Your search keyword '"Florek, Nicholas W."' showing total 2 results

1. An updated influenza A(H3N2) vaccine generates limited antibody responses to previously encountered antigens in children.

Author

Florek, Nicholas W., Campos, Luiza M., Braun, Katarina M., McLean, Huong Q., King, Jennifer P., Flannery, Brendan, Belongia, Edward A., and Friedrich, Thomas C.

Subjects

*INFLUENZA prevention, *INFLUENZA A virus, *ANTIBODY formation, *VACCINATION of children, *HEMAGGLUTINATION tests, *VACCINATION

Abstract

Background Influenza vaccination may provide a “back-boost” to antibodies against previously encountered strains. If the back-boost effect is common, this could allow more aggressive vaccine updates, as emerging variants would be expected to both elicit de-novo responses and boost pre-existing responses against recently circulating strains. Here we used the emergence of an antigenically novel A(H3N2) strain to determine whether an antigenically updated vaccine boosted antibodies against historical strains. Methods We performed hemagglutination-inhibition (HI) assays on pre- and post-vaccination sera from 124 children 5–17 years old who received 2015–2016 inactivated influenza vaccine, containing an antigenically updated A(H3N2) strain. We evaluated the mean fold increase in HI titer against both the 2015–2016 vaccine strain and representative strains from two prior antigenic clusters. Factors associated with post-vaccination titers against historical strains were evaluated using linear regression, adjusting for baseline titer. Results Geometric mean titers against each antigen examined increased significantly after vaccination ( P  < .0001). Mean fold increase was 3.29 against the vaccine strain and 1.22–1.46 against historical strains. Response to vaccine strain was associated with increased post-vaccination titers against historical strains. Conclusions A vaccine containing an antigenically novel A(H3N2) strain modestly boosted antibody responses against historical influenza strains in children. [ABSTRACT FROM AUTHOR]

Published

2018

2. Influenza Evolution: New Insights into an Old Foe.

Author

Moncla, Louise H., Florek, Nicholas W., and Friedrich, Thomas C.

Subjects

*INFLUENZA viruses, *VIRAL evolution, *VIRAL mutation, *IMMUNOGLOBULINS, *ANTIGENIC drift

Abstract

Influenza viruses steadily evolve to escape detection by antibodies, necessitating vaccine updates. A new study uses a massively parallel approach, deep mutational scanning, to catalogue antibody escape mutations. This approach defines potential pathways of viral evolution, beyond those already observed in natural infections