COVID-19 Clinical Trials and Expanded Access

This study is a Phase 1, open label, non-randomized, two-arm interventional clinical trial to evaluate the safety and efficacy of Virazole® in hospitalized adult patients who have tested positive for COVID-19 and, as a result, have significant respiratory distress (PaO2/FiO2 ratio

The purpose of this research study is to look at high dose zinc versus multivitamin micronutrient supplementation to support immune health in the setting of the COVID-19 pandemic.

Since March 2020, the SARS-CoV type coronavirus infection (SARS-CoV-2; nCoV19; COVID-19) is considered pandemic. As early as April 2020, the World Health Organization recommended the implementation of mass screening of populations, with the aim of identifying cases and contacts and controlling viral spread. Since the end of lock-down on May 11, 2020,the screening policy has been intensified to fight against COVID-19. Virological tests by RT-PCR are thus accessible to all, without a prescription and reimbursed by health insurance. The French government has also set a quantitative target of 1 million tests per week. In order to meet this target, the number of sampling centers has been increased (mobile structures, etc.). Screening tests are currently carried out using a nasopharyngeal swab analyzed by RT-PCR for the detection of viral RNA. This type of sample has several technical and logistic constraints. It must be carried out by personnel who are authorized and trained in this procedure and in appropriate hospital hygiene practices. It exposes the sampling personnel to possible contamination through nasopharyngeal secretions or coughing that may occur during sampling. With the increase in screening, there are sometimes insufficient numbers of sampling personnel and there is significant market pressure for swabs and virological transport media. In addition, these swabs are uncomfortable or even painful for the patient, which could imply a reluctance to be screened. They are also complicated in children, whether they are rhino- or oropharyngeal. An alternative to the nasopharyngeal swab, which is the subject of this project, would be to have one or more reliable sampling methods that are less restrictive than the nasopharyngeal swab ("gold standard"). Thus, we propose to test and compare the results obtained by molecular biology techniques on nasopharyngeal, salivary and buccal swabs.

Evaluate the safety pharmacokinetics and pharmacodynamics (PK/PD)of a single dose of Kamada anti-severe acute respiratory syndrome (SARS)- CoV-2 in patients hospitalized with COVID-19 caused pneumonia

It is an established fact that, corona virus spread through the respiratory droplets. Colonization of the virus in oropharynx and/or nasopharynx is considered to be major factor for transmissibility of the virus through respiratory secretions. Preventing colonization of the virus by administrating povidone iodine in the nasal passage therefore, a rational thought which is supported by recent evidence of in-vitro virucidal action of povidone iodine in Severe Acute Respiratory Syndrome-Coronavirus 2 (SARS CoV-2). Therefore, the study is designed to assess the virucidal effect of povidone iodine on COVID-19 virus in-vivo.This open label randomized clinical trial will be conducted at Department of Otorhinolaryngology and Head Neck Surgery, in collaboration with Department of Virology and Department of Medicine in Dhaka Medical College (DMC) Hospital. The study will be conducted from September 2020 to October 2020. Total 175 confirmed cases of COVID-19 disease, proven by Reverse transcription polymerase chain reaction (RT-PCR) testing will be enrolled in this study. Written informed consent will be ensured before participation. In case of no literacy, finger print will be considered for written permission.Consent will be sought from the legal guardian in case of minor or underaged.Formal ethical clearance will be taken from Ethical Review Committee (ERC) of Dhaka Medical College. All of the Participants will be divided into seven groups: Group A will receive Povidone iodine (PVP-I) nasal irrigation at concentration of 0.4%, Group B and Group C will received 0.5% and 0.6%; Group D will receive PVP-I nasal spray at concentration of 0.5% and Group E will received at 0.6% concentration. Group F (Placebo comparator group) will receive nasal irrigation by distilled water (DW) and Group G (Placebo comparator group) will received nasal spray by distilled water. The contact time will be minimum 30 seconds. After the individual application of PVP-I and distilled water in respective participant, they will be tested again for RT-PCR for COVID-19 from nasopharyngeal and oropharyngeal sample. All patients will be subjected to detail history, physical examination and adverse events. Block Randomization will be followed for randomization. Data will be recorded in a semi-structured questionnaire and will be analyzed by 'R-4.0.2' data analysis software

