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Filter by:Introduction: The SARS-Cov-2 outbreak in France and the concomitant massive increase in the number of cases requiring hospital management create a major risk of COVID-19 infection for hospital staff. In addition to nosocomial transmission, the health care workers (HCWs), defined as persons serving in health care settings who have the potential for direct or indirect exposure to patients or infectious materials, are also exposed to community transmission. Whether HCWs acquire infection at work or in the community is important to adapt protection measures. A few studies investigated COVID-19 infection among medical and nursing personnel. However, none have analyzed all categories of hospital staff. As of April 9, 2020, a total of 9,282 US HCWs with confirmed COVID-19 had been reported to CDC (US), however description of occupational activities was not available. Therefore, limited information is available about COVID-19 infection among HCWs. Thus, the objectives of the sdudy are to estimate the incidence of symptomatic SARS-CoV-2 infection in HCWs in five university hospitals (including geriatric hospitals) of the great Paris area and to estimate both nosocomial and community risk factors. Method: A prospective and retrospective cohort study that includes all hospital staff (including medical and nursing personnel, health care managers, laboratory, radiology, reception staffs, stretcher-bearers, etc.) working in different departments of five university hospitals (acute medical centers and geriatric hospitals) in the great Paris area (9 000 HCWs). Incidence of symptomatic SARS-CoV-2 infection will be estimated with its 95%CI. Individual and contextual risk factors will be analyzed using multilevel multivariate logistic regression modelling to account for clustering and confounding. Conclusion This study should make it possible to better characterize SARS-Cov-2 contamination of HCWs and to estimate the share of nosocomial transmission.
The AELIX-002 trial has been conducted on a cohort of individuals who started cART within the first 6 months after the primary VIH infection, thus increasing the likelihood of observing a certain rate of post-treatment controls (PTC), regardless of treatment efficacy. Although the kinetics of HIV rebound should allow observing differences between placebo and control regarding the post treatment controls rate in case of efficacy of the IMPs, assessing the length and determinants of a post-intervention control (PIC) (i.e., associated with vaccination) beyond 24 weeks is crucial for developing a curative approach to HIV infection. In this regard, an extension of the ATI phase for those individuals with pVL less than 2,000 copies/mL after 24 weeks of ATI in the AELIX-002 offers an unique research opportunity to better understand relevant aspects of the mechanisms involved in the different phenotypes of a PIC and PTC.
SNG001 is an inhaled drug that contains a antiviral protein called interferon beta (IFN-β). IFN-β in produced in the lungs during viral lung infections. It has been shown that older people and people with some chronic diseases have an IFN-β deficiency. Many viruses inhibit IFN-β as part of their strategy to evade the immune system. Addition of IFN-β in vitro protects lung cells from viral infection. IFN-β protects cells against the MERS and SARS coronaviruses (close relatives of SARS-CoV-2, the virus that causes COVID-19). SNG001 is an inhaled formulation of interferon beta-1a it is currently in Phase II clinical trials for COPD patients. Synairgen has conducted randomised placebo controlled clinical trials of SNG001 involving >200 asthma and COPD patients. These trials have shown that SNG001 has: - been well tolerated during virus infections - enhanced antiviral activity in the lungs (measured in sputum and blood samples) - provided significant lung function benefit over placebo in asthma in two Phase II trials. Synairgen believes SNG001 could help prevent worsening or accelerate recovery of severe lower respiratory tract illness in COVID-19 patients. Patients who are in hospital or non-hospitalised but are a high risk groups (e.g. elderly or diabetics) will be invited to take part in the trial. The patient would receive either SNG001 or placebo once daily for 14 days. The severity of the patients condition would be recorded on a scale developed by the World Health Organisation and the patient would be asked questions about their breathlessness, cough and sputum every day, as well as assess their general medical condition and safety. The study will start as a Pilot phase where 100 patients will be randomised in the hospital setting and a 120 patients randomised in the home setting. Once each of the Pilot phases are complete, a Pivotal phase will be conducted. It is estimated that the size of each of the Pivotal phases (hospital and home) will be around 100 to 300 patients per arm. The actual number will be determined after the data review at the end of each of the Pilot phases. If SNG001 proves to be beneficial it would be a major breakthrough for the treatment of COVID-19.
The purpose of this research study is to evaluate the safety and potential efficacy of Intravenous Infusion of Zofin for treatment of moderate to severe Acute Respiratory Syndrome (SARS) related to COVID-19 infection vs Placebo.
We will study genetic factors causing severe disease due to infection with SARS-COV-2 which may help to find targeted therapy
Background: People who have had contact with a person with a known SARS-CoV-2 infection are being told to self-quarantine for 14 days. This is done to avoid potential virus spread. But the actual time it takes for a person to develop an infection after being exposed to the virus is not well known. The proper quarantine time could be less or more than 2 weeks. Researchers hope this study can be used to help improve public health guidelines for quarantines, social distancing, and returning to work after a possible SARS-CoV-2 exposure. Objective: To better understand how long it takes a person to develop (or not develop) an infection with the SARS-CoV-2 virus after they have had contact with a person who has a confirmed infection. Eligibility: NIH staff members age 18 and older who had recent contact with a person who has a SARS-CoV-2 infection Design: Participants will have 3 study visits at the NIH Clinical Center. They may be asked to have an extra visit depending on the test results at the third visit. At each visit, participants will give a blood and saliva sample. It will be used to test for SARS-CoV-2 antibodies. Their temperature will be taken. They will complete a short survey to collect data about possible COVID-19 symptoms. At the first visit only, they will also complete a survey that asks about their recent social contacts. Two types of nasal samples will be collected at each visit. These samples will be tested for the SARS-CoV-2 virus. 1. a swab will be inserted deep into the back of the nose and 2. a swab will be inserted to the middle of your nose. Participation lasts 3 to 4 weeks.
To compare between SCXL and ACXL for treatment of infectious keratitis
Primary objective: To demonstrate non-inferiority in sustained virologic response (SVR, undetectable HCV RNA at Follow up week 12) between PEG-Intron 1.5 µg per kg SC Q1W + Ribavirin 800-1400 mg PO daily and P1101 400 µg SC Q2W + Ribavirin 800-1400 mg PO daily for the treatment of chronic HCV genotype 2 infection
The main objective of this multicenter cohort study is to determine the degree of COVID19 infection immunization of a population of psychiatric patients. The secondary objective of this cohort follow-up is to: 1. Clinically characterize COVID patients who are positive for serological testing 2. Assess the socio-demographic, clinical and psychotropic determinants of a COVID diagnosis 3. Immunologically characterize COVID patients who are positive for serological testing 4. Exploring the links between susceptibility to COVID19 and erythrocytic blood groups
HVAPNOR consists of Three work packages: 1. Prospective observational study of Hospital (HAP) - and ventilator-Associated pneumonia (VAP) at 5 hospitals in Norway. Establish optimized routines for microbiological sampling, diagnostics and antibiotic stewardship.. 2. Biomarker studies in HAP and VAP. 3. Studies on capacity building in HAP and VAP diagnostics.