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Estimation of Reduction in Influenza Vaccine Effectiveness Due to Egg-Adaptation Changes-Systematic Literature Review and Expert Consensus

Journal

VACCINES
Volume 9, Issue 11, Pages -

Publisher

MDPI
DOI: 10.3390/vaccines9111255

Keywords

influenza; vaccination; egg adaptations; antigenic; drift; effectiveness

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Experts estimate that egg adaptations and antigenic drift have a significant impact on the match and effectiveness of influenza vaccines in Europe, with a particularly pronounced effect on the A(H3N2) subtype. These phenomena occur in two to three out of five seasons and are likely to continue in the future.
Background: Influenza vaccines are the main tool to prevent morbidity and mortality of the disease; however, egg adaptations associated with the choice of the manufacturing process may reduce their effectiveness. This study aimed to estimate the impact of egg adaptations and antigenic drift on the effectiveness of trivalent (TIV) and quadrivalent (QIV) influenza vaccines. Methods: Nine experts in influenza virology were recruited into a Delphi-style exercise. In the first round, the experts were asked to answer questions on the impact of antigenic drift and egg adaptations on vaccine match (VM) and influenza vaccine effectiveness (IVE). In the second round, the experts were presented with the data from a systematic literature review on the same subject and aggregated experts' responses to round one questions. The experts were asked to review and confirm or amend their responses before the final summary statistics were calculated. Results: The experts estimated that, across Europe, the egg adaptations reduce, on average, VM to circulating viruses by 7-21% and reduce IVE by 4-16%. According to the experts, antigenic drift results in a similar impact on VM (8-24%) and IVE (5-20%). The highest reduction in IVE was estimated for the influenza virus A(H3N2) subtype for the under 65 age group. When asked about the frequency of the phenomena, the experts indicated that, on average, between the 2014 and 19 seasons, egg adaptation and antigenic drift were significant enough to impact IVE that occurred in two and three out of five seasons, respectively. They also agreed that this pattern is likely to reoccur in future seasons. Conclusions: Expert estimates suggest there is a potential for 9% on average (weighted average of All strains over three age groups adjusted by population size) and up to a 16% increase in IVE (against A(H3N2), the < 65 age group) if egg adaptations that arise when employing the traditional egg-based manufacturing process are avoided.

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