COVID-19 Clinical Trials and Expanded Access

This will be a randomized, open-label study to determine if camostat+ bicalutamide decreases the proportion of people with COVID-19 who require hospitalization, compared to historical controls. Patients with symptomatic COVID-19, diagnosed as outpatients, will be randomized 1:1, stratified by gender, to treatment with standard of care alone (Arm 1) or with camostat and bicalutamide (Arm 2).

NAPKON-HAP is the deep phenotyping platform of the National Pandemic Cohort Network (NAPKON) in Germany. NAPKON is a data and biospecimen collection of patients with COVID-19 and is part of the University Medicine Network (NUM) in Germany. The primary objective of the study is to provide a comprehensive collection of data and biosamples for researchers from national consortia and for participation in international research collaborations for studying COVID-19 and future pandemics. Data is collected from patients with COVID-19 three times per week during their hospitalization and at follow-up visits after hospital discharge 3, 6, 12, 24, and 36 months after symptom onset. Data include epidemiological and demographic parameters, medical history and potential risk factors, documentation of routine medical procedures, and clinical course, including different patterns of organ involvement, quality of care, morbidity, and quality of life. Moreover, extensive serial high-quality bio sampling consisting of various sample types is performed to allow deep molecular, immunological, and virological phenotyping. Patients not requiring Intensive Care Unit (ICU)/ Intermediate Care (IMC) treatment will receive 7 and patients requiring ICU/IMC treatment will receive 16 full-phenotyping visits including sampling for biobanking. During hospitalisation the planned blood sampling rate in total is 35 ml at each visit. The total amounts and/or sampling dates may differ according to the ethics committee's regulations for different study centers. At follow-up visits, the clinical assessment includes an update of the medical history and recent medical events from which additional clinical data is collected (i.e. outpatient CT-scans, echocardiography, external laboratory data). Clinical symptoms are recorded and a physical examination will be performed. Vital signs are recorded and routine blood testing and biosampling is continued. Quality of life is measured with patient-reported outcome questionnaires. Follow-up visits at months 3 and 12 are "deep phenotyping" visits with a comprehensive and detailed set of examinations. In the following visits at months 24 and 36, only examinations with pathologic results from the last deep phenotyping visit at month 12 will be performed. A shorter follow-up visit to record quality of life, recent medical events and with a reduced number of examinations focusing on cardiorespiratory performance will take place at month 6. In case of relevant medical events, new medical information or changes in the participant´s health status, an unscheduled visit can take place anytime within the entire study period. Data collection during follow up includes standardized quality of life assessment including PROMIS® (Patient-Reported Outcomes Measurement Information System). The pulmonary characterization will include body plethysmography, diffusion capacity, respiratory muscles strength measurement, spiroergometry, capillary blood gas analysis and lung imaging studies (low-dose Computed Tomography (CT), Magnetic Resonance Imaging (MRI) of the lung). Cardiological phenotyping includes echocardiography, electrocardiogram (ECG), 24h-ECG, 24h-blood pressure monitoring, stress cardiac MRI and pulse wave analysis. Neurocognitive testing includes brain MRI, electroencephalogram (EEG), somatosensory testing, refractometry (Visit 3 and 12 months), physical activity test, neurocognitive tests, somatosensory phenotyping, taste- and smell-test. Endocrinological phenotyping will incorporate Advanced Glycation Endproducts (AGE) reader, continuous glucose monitoring for 14 days, Air Displacement Plethysmography (ADP) or bioelectrical impedance analysis (BIA).

None of the vaccines approved, or in clinical trials, have so far been tested on transplanted patients. If they produce an immune response to the Spike protein of SARS-CoV-2 it is unknown how long the protective immunity will last. Not all immune responses are equal. The investigators will quantify immune cell subsets with flow and mass cytometry analyses to describe the phenotype of responding immune cells, including specific T cells. If not already established, patient human Leukocyte antigen (HLA) genotypes will be typed. In order to compare the immune responses with healthy individuals a control group of hospital employees will be included and sampled before and after vaccination according to the same time schedules as the kidney transplanted patients.

Randomized, double-blind, placebo-controlled trial comparing 2 doses of SY-005 (recombinant human Annexin A5) to placebo in patients with severe coronavirus 2019 disease in a single hospital centre with 2 intensive care units

This is an open-label Phase I study, four dose escalation groups, to evaluate the safety of CD24-exosomes in patients with moderate/severe COVID-19 disease. Patients with moderate/severe COVID-19 infection and factors predictive of a cytokine storm are recruited from the Corona department of the Tel Aviv Sourasky Medical Center (TASMC), who have provided informed consent are being recruited in four dose groups who will receive the exosome treatment as an add-on treatment to standard treatment.

