Login / Signup

Adenoviral Vector-Based Vaccine Platform for COVID-19: Current Status.

Vivek P ChavdaRajashri BezbaruahDisha ValuBindra PatelAnup KumarSanjay PrasadBibhuti Bhusan KakotiAjeet Kumar KaushikMariya Jesawadawala
Published in: Vaccines (2023)
The coronavirus disease (COVID-19) breakout had an unimaginable worldwide effect in the 21st century, claiming millions of lives and putting a huge burden on the global economy. The potential developments in vaccine technologies following the determination of the genetic sequence of SARS-CoV-2 and the increasing global efforts to bring potential vaccines and therapeutics into the market for emergency use have provided a small bright spot to this tragic event. Several intriguing vaccine candidates have been developed using recombinant technology, genetic engineering, and other vaccine development technologies. In the last decade, a vast amount of the vaccine development process has diversified towards the usage of viral vector-based vaccines. The immune response elicited by such vaccines is comparatively higher than other approved vaccine candidates that require a booster dose to provide sufficient immune protection. The non-replicating adenoviral vectors are promising vaccine carriers for infectious diseases due to better yield, cGMP-friendly manufacturing processes, safety, better efficacy, manageable shipping, and storage procedures. As of April 2022, the WHO has approved a total of 10 vaccines around the world for COVID-19 (33 vaccines approved by at least one country), among which three candidates are adenoviral vector-based vaccines. This review sheds light on the developmental summary of all the adenoviral vector-based vaccines that are under emergency use authorization (EUA) or in the different stages of development for COVID-19 management.
Keyphrases
  • sars cov
  • coronavirus disease
  • respiratory syndrome coronavirus
  • immune response
  • public health
  • healthcare
  • infectious diseases
  • current status
  • small molecule
  • genome wide
  • risk factors
  • nitric oxide
  • quality improvement