardized scales. Patients will be assigned to i.v. treatment with citicoline or saline twice daily for 5 consecutive days. SpO2/FiO2 ratios will be recorded daily as per standard clinical practice to compare citicoline treatments at three different doses to placebo.
The research in this VA Merit will examine the effects of obesity and Post-COVID Conditions (PCC) on physical functioning, health-related quality of life, and adipose tissue inflammatory and cellular senescence profiles in older Veterans. Further, it will evaluate whether a weight loss intervention, including dietary modification and exercise, in obese Veterans with and without PCC will reduce systemic and adipose tissue inflammation and senescence and promote PCC recovery.
Covid-19 has the potential to affect physical, cognitive and psychological functions in multiple ways. It has been clear that a significant proportion of patients with Covid-19 develop long-term symptoms. The term post COVID-19 condition (defined by WHO) is used to describe the wide range of prolonged symptoms following the infection. Patients may need specialized rehabilitation to be able to meet the complex symptoms and problems that may arise. A more specific syndrome that seems to occur more frequently than expected in the group of non-hospitalized patients with post COVID-19 condition is the postural orthostatic tachycardia syndrome (POTS). A randomized controlled design will be used to evaluate the effects of individual tailored physical exercise in patients with POTS after Covid-19. Participants: Adults (>18 years) with post COVID-19 condition and diagnosed with POTS (n=60) will be included. Exclusion criteria: known pregnancy, cancer, already ongoing individual physical exercise (specific for POTS), or not able to perform measurements and/or intervention. Procedure and outcomes: The primary outcomes are objectively measured time in upright position and health-related quality of life. Secondary outcomes are: physical activity, physical capacity, work ability and disease specific symptoms measured with tests and questionnaires. Prior to randomization baseline measurements will be performed, aswell as after 16 weeks, 6 months and 12 months. Intervention: Participants randomized to intervention will receive standard care and undergo a individually designed physical exercise program during 16 weeks, supervised and guided by a physiotherapist. The intervention will consist of different exercises to enhance muscle strength and endurance. Progression will be according to a program (based on previous feasibility studie) but should be halted if post exertional malaise (PEM) or other problems occur. Controls: Participants randomized to control will receive standard care during 16 weeks. Measurements of both groups (control and intervention) will be repeated after completion of a period of 16 weeks.
Persistent viral infection with viral reservoirs and detection of circulating spike protein after the initial acute illness is one potential pathogenic mechanism for Long COVID. This mechanism may be able to be targeted by SARS-CoV-2 monoclonal antibodies (mAbs). This trial will study the safety and efficacy of AER002 to treat individuals with Long COVID in an adult population.
During the pandemic of COVID-19, studies reporting a high incidence of barotrauma, both pneumothorax but also pneumomediastinum, in patients with critical COVID-19. If this is complications of the respiratory support used to treat patients hypoxemia or if it is a direct consequence of COVID-19 damaging the lung tissue is not known. The aim of this study is to investigate the incidence and type barotrauma, if there is an association between barotrauma and level of respiratory support used in the intensive care unit, and if barotrauma is associated with worse outcome compared to patients without barotrauma.
This study aims to use vaccination information from state vaccine registries linked with HealthVerity insurance claims for the following: - to measure how effective the Pfizer-BioNTech vaccine is at preventing post-COVID conditions. - to understand characteristics of patients who are receiving COVID-19 vaccines. All patients whose information is kept unidentified in the HealthVerity database are eligible to be included for both aims of this study.