Active clinical trials for "COVID-19"

The clinical trial is designed as a prospective, multi-center, double-blind, randomised, placebo-controlled, interventional trial to assess safety, tolerability and efficacy of Adrecizumab (on top of SOC) in patients with COVID-19, and to evaluate if improvement of vascular integrity with Adrecizumab on top of SOC is superior to placebo/ control substance (NaCl 0.9%) on top of SOC in reduction of morbidity and mortality endpoints in patients with COVID-19. The main reason for admission to ICU and need for mechanical ventilation of these patients is acute lung injury within a broad pneumonic spectrum, increased ventricular filling pressures and resulting congestion. It is hypothesized, that Adrenomedullin (ADM) is a key player in the (dys)-regulation of vascular integrity (Figure 2). Adrecizumab is the first-in-class humanized monoclonal anti-Adrenomedullin antibody, and acts as a long-lasting plasma Adrenomedullin enhancer stabilizing barrier function at a reasonable safety profile. The mode of action for the anti-Adrenomedullin antibody Adrecizumab has been developed on the basis of published data, own experimental data and theoretical considerations.

This randomized controlled trial will evaluate the implementation and (cost-)effectiveness of the culturally and contextually adapted Doing What Matters in times of stress (DWM) and Problem Management Plus (PM+) stepped-care programs amongst asylum seekers, refugees, and/or migrants living in Italy. Outcomes include mental health, resilience, wellbeing, health inequalities, and costs to health systems.

In March 2020, the World Health Organization (WHO) declared the novel coronavirus (COVID-19) a global pandemic. Ontario has confirmed more than 547,000 cases of COVID-19 since testing began. For many of these patients, symptoms resolve within 4 weeks of onset. However, it is becoming apparent that a significant number of individuals are experiencing symptoms that persist long after the acute infection, known as Long COVID. These individuals have a wide constellation of presenting symptoms, often varying from initial presentation. For this study, we will be enrolling individuals receiving care at The Ottawa Hospital for Long COVID. This study aims to determine the following four things: 1) will adding electronic case management improve quality of life three months after coming to hospital with Long COVID; 2) is the electronic case management platform cost effective; 3) is there any factors that predict outcomes at 3 months; 4) to determine how a personalized rehabilitation program supported by a digital platform could be implemented for individuals with Long COVID. We will enroll individuals from The Ottawa Hospital who will then be randomly assigned to receive either usual care or usual care plus electronic case management, through a platform called NexJ Connected Wellness. Participants will also complete questionnaires every 4 weeks for 3 months. We will be looking at quality of life, mental and physical health, cognitive symptoms, fatigue and pain.

Initially, it was suspected that Covid-19 would primarily affect the airways, but several studies have now shown that it is a disease with multisystem manifestations. 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-acute Covid-19 syndrome (PACS) is now used to describe the wide range of prolonged symptoms following the infection. Patients who have been in hospital for Covid-19 for a long time may need specialized rehabilitation, however, also non-hospitalized patients with mild symptoms may need specific rehabilitation to be able to meet the complex symptoms and problems that may arise. Previous studies on the recovery and rehabilitation after other coronavirus shows the importance to develop tailored interventions so that these patients receive appropriate rehabilitation The aim of this study is to evaluate the effects of inspiratory muscle training on adult patients with PACS and decreased respiratory muscle strength. A randomized controlled trial will be used. A total of 90 adult patients with PACS and 80 % or less of predicted value in inspiratory muscle strength (maximal inspiratory pressure) will be eligible for enrollment. Patients will be randomized either to an intervention group or a control group. The intervention will consist of inspiratory muscle training performed twice daily for 8 weeks. This will be combined with an 8-week physical exercise training program. The control group will perform the same physical exercise training according to standard care. All measurements will be performed at baseline and after 8 weeks. Primary outcome is maximal inspiratory pressure. Secondary outcomes are: Maximal expiratory pressure, pulmonary function, physical capacity, physical activity, respiratory status and symptoms, health-related quality of life, work ability, fatigue, self-reported outcome measure of physical function and voice function. Covid-19 has the potential to affect physical, cognitive, and psychological functions in multiple ways and lead to a negative impact on quality of life in the long-term perspective. Therefore, development of a rehabilitation program with specific tailored interventions will be necessary to improve physical and psychological function, as well as health-related quality of life and work ability.

The aim of the study is to investigate effects of brain stimulation-assisted cognitive training in patients with persistent subjective or objective cognitive impairment after polymerase chain reaction (PCR)-positive COVID-19 disease.

