COVID-19 Clinical Trials and Expanded Access

A multicenter, randomized, double-blind, placebo-controlled trial for hospitalized moderate COVID-19 patients

This is a randomized, single blind, study. Males and females meeting inclusion criteria who have symptoms of mild COVID-19 and in whom a positive PCR result for SARS-CoV-2 is obtained may be enrolled to the study treatment within 72 hours of the positive PCR result. Eligible patients are those considered to be at high risk for COVID-19 disease progression. This includes patients ≥ 65 years of age or with any one or more of certain medical conditions including: cancer, COPD, cardiovascular disease, immunocompromised state resulting from solid organ transplant, obesity, sickle cell disease, history of smoking, and diabetes.

There is an unmet need to evaluate the impact of sub-clinical/mild COVID19 disease in the outpatient setting on prevalent and incident renal injury, as this data is currently unavailable. To capture the diversity of race/ethnic risk and COVID19 related municipal shelter-in-place guidance, the investigators will enroll COVID19-negative and COVID19-positive samples balanced by race/ethnicity from 3 different states, California, Michigan, and Illinois. Study endpoints will be assayed from urine samples mailed to the study team at 2, 6, and 12 months after their date of PCR test, with no requirement for these individuals to leave their homes to participate.

Primary Objective: -To determine the effect of early versus delayed treatment with venglustat on the total kidney volume (TKV) in participants at risk of rapidly progressive autosomal dominant polycystic kidney disease (ADPKD). Secondary Objective: - To determine the effect of early versus delayed treatment with venglustat on the renal function (estimated glomerular filtration rate [eGFR] [Chronic Kidney Disease Epidemiology Collaboration {CKD-EPI} equation]). - To characterize the safety profile of venglustat. - To evaluate the effect of venglustat on the lens by ophthalmological examination. - To evaluate the effect of venglustat on mood using Beck Depression Inventory-II (BDI-II).

This study examines the efficacy of N-acetylglucosamine (NAG) in treating patients with novel coronavirus (COVID-19) infection.

The primary objectives of this study are to evaluate the safety, tolerability, and efficacy of BGE-175 in participants ≥ 50 years of age hospitalized with documented COVID-19.

The ongoing Coronavirus Disease 2019 (COVID-19) pandemic has been intensified by no population-based immunity to the severe acute respiratory disease coronavirus 2 (SARS-CoV2) and initially lack of effective treatments or vaccines available to mitigate the pandemic. Currently, two COVID-19 vaccines are available for vaccination in Europe through conditional marketing authorisation granted by the European Medicines Agency and further vaccine will be licensed. These vaccines have shown good vaccine efficacy in phase 3 vaccine trials. We will recruit subjects who will be prioritised for vaccination with the primary aim of comparing the immune responses after COVID-19 vaccination and natural SARS-CoV-2 infection. In Western Norway we have recruited cohorts of health care workers and patients infected with SARS-CoV-2 and will extend to COVID-19 vaccinees. Demographic, clinical data and repeated blood samples will be collected to evaluate the complications and kinetics, duration and breadth of the immune responses comparing natural infection to vaccination.

The goal of this study is to develop evidence-based messages that effectively mitigate concerns of people at risk for not being vaccinated against COVID-19, with the ultimate goal of maximizing vaccine uptake in vulnerable populations. The investigators will collect data on COVID-19 disease and vaccine knowledge, beliefs, and intent to be vaccinated from an existing online panel. Results from this data collection will be used to develop effective messages and communication strategies. The investigators will test alternate versions of messages intended to reduce vaccine hesitancy and promote vaccine uptake among vaccine-hesitant individuals. This project will ultimately result in a set of tested, evidence-derived messages about vaccination for COVID-19.

A SARS-CoV-2 infection emerged in China in December 2019, the severity of which is linked to acute respiratory distress syndrome1. The rate of emergency visits in Bas-Rhin for suspected Covid-19 increased, compared to the French average, at the end of the 10th week of 2020. Compared to the onset of symptoms, Chinese studies estimate the onset of dyspnea on the 7th day3 and admission to the emergency room between the 5th and the 9th day4. But this duration varies according to the epidemic period5, the geographical location6 and a later emergency admission is associated with an increase in mortality in the Chinese population7. The need for oxygen, which is not noted in Chinese studies8, is a reflection of the onset of respiratory worsening and a major factor in hospitalization. There is no study on the changing profile of the French population to date its onset.

Since the start of 2020, the new SARS-CoV-2 coronavirus is causing a real global health crisis. In France, nasopharyngeal swabs are used to obtain the sample needed for respiratory infection screening. There are three major difficulties with this type of sampling: I) It is really unpleasant for the patient because the device has to be pushed into the nostril to reach the nasopharynx. It causes some patients to bleed or even feel uncomfortable. II) It is not easily accepted by children. III) It is dependent on the availability of swabs. Faced with these difficulties linked to the initial sampling, new methods are being studied to enable a rapid and non-invasive diagnosis of COVID-19 based on the instantaneous identification of metabolites or volatile organic compounds (VOCs). Due to their sensitivity and the wealth of information that can be provided, the most promising techniques are based on mass spectrometry coupled with a soft ionisation system. For example, on-line exhaled air analysis is capable of detecting a very large number of VOCs. Various tests on metabolites in the exhaled air have already been carried out without being totally conclusive because the existing instruments suffer from various limitations: I) poor repeatability/accuracy in the chemical characterisation of exhaled air ; II) too high specificity (detection of only part of the emitted compounds); III) too limited sensitivity; IV) and poor adaptation to be deployed in a clinic. In order to overcome these various limitations, we propose the use of a new generation of mass spectrometer: Vocus PTR-TOF. The Vocus PTR-TOF is a Proton Transfer Mass Spectrometer (PTR-MS) developed for the detection, in real time, of trace VOCs in industrial environments, laboratories or directly in the environment. This new generation of instrument offers the following advantages: I) unequalled sensitivity : II) a robust ionisation system not affected by environmental conditions (relative humidity...) ; III) a high mass resolution allowing precise identification of compounds ; IV) a compact and durable architecture allowing deployment in a constrained environment such as hospital, airport… The sensitivity and speed of measurement allow the expiration process to be monitored in real time, bringing an additional dimension to the measurement and the chances of success.