|drug1551||Hydroxychloroquine Sulfate Tablets plus Lopinavir/ Ritonavir Oral Tablets Wiki||0.71|
|drug1372||GPs reports of potential patient safety incidents, non-COVID-19 related Wiki||0.71|
|drug255||Anti- SARS-CoV-2 Plasma Wiki||0.71|
|D012141||Respiratory Tract Infections NIH||0.13|
|D014777||Virus Diseases NIH||0.08|
There are 2 clinical trials
The COVID-19 pandemic has been characterized by high morbidity and mortality, especially in certain subgroups of patients. To date, no treatment has been shown to be effective in controlling this disease in hospitalized patients with moderate and / or severe cases of this disease. Hydroxychloroquine and lopinavir / ritonavir have been shown to inhibit SARS-CoV viral replication in experimental severe acute respiratory symptoms models and have similar activity against SARS-CoV2. Although widely used in studies of critically ill patients, to date, no study has demonstrated its role on the treatment of high-risk, newly diagnosed patients with COVID-19 and mild symptoms.
Description: Hospitalization is defined as at least 24 hours of acute care in a hospital or similar acute care facility (emergency settings, temporary emergency facilities created for acute care of COVID-19 pandemic)Measure: Proportion of participants who were hospitalized for progression of COVID-19 disease Time: Measuring during 28-day period since randomization (Intention to treat analysis)
Description: Viral load change on 03, 07, 10 and 14 after randomization (200 patients per arm)Measure: Proportion of participants with viral load change on 03, 07, 10 and 14 after randomization Time: Measuring during 14-day period since randomization
Description: Proportion of participants with clinical improvement, defined as normalization of temperature, Respiratory rate, SaO2, and cough relief (> 50% compared to baseline measured on a visual analog scale) in the last 72 hours.Measure: Time to clinical improvement Time: Measuring during 28-day period since randomization
Description: Proportion of participants with clinical improvement, defined as as time to need for hospitalization due to dyspnea, death, need for mechanical ventilation, shock and need for vasoactive amines;Measure: Time to clinical failure Time: Measuring during 28-day period since randomization
Description: Proportion of participants with hospitalization for any causeMeasure: Hospitalization for any cause Time: Measuring during 28-day period since randomization
Description: Evaluation of adverse events evaluated as associated to any of study armsMeasure: Proportion of participants who presented with adverse events Time: Measuring during 28-day period since randomization
Description: Proportion of participants who presented sustained improvement on respiratory scale defined as at least 48 hours of improvement.Measure: Time to improvement on respiratory scale symptoms Time: Measuring during 28-day period since randomization
In December 2019, a novel coronavirus, now called COVID-19, emerged as a global health threat from Wuhan, China. Within weeks, the contagious virus spread within and between communities, causing a lower respiratory tract infection dominated by symptoms of fever, cough and sore throat. The incubation period was estimated at between 5 to 7 days, but could last as long as 14 days. Although COVID-19 causes a mostly mild and self-limiting disease, respiratory involvement has been reported in about 5% of the population, requiring supplemental oxygen and even ventilatory support to relieve hypoxia. Alveolar damage, fibrosis and consolidation have been reported in radiologic and post-mortem studies. Existing data suggest a mortality rate of COVID-19 is approximately 1-2%, higher among individuals with pre-existing comorbidities and in healthcare systems with suboptimal access to ventilatory support. Given its high transmissibility, COVID-19 has quickly spread across the globe within a short interval. By 27 April 2020, over 3 million people around the world have been diagnosed with COVID-19, and more 200,000 have succumbed to the disease. As a proportion of patients manifest mild or no symptoms, these numbers are likely an underestimate of the actual number of patients with COVID-19. More disconcertingly, patients are known to shed viruses despite mild or no symptoms, making it essential that a collective approach against COVID-19 incorporate active pharmacological treatment to prevent or mitigate virus pathogenesis prior to its potential evolution to cause respiratory distress. To date, clinical trials have focused on the treatment of hospitalised patients diagnosed with COVID-19; only few have examined the clinical benefits of pharmacological agents despite few compelling in vitro data. The relatively high transmission of COVID-19 in a closed dormitory environment of migrant workers in Singapore presents a real-life scenario where a prophylaxis treatment could reduce the impact of the disease. In Singapore, there are well grounded concerns an excess in cases could pose the possibility of strain in healthcare system and mentally drain her workers. The availability of an effective prophylaxis treatment is highly desirable to potentially reduce this burden. Data from the current study could also have implications on how future outbreaks in high-density areas should be managed, especially when residents are subjected to quarantine and isolation.
Description: Acute respiratory illness is defined by acute onset with any key respiratory symptoms including cough, shortness of breath, sore throat, runny nose and change in smell.Measure: Incidence of acute respiratory illness in treatment arms (hydroxychloroquine, ivermectin, zinc and povidone iodine) Time: At the end of study dosing, which is day 42
Data processed on September 26, 2020.
An HTML report was created for each of the unique drugs, MeSH, and HPO terms associated with COVID-19 clinical trials. Each report contains a list of either the drug, the MeSH terms, or the HPO terms. All of the terms in a category are displayed on the left-hand side of the report to enable easy navigation, and the reports contain a list of correlated drugs, MeSH, and HPO terms. Further, all reports contain the details of the clinical trials in which the term is referenced. Every clinical trial report shows the mapped HPO and MeSH terms, which are also hyperlinked. Related HPO terms, with their associated genes, protein mutations, and SNPs are also referenced in the report.Drug Reports MeSH Reports HPO Reports