COVID-19 Clinical Trials and Expanded Access

The number of COVID-19 cases has been growing exponentially, so that the industrialized economies are facing a significant shortage in the number of ventilators available to meet the demands imposed by the disease. Noninvasive ventilatory support can be valuable for certain patients, avoiding tracheal intubation and its complications. However, non-invasive techniques have a high potential to generate aerosols during their implementation, especially when masks are used in which it is virtually impossible to completely prevent air leakage and the dispersion of aerosols with viral particles. In this context, a helmet-like interface system with complete sealing and respiratory isolation of the patient's head can allow the application of ventilatory support without intubation and with safety and comfort for healthcare professionals and patients. This type of device is not accessible in Brazil, nor is it available for immediate import, requiring the development of a national product. Meanwhile, a task force under the coordination of the School of Public Health (ESP) and Fundação Cearense de Apoio à Pesquisa (FUNCAP), with support from SENAI / FIEC and the Federal Universities of Ceará (UFC) and the University of Fortaleza (UNIFOR) advanced in the development of a prototype and accessory system capable of providing airway pressurization through a helmet-type interface, which was called the Elmo System.

Testing use of predictive analytics to predict which COVID-19+ patients are at low risk for an adverse event (ICU transfer, intubation, mortality, hospice discharge, re-presentation to the ED, oxygen requirements exceeding nasal cannula at 6L/Min) in the next 96 hours

To assess the safety and tolerability of inhaled molgramostim nebuliser solution in patients with COVID-19 pneumonia.

The primary objective of Part 1 (Single Ascending Dose) is to assess the safety and tolerability of anti-SARS-CoV-2 IgY when given as single-ascending doses administered intranasally to healthy participants. The primary objective of Part 2 (Multiple Dose) is to assess the safety and tolerability of anti-SARS-CoV-2 IgY when given as multiple doses administered intranasally to healthy participants. A secondary objective is to assess the pharmacokinetics of anti-SARS-CoV-2 IgY when given as multiple doses administered intranasally to healthy participants. Safety will be evaluated using adverse event (AE), physical examination (including vital signs), electrocardiogram, and clinical laboratory data. Pharmacokinetics will be evaluated by serum anti-SARS-CoV-2 IgY concentration.

There is an urgent need to evaluate effective treatments for COVID-19 patients. Melatonin has significant anti-inflammatory and antioxidant properties and it lacks of side-effects. This randomized controlled trial seeks to evaluate the efficacy of intravenous melatonin in reducing mortality in Covid-19 patients in the ICUs.

In this phase I first-in-human clinical trial, healthy volunteers in two different dose cohorts will be vaccinated twice with the candidate vaccine MVA-SARS-2-S. A subgroup will receive a heterologous booster vaccination with a licensed COVID-19 vaccine. The aim of the study is to assess the safety and tolerability of the candidate vaccine and to characterize its immunogenicity.

The COVID-19 pandemic has caused major disruption to healthcare systems with significant socioeconomic impacts. Currently, there are no licensed preventions available against COVID-19 and accelerated vaccine development is urgently needed. A safe and effective vaccine for COVID 19 prevention would have significant global public health impact.

This is an observational prospective study. The aim is to assess the prevalence of test positivity (swab or serological examination) to Coronavirus Disease-2019 (Covid-19) in relation to the duties and related occupational risk.

This study will characterize risk factors for poor COVID-19 outcomes (hospitalization, death) and clinical progression of hospitalized COVID-19 patients in South Sudan and Eastern Democratic Republic of the Congo.

SARS-CoV-2 infection is a condition characterized by excessive leukocyte infiltration, massive release of chemokines, proteases and cytokines, the so-called "cytokine storm", which promote the inflammatory process and contribute to exacerbation of COVID-19 symptomatology. Because of the abnormal release of pro-inflammatory cytokines by non-neuronal cells of the immune system, such as the mast cells in periphery, and microglia at central level, the body activates a defensive neuroinflammatory process that, if not controlled, can become pathological. Therefore it's important to intervene early on neuroinflammation, in order to limit the progression of the disease. A possible intervention is represented by Palmitoylethanolamide (PEA), an endogenous molecule of the N-acylethanolamine family synthesized "on demand" in response to "stress factors" to restore tissue homeostasis, able to control mast cells and microglia uncontrolled activation. Experimental evidence in vitro and in vivo demonstrated the anti-inflammatory and neuroprotective effect of micronized and ultra-micronized PEA (mPEA and umPEA), confirmed in various clinical investigations conducted in patients with different pathological conditions. The aim of this study is to investigate the efficacy of a compound containing mPEA + umPEA on peripheral inflammatory markers, neuroinflammation, and others clinical parameters in intensive care patients with COVID-19 interstitial pneumonia.