View clinical trials related to 2019 Novel Coronavirus Infection.
Filter by:The goal of this observational study was to explore the complex relationship between changes in the intestinal microbiome and serum metabolites in patients with novel coronavirus infection and acute pancreatitis. The main questions it aims to answer are: Question 1: The changes of intestinal microbiota and serum metabolites in patients with novel coronavirus infection and acute pancreatitis. Question 2: The relationship between the changes in the intestinal microbiome and serum metabolites. Participants will be recruited according to certain criteria. The investigators plan to recruit 4 groups of 30 volunteers, 120 volunteers in total. It is divided into (a) AP patients without COVID-19 (normal group) (b) AP patients with COVID-19 (treatment group) (c) patients with COVID-19 infection (control group) (d) normal healthy people. The basic information of subjects, including age, sex, address, and enrollment time, was collected after enrollment. After completing the relevant preparations, start the experiment. First of all, the sample collection and detection. Blood samples were taken from 2-3ml of blood (biochemical tube) after admission or in the morning of the next day, centrifuged at 3000 rpm for 3 minutes, and stored at -80℃ within 1 hour after taking the serum; Fecal samples are stool samples retained after admission and before antibiotic use. Fecal samples need to be stored at -20℃ within one hour after collection and transferred to -80℃within 24 hours. After the retention of samples, the retained stool samples shall be tested for bacterial flora, and the blood samples shall be tested for serum metabolomics. After the test, the investigators will use the statistical software SPSS 22.0 for statistical analysis. At the same time, in order to determine the correlation between intestinal flora and clinical parameters, the investigators will use Permutation analysis of variance (PERMANOVA) to process the data.
The emergence of a novel coronavirus(SARS-CoV-2) in late 2019 has resulted in a global epidemic of the infectious condition COVID-19. Since March 2022, the Omicron mutant has caused widespread transmission in Shanghai, China, and is characterized by the majority of asymptomatic patients. Although showing no obvious symptoms, the asymptomatic patients have high transmissibility because of high viral loads in their oropharynx and nasopharynx. Therefore,this study puts forwards the hypothesis that local flushing treatment in the sino-nasal and mouth cavity can reduce the viral load to reduce their transmissibility. Nasal Irrigation and gargling is a safe and commonly used mechanism to treat a variety of sinonasal diseases including sinusitis, rhinitis, and upper respiratory tract infections. Povidone-iodine(PVP-I) is a water-soluble complex of povidone, a carrier molecule, and iodine, which has powerful microbicidal activity. Also, recent evidence of in-vitro virucidal action of povidone-iodine in Severe Acute Respiratory Syndrome-Coronavirus 2 (SARS CoV-2) has been supported. Therefore, the study is designed to assess the virucidal effect of nasal irrigation and gargling with PVP-I against SARS-CoV-2 located in the throat. The hypothesis was that the treatment would be effective in improving the negative conversion rate of SARS-CoV-2 nucleic acid on day 10.
The AudibleHealth Dx is a diagnostic software as a medical device (Dx SaMD) consisting of an ensemble of software subroutines that interacts with a proprietary database of Signal Data Signatures (SDS), using Artificial Intelligence/Machine Learning (AI/ML) to analyze forced cough vocalization signal data signatures (FCV-SDS) for diagnostic purposes. This study will evaluate the performance of the AudibleHealth Dx in comparison to a standard of care Reverse Transcriptase Polymerase Chain Reaction (RT-PCR) test for the diagnosis of COVID-19. A secondary purpose of the study will be usability testing of the device for participants and providers.
This study is designed to test the efficacy and safety of combinations of two well-understood agents - famotidine and celecoxib in patients hospitalized with moderate-to-severe COVID-19 (based on World Health Organization [WHO] Ordinal Scale for Clinical Improvement). Both famotidine and celecoxib separately demonstrate clinical activity in mitigating COVID-19 disease symptoms or severity, and appear to have separate and complementary mechanisms of action.
This study is designed to test the efficacy and safety of combinations of two well-understood agents - famotidine and celecoxib. Each of these agents separately demonstrate clinical activity in mitigating COVID-19 disease symptoms or severity, and each of which appear to have separate and complementary mechanisms of action.
This master protocol serves as a common reference for the inpatient and outpatient clinical studies that share common elements.
This trial will study the use of USB002 given as an intravenous infusion in patients with respiratory distress due to infection with COVID-19.
Coronavirus infection, also known as COVID-19, has become a global pandemic with over 3 million cases and 250,000 deaths worldwide. Coronaviruses (CoV) belong to a family of viruses that predominately infect mammals and birds, affecting their lungs, intestinal tract, liver and nervous systems. Prior to the discovery of the current novel coronavirus strain (SARS-CoV-2), there were six different strains that are known to infect humans, which includes the virus that caused the severe acute respiratory syndrome (SARS) pandemic in 2002. In humans, the majority of severe illness from SARs and COVID-19 is due to inflammation of the lungs and pneumonia. Pregnancy poses a significantly increased risk of viral pneumonia and during SARS more pregnant women required intensive care and breathing support, and the proportion of deaths was higher when compared to non-pregnant adults. Furthermore, kidney failure and development of abnormal blood clotting disorders, which occurs during severe infection, is more common in pregnancy and the associated changes in blood vessels extend to the placentas of infected pregnant women, thus potentially affecting the fetus. This makes pregnant women affected by the virus at high risk of developing severe complications. Fortunately, there have been a number of biomarkers identified that are associated with illness severity. These include, specialised white blood cells, blood clotting cells and constituents, as well as other measures of heart and kidney function. We propose that these biomarkers are important correlates of clinical disease severity and prognosis in pregnant and postnatal women. This knowledge has the potential to help clinicians during this pandemic to better manage and care for their patients.
PHENOTYPE is an investigator-led, observational cohort study which aims to explore the long-term outcomes of patients with COVID-19 infection and to identify potential risk factors and biomarkers that can prognosticate disease severity and trajectory.
The investigators plan to carry out an experimental study on the preventive effect of recombinant human interferon alpha nasal drops on the infection of 2019 new coronavirus in medical staff.