This phase II trial studies the immune response to COH04S1 compared to Emergency Use Authorization (EUA) SARS-COV-2 vaccine in patients with blood cancer who have received stem cell transplant or cellular therapy. COH04S1 belongs to a category called modified vaccinia Ankara (MVA) vaccines, created from a new version of MVA, called synthetic MVA. COH04S1 works by inducing immunity (the ability to recognize and fight against an infection) to SARS-CoV-2. The immune system is stimulated to produce antibodies against SARS-CoV-2 that would block the virus from entering healthy cells. The immune system also grows new disease fighting T cells that can recognize and destroy infected cells. Giving COH04S1 after cellular therapy may work better in reducing the chances of contracting coronavirus disease 2019 (COVID-19) or developing a severe form of COVID-19 disease in patients with blood cancer compared to EUA SARS-CoV-2 vaccine.

The purpose of this study is to evaluate the safety, tolerability and preliminary efficacy of EOM613, a peptide nucleic acid with novel immune-modulating properties, in treating patients with severe COVID-19 infections. This proof-of-concept study is the first clinical trial of EOM613 in this patient population.

This study will evaluate the safety of administering an additional dose of an mRNA COVID-19 vaccine or mRNA bivalent COVID-19 booster vaccine to individuals who have had adverse reactions to a previous dose or administering an initial dose of an mRNA COVID-19 vaccine to individuals with a personal history of allergic reaction. In addition, this study will evaluate the safety of administering an initial or additional dose or bivalent booster of an mRNA COVID-19 vaccine to individuals experiencing an adverse reaction to a natural COVID-19 infection ("long COVID"). Eligible participants enrolled in this trial will receive an initial or additional dose of either the Pfizer-BioNTech COVID-19 bivalent vaccine or the Moderna COVID-19 bivalent vaccine. Participants will also be required to have 1-2 in person visits along with phone call follow up visits. We hypothesize that individuals who have had adverse reactions to a previous dose of an mRNA COVID-19 vaccine will tolerate an additional dose of the primary mRNA vaccine or bivalent booster, as indicated, and those with a personal history of allergic reaction will tolerate an initial dose of an mRNA COVID-19 vaccine. We also hypothesize that those individuals experiencing an adverse reaction will tolerate an initial or additional dose of a primary mRNA COVID-19 bivalent vaccine, as indicated. The study hypothesizes that individuals that have had adverse reactions to a dose of an mRNA COVID-19 vaccine will tolerate an additional dose and those with a personal history of allergic reaction will tolerate vaccination with an mRNA COVID-19 vaccine.

Phase 2 ,double blind, randomized study of therapy with Angiotensin 1-7 in COVID-19 patients. 120 confirmed SARS-CoV-2 infected patients who exhibit moderate- clinical symptoms including dyspnea, cough and fever, hospitalized in the KETER department in several hospitals in Israel, will be enrolled. 60 patients will receive Ang 1-7 subcutaneously 500 mcg/kg /day. 60 patients will receive placebo : NaCl 0.9% 2 ml -control arm . Treatment duration: 14 days or until clinical improvement that enables discharge from hospital. (the shortest time will be the limiting factor in treatment duration). Follow-up-30 days. 14-30 days after discharge from hospital: we will contact the patient via phone to ask questions related to any possible adverse reaction to the drug and general health.

With the results of this study the investigators aim to identify an effective treatment that will reduce morbidity and mortality of patients with symptomatic COVID-19 infection, which would in turn reduce the burden on the healthcare system by decreasing the need for intensive care. Objectives: The main objective of this research is to determine if once weekly treatment with the GLP-1 agonist semaglutide for 4 doses will reduce cardiac as well as non-cardiac complications of COVID-19 infection. Study Plan: The study design is prospective randomized open-label blinded-evaluation (PROBE). Eligible patients with symptomatic COVID-19 infection and an enhanced risk profile as described above, who have been admitted to hospital due to symptoms of COVID-19 infection but do not as yet require critical care will be approached to participate in this study. Provided there are no exclusion criteria and the participants agree by means of documented written informed consent, The participants the participants will be randomized to receive s.c. semaglutide 0.25 mg s.c. or control immediately after randomization and then 0.5 mg s.c. at Day 7, Day 14 and Day 21. Blood will be drawn at Day 7±2 and Day 14±2 for the cardiac troponin biomarker and safety parameters. ECG will be obtained at Day 7±2 and Day 14±2. Primary outcome will be assessed on Day 28. Primary outcome measure: A composite of (1) death from any cause or (2) mechanical ventilation (invasive or non-invasive) at 28 days. Major secondary outcome measure: (1) an elevation to >99th percentile URL upper reference limit (URL) in those with a baseline cardiac troponin level ≤99th percentile URL; or 3x elevation from baseline in those with a baseline cardiac troponin >99th percentile URL; measured at 1 week (7-days) post randomization. Other major secondary outcome measure: A composite of Death from any cause, mechanical ventilation or vasopressor or ECLS support at 28 days an elevation to >99th percentile URL in those with a normal baseline troponin level; or 3x elevation from baseline in those with a baseline troponin; measured at 1 and 2 weeks (7±2 and 14±2 days) post randomization.