Active clinical trials for "COVID-19"

In this study, defined cases of COVID-19 with mild, moderate or severe pneumonia will be treated with standard treatment regimens in combination with IV injection of Deferoxamine. Improvement in clinical, laboratory and radiological manifestations will be evaluated in treated patient compared to control group.

The Investigators propose to set up a preventive trial of infection in hospital workers at risk of coronavirus infection by comparing the rate of SARS-Cov-2 infection in a population of negative SARS-Cov-2 hospital workers receiving preventively azithromycin, hydroxychloroquine or a Placebo

The present Diagnostic Accuracy study aims at experimentally validating the use of a rapid salivary test to detect SARS-CoV-2 infection in both symptomatic and asymptomatic individuals as a preliminary approach to a mass screening program. The study is based on a consecutive recruitment of both patients showing symptoms probably associated with COVID-19 (i.e., cough, dyspnea, fever) and asymptomatic patients with a low risk phenotype. The expected number of recruited individuals is 100. The experimental test is a prototype of salivary test based on the Lateral Flow Immunoassay technique and is able to detect the presence of SARS-CoV-2 in saliva, especially the Spike protein (S). The comparison is represented by the nasopharyngeal swab, the gold standard of COVID-19 diagnosis. Patients will undergo both salivary immunoassay and nasopharyngeal swab, thus the outcome assessors are blinded, since the results of the rRT-PCR analysis require at least 6 hours before being available. The main outcomes are sensibility and specificity of the rapid salivary test, when compared with the gold standard (nasopharyngeal swab).

The trial will be done to determine the impact of a barrier enclosure, COVID (coronavirus disease -19) barrier box on endotracheal intubation attempts, and duration. This study will be a prospective, open-label, randomized controlled trial. A total of 100 patients scheduled for elective surgery will be randomly assigned in two groups (intervention group and control group). Participating attending anesthesiologists will intubate the intervention group patients with COVID barrier box and the control group patients without the box. The anesthesiologists and the intervention group patients will be surveyed about their perception after the surgery. The result of this study will help in decision making about using COVID barrier box to minimize the viral transmission from patients to healthcare workers during the pandemic.

This study will be concerned with managing patients of Covid-19 while being home isolated.

Suspension of Angiotensin Receptor Blockers and Angiotensin-converting Enzyme Inhibitors and Adverse Outcomes in Hospitalized Patients With Coronavirus Infection.

The purpose of this study is to investigate whether an empirically validated treatment for insomnia (CBT-I) administered early in the course of sleep disturbance can prevent insomnia disorder or lessen negative mental health outcomes in the wake of the COVID-19 crisis in adults.

Corona Virus Disease (COVID-19), spread worldwide and has become an emergency of major international concern. In March 2020, the WHO declared the COVID-19 outbreak a global pandemic. Accurate and fast diagnosis is crucial in managing the pandemic. Current diagnostic approaches raise several difficulties: they are time-consuming, expensive, invasive, and most important lacking high sensitivity. The gold standard diagnostic test for COVID-19, reverse transcription polymerase chain reaction (RT-PCR), is highly dependent on adequate deep sampling of the swab in the naso- and oropharynx. A new diagnostic test that can correctly and rapidly identify infected patients and asymptomatic carriers is urgently required to prevent further virus transmission and thus reduce mortality rates. Aim: This proof-of-principle study aims to investigate if an electronic nose (Aeonose) can distinguish individuals with antibodies from individuals without antibodies against COVID-19 based on analysis of volatile organic compounds (VOCs). Methods: between April and July 2020, persons undergoing RT-PCR and a serology test for COVID-19 were recruited at Maastricht UMC+ for breath analysis. All participants had to breathe through the Aeonose for five consecutive minutes. The VOC pattern in their exhaled breath was then linked to the matching RT-PCR and serological test results.

When the COVID-19 virus infects a person, it enters the lung epithelial cells of its host and uses its genetic material to replicate. The pulmonary epithelial cells of a part of the population, known as "secretors", are capable of expressing the antigens of the "ABO" system on their surface. This secretory status can be established by determining the antigens of the Lewis blood group system. When the virus replicates in an "secreting" individual, the antigens of the "ABO" system of the infected individual will be present on the surface of the viruses formed in his/her lungs. It was shown in 2003 that the response of a given individual to the transmission of a virus depends on his/her blood group and on the antigens of the "ABO" system carried by the virus. A patient of group "O" would thus defend himself much better against a virus carrying antigens of blood group "A", the natural antibodies "anti-A" of the patient reducing the ability of the virus to bind to its specific receptor on pulmonary epithelial cells, to penetrate them to replicate itself. The first data collected in Wuhan (China) seems to confirm this hypothesis. A COVID-19 virus transmission model can therefore be established on the basis of blood groups. In order to reduce the spread of the virus among nursing staff, it is possible to establish a preferential algorithm for patient management based on the "ABO" and "Lewis" blood groups of patients and "ABO" of nursing staff in health care units, if operational and human conditions allow.

Low dose whole lung radiotherapy may improve survival of older patients with COVID-19 pneumonitis