D1. Primary Objective: 1. Determine the immunogenicity of FDA approved COVID-19 vaccination in patients with hematologic malignancies D2. Secondary Objectives: 1. Assess the safety of FDA approved COVID-19 vaccination in patients with hematologic malignancies 2. Analyze the kinetics of immunogenic response over time after receipt of the COVID-19 vaccination 3. Compare the immunogenicity of different COVID-19 vaccinations that will be approved by the FDA 4. Analyze advanced flow immunophenotyping of innate and adaptive immune blood cells in all participants and correlate with response to vaccination

COVID-19 infection manifests in its severe form as acute alveolo-interstitial and vascular pneumonitis. However, long-term outcome remains unknown. A progression to fibrosing pneumonia could affect 10 to 30% of survivors of severe forms, making it a public health problem through secondary disability. The project concerns the analysis of CT images of patients followed at the Avicenne APHP hospital (Bobigny) in collaboration with two expert image treatment/modelling teams for an evaluation of vascular remodelling and mechanical simulation of the regional lung compliance. These parameters obtained at 2-4 months of COVID-19 infection will be correlated with clinical, CT, and functional data at 6 months and 1 year follow-up. This project should make it possible to understand the COVID-19 infection manifests as an acute alveolo-interstitial and vascular pneumonitis in its severe form. However, long-term outcome remains unknown. It has been hypothesized that a progression to fibrosing pneumonia could affect 10 to 30% of survivors of severe forms, making it a public health problem through secondary disability. But there is no parameter which could currently allow to predict such an outcome. The SILICOVILUNG project is based on the CT images analysis of patients followed at the Avicenne APHP hospital (Bobigny, France) after severe COVID pneumonitis in collaboration with two expert image treatment/modelling teams [ Artemis Telecom Sud-Paris (Evry, France) and LMS INRIA Ecole Polytechnique (Palaiseau, France)] for an evaluation of vascular remodeling and mechanical simulation of the regional lung compliance using a poromechanical model. These parameters obtained at 2-4 months of COVID-19 infection will be correlated with clinical, CT, and functional data at 6 months and 1-year follow-up. This project should make it possible to understand the mechanisms of regional physiology in the evolution of COVID-19 pneumonias in their severe forms and to anticipate the development or not of sequelae, particularly fibrosing.

This is a stepped-wedge cluster randomized trial to assess effectiveness of Sinovac's Adsorbed COVID-19 (Inactivated) vaccine. Residents in the urban area of a municipality are eligible to participate. The city was divided in clusters and those cluster were grouped to determine the offer of vaccination in four steps. The vaccine will be offered to adults (18 years old and above) according to the location of their homes in a cluster. The vaccine schedule is two doses with four-weeks interval. Baseline samples to determine previous immunity will be collected before vaccination. Cases of COVID-19 reported in the city will be recorded according to the WHO clinical progression scale. Comparison of periods before and after vaccination and relation to immunization coverage will be considered for the assessment of effectiveness in the clusters and groups of clusters.

This study aims to evaluate the immunogenicity of Moderna mRNA-1273 vaccine in volunteers aged 65 years or more compared to volunteers aged 18-45 years, over 24 months duration. It will provide necessary data on the early immunological response to the vaccine and its evolution in quantitative and qualitative terms. This study will allow establishing how aging influences the response to the vaccine and help to adapt the vaccinal plan. For instance it will suggest the necessity of a vaccination booster.

COVID-19 is a respiratory disease caused by a novel coronavirus (SARS-CoV-2) and causes substantial morbidity and mortality. Nosocomial acquisition of SARS-CoV-2 is a frequent concern across hospital settings in Canada and is associated with substantial morbidity and mortality. This clinical trial is initially designed to evaluate the role of monoclonal antibodies against the SARS-CoV-2 spike protein, for the treatment of hospitalized patients who acquire COVID19 via nosocomial infection. New treatments, as they become available, may be integrated, with appropriate adaptation of this document. The trial was initiated with the bamlanivimab product with the options of casirivimab/imdesimab and sotrovimab added as the prevalence of bamlanivimab resistant variants of concerns increased. It is believed that monoclonal antibody treatments are most likely to be effective early in the disease course. The ability to rapidly identify and initiate such treatments in patients with nosocomial acquisition of the infection, combined with the high mortality of 25-30% experienced by this group of patients led us to propose this trial in collaboration with the CATCO national network. The overall objective of the study is to evaluate the safety and clinical effectiveness of anti-SARS-CoV-2 monoclonal antibody treatment relative to the control arm, in patients who develop nosocomial SARS-CoV-2 infection, on need for mechanical ventilation or death. This study is designed as a pragmatic randomized, open-label, controlled clinical trial. Subjects will be randomized to receive either standard-of-care (control) or the study medication on a 1:2 basis. Bamlanivimab, casirivimab/imdesimab or sotrovimab will be administered intravenously as a one-time infusion after randomization. Casirivimab/imdesimab (REGN) and sotrovimab will be the default agents based on local availability unless both are unavailable AND virus strain known to be native or alpha (B.1.1.7). Incidence of infusion-related reactions in the 24 hours post administration.