Up to 1/3 of all patients infected with COVID-19 can develop complications that require hospitalization. Severe pneumonia associated with acute respiratory distress syndrome (ARDS) is the most threatening and feared complication of COVID-19 infection, with mortality rates close to 50% in some groups. Autopsies between these severe cases reveal severe capillary involvement, with signs of intense inflammatory changes, microvascular thrombosis, endothelial injury and abnormal tissue repair. The available evidence suggests that abnormal activation or imbalance in the counter-regulation of the kallikrein-kinin system may play a central role in a positive feedback cycle, leading to consequent diffuse microangiopathy. Blockade of the kallikrein-kinin system can therefore prevent deterioration of lung function by reducing inflammation, edema and microthrombosis. The objective of this phase IIb study is to assess the preliminary effects on the oxygenation parameters of an antisense oligonucleotide that inhibits pre-kallikrein synthesis in patients with moderate to severe COVID-19.

This current protocol encompasses an investigator-blinded randomized exercise intervention in 10 COVID-19 survivors that have been discharged from hospital. The subjects will be randomized to perform three different exercise training protocols in a random order. The aim is to clarify the feasibility and safety of three training protocols in COVID-19 survivors. The hypothesis is that patients surviving COVID-19 will be able to comply to all training protocols.

Solving the problem of detecting asymptomatic carriers who can transmit infection is key to protecting vulnerable residents of nursing homes and assisted living facilities, to protecting frontline workers who care for them, and to facilitating return to work (including return of nurses and medical assistants). The wearable biometric technology, if widely disseminated among vulnerable populations and the community-at-large, will help avoid the ravages of seasonal flu and other contagious illnesses, and the society will be better prepared for future waves of COVID-19 or other pandemics. Even if a vaccine is developed, due to immune senescence and immunocompromise, elderly people and those with chronic medical conditions may not be well protected by it. Continuous biomonitoring provides another layer of protection for them.

Patients with diabetes have been listed as people at higher risk for severe illness from COVID-19. Moreover, the relationship between diabetes-related phenotypes and the severity of COVID-19 remains unknown. This observational study aims to to evaluate the risk of disease severity and mortality in association with diabetes in COVID-19 inpatients and identify the clinical and biological features associated with worse outcomes.

Background The significant risk of transmission of SARS-CoV-2 to healthcare staff mandated changes to Basic and Advanced Life Support (BLS and ALS) guidelines. As advised by the European Resuscitation Council (ERC), healthcare staff should put on airborne-precaution personal protective equipment (PPE) before starting chest compressions and/or airway interventions, as a minimum an FFP3 mask (FFP2 or N95 if FFP3 not available), eye and face protection and long-sleeved gown. However, wearing FFP3 masks has been shown to highly impair cardiopulmonary exercise capacity and the effect of wearing PPE on the quality of cardiopulmonary resuscitation is not known. The aim of this project is therefore to to investigate whether wearing PPE has an effect on the quality of chest compressions. Methods The study forsees a simulated CPR scenario on manikins. Study participants are lay rescuers and members of the rescue organization Croce Bianca. Each participant will perform 5 sequences consisting of 2 min of chest compressions altered by 2 min of no chest compressions (break), as recommended by the current ERC guidelines. The participants will perform the described CPR sequence two times in a cross-over design with randomized order, once while wearing PPE and once without wearing PPE. Between the two CPR sequences (i.e. with and without PPE) a break of 60 min for recovery will be given. During both CPR sequences, the quality of chest compressions will be measured.