Abstract
By December 2019, humanity was challenged by a new infectious respiratory disease named coronavirus disease of 2019 or COVID-19. This is a viral infection based on the presence of the previously non-problematic coronavirus with assigned number 2. This virus causes severe acute respiratory distress and is known now as SARS-CoV2. Since SARS-CoV2 is an RNA virus, remdesivir and favipiravir, both broad-spectrum RNA polymerase inhibitors, were repurposed for treating COVID-19 patients. Remdesivir and favipiravir are antimetabolites, and they are structurally related to the naturally occurring structural elements of RNA. Both agents are prodrugs and must be activated intracellularly to exert their effects through numerous and different mechanisms of action. Efforts have been exerted to determine their efficacy and safety against COVID-19 through clinical trials. Clinical trials have shown an association of remdesivir with increased frequency of adverse effects (in comparison to favipiravir). Nevertheless, the data obtained with remdesivir resulted in its approval by the FDA on the 22nd of October 2020 for COVID-19 treatment. At present, remdesivir is being recommended by several treatment guidelines for the treatment of COVID-19 patients. The evidence in favor of favipiravir is compromised by the small number and low-quality of trials conducted. Favipiravir has shown various benefits when administered in mild and moderate cases of COVID-19, while remdesivir was more beneficial in more severe cases of the disease. Since the two agents are suitable for different groups of patients, both drugs can play a significant role in fighting this pandemic. The goal of this work is to summarize the information available on two antimetabolites - remdesivir and favipiravir - and to compare clinical experience obtained so far with these two agents in COVID-19 patients.
Highlights
In 2019, a new health threat had emerged in China
The viral genome is formed by a single-stranded positive-sense ribonucleic acid that serves as a messenger RNA for the synthesis of subgenomic RNA
This review aims to explore and compare the properties and information on two antimetabolites - a nucleotide analog remdesivir and a nucleobase analog favipiravir - because of the benefits that they may provide as a part of COVID-19 treatment
Summary
The disease caused by a coronavirus infection is currently recognized as COVID-19 infection. It was first identified as pneumonia cases. COVID-19 is a new type of infection of the respiratory tract inflicted on people by SARS-CoV2 infection. The patients suffer from severe acute respiratory distress demonstrating itself through pneumonia, and shortness of breath because of severe alveolar damage and other histological changes of the lungs. Recombinant ACE2- immunoglobulin was investigated as potential agents against SARS-CoV2 (ref.[4]). This review aims to explore and compare the properties and information on two antimetabolites - a nucleotide analog remdesivir and a nucleobase analog favipiravir - because of the benefits that they may provide as a part of COVID-19 treatment
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
