View clinical trials related to Coronavirus Infections.
Filter by:The effective medical treatment against COVID-19 infection is still unknown. Chloroquine phosphate is a well-known antimalarial drug which has been on the market for many years. Recently, in vitro study shown that Chloroquine is effective at both entry and at post-entry stages of the COVID-19 infection of Vero E6 cells with promising results. Chloroquine is also an immune-modifier and could distribute to the whole body including lung. Also, chloroquine is cheap and safe, and could be a promising agent against COVID-19 infection. However, only hydroxychloroquine (HCQ) with the extra hydroxyl group is available in Taiwan. Therefore, hydroxychloroquine instead become the best choice for the treatment candidate, since it shows higher in vitro potency (EC50) against COVID-19 with lower toxicity while retaining the original effect which compared with chloroquine.
The Malaysian COVID-19 Anosmia Study is a nationwide multicentre observational study to investigate the prevalence and characteristics of olfactory and gustatory/taste disturbances in COVID-19 infection in Malaysia, and to evaluate the predictive value of screening for these symptoms in COVID-19 infection. This study consists of two phases: the first phase is a cross-sectional study and the second phase is a case-control study. The case-control study is described here (the cross-sectional study is described in a separate ClinicalTrials.gov record).
It has been suggested that ibuprofen might be associated with more severe cases of coronavirus infections, based on the observation that severe COVID cases had been exposed to ibuprofen, resulting in a warning by the French authorities. This was attributed to: 1. a suggestion that ibuprofen might upregulate ACE-2 thereby increasing the entrance of COVID-19 into the cells, 2. an analogy with bacterial soft-tissue infections where more severe infections on NSAIDs are attributed to an immune-depressive action of NSAIDs, or to belated treatment because of initial symptom suppression, 3. fever is a natural response to viral infection, and reduces virus activity: antipyretic activity might reduce natural defenses against viruses. However fever reduction in critically ill patients had no effect on survival. However, these assertions are unclear: upregulation of ACEII would increase the risk of infection, not necessarily its severity, and would only apply to the use of NSAIDs before the infection, i.e. chronic exposure. It would be irrelevant to the infection once the patients are infected, i.e., to symptomatic treatment of COVID-19 infection. Anti-inflammatory effect masking the early symptoms of bacterial infections resulting in later antibiotic or other treatment is not applicable: there is no treatment of the virus that might be affected by masking symptoms. Antipyretic effect increasing the risk or the severity of infection would apply equally to all antipyretic agents including paracetamol, which share the same mechanism of action for fever reduction. EMA remains prudent about this assertion In addition, excess reliance on paracetamol while discouraging the use of ibuprofen might increase the risk of hepatic injury from paracetamol overdose. Paracetamol is the prime drug associated with liver injury and transplantation, in voluntary and inadvertent overdose or even at normal doses. This might be increased by COVID-related liver function alterations. It is therefore proposed to conduct a case-control study in a cohort of patients admitted to hospital in France with COVID-19 infection.
The objectives of this study are to characterise immune responses in people with CoV-SARS-2 infection and use this knowledge to advance vaccine design, treatment options, and diagnostic reagents. Eligible participants will include people diagnosed with SARS-CoV-2 infection, and may include recently returned travellers and non-travellers in the community presenting to tertiary hospital healthcare facilities. Recruitment will be opportunistic, and sampling intensity may vary depending on the phase of the outbreak. Participants can be enrolled at any timepoint (up to 6 months) following diagnosis of SARS-CoV-2 infection (COVID-19). Blood samples and clinical data will be collected.
In the course of COVID disease, some patients need intensive care treatment. We aim to find an answer to the question of whether the patient's CRP, ferritin, D-dimer, Oxygen Saturation, lymphocyte count, and body mass index can be used as a criterion for admitting patients with COVID to the intensive see unit.
The vital signs are critical in assessing the severity and prognosis of infections, such as Covid-19. The devices used today for measuring the vital signs have to be in physical contact with the patients. There is an apparent risk of transferring infections from one patient to the next (or to healthcare professionals). This project aims to evaluate a new camera-based system for contactless measurement of vital signs as well as an artificial intelligence (AI) predicting hospitalization or death within 30 days. This particular study will evaluate the new system's ability without interfering with standard care of the patient.
Nitazoxanide has been shown to have a clinical efficacy against severe acute respiratory syndrome coronavirus 2; ivermectin has also demonstrated a remarkable experimental efficacy with a potential to be used for Coronavirus disease 2019.
The study aims to evaluate the reduction in severity and progression of lung injury with inhaled ibuprofen in patients with severe acute respiratory syndrome due to SARS-CoV-2 virus.
A weekly questionnaire is sent to patients and parents of patients who are vulnerable for infections. Possible symptoms of COVID19 are asked for and use of healthcare services and testing for COVID19. Weekly reports are being send to the national institutions to update advice given to this group.
Background: Corona virus disease 2019 (COVID-19) is a highly infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Purpose: To give initial experience about COVID-19 in Alexandria-Egypt describing radiological patterns of lung involvement, also surveying prevalence of co-morbid lung diseases and their effect on COVID-19 presentation. Methods: Retrospective study including 48 patients with positive polymerase chain reaction (PCR) test for COVID-19 during the period from February 2020 till May 2020 in Alexandria/Egypt. Full clinical and laboratory data are obtained. High resolution computed tomography (HRCT) findings are described. Serial follow up studies are done. Surveying co-morbid lung diseases done including tuberculosis (TB), interstitial lung diseases (ILDs), chronic obstructive lung disease (COPD), immune and vascular-related diseases. Prevalence rate is the predominant analysis.