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1.
Article in Chinese | WPRIM | ID: wpr-1029480

ABSTRACT

Influenza viruses are responsible for a large number of infections and deaths annually, posing a serious threat to public health. Vaccination is the most effective measure to prevent influenza virus infection. However, current seasonal influenza vaccines only protect against closely matched circulating strains. Even with extensive surveillance and annual reformulation, yearly updated vaccines are still a step behind the fast-evolving viruses, often resulting in poor matches or less effective vaccines. Due to the relatively complex evolution of influenza A viruses, it is a new idea and a new means to prevent influenza epidemics by using a series of innovative technologies to develop universal influenza vaccines that can provide extensive and long-lasting protection against influenza viruses. This review summarized the latest progress in the development of universal vaccines targeting HA in the past three years, including design methods for universal vaccines targeting HA, HA stem and other conserved epitopes, compared the advantages and disadvantages of different technologies, explored the impact of immunization programs and strategies, and discussed the potential challenges to be overcome, hoping to provide reference for the successful development of universal vaccines.

2.
Article in Chinese | WPRIM | ID: wpr-995314

ABSTRACT

Influenza viruses are common pathogens causing respiratory infections in humans. Among the four seasonal influenza viruses, influenza A virus H3N2 has become the leading cause of seasonal influenza illness and death, posing a great threat to public health and the economy. Since it first emerged and caused a pandemic in 1968, H3N2 has been circulating repeatedly in human beings and continually evades host immune attack by antigenic drift, resulting in a decrease in vaccine efficacy. In this paper, the antigenic evolution of influenza A virus H3N2, the impact of antigenic evolution on the selection of vaccine strains and some models for predicting the evolution of influenza viruses were analyzed and reviewed, which paved the road for understanding the antigenic evolution of influenza virus and vaccine development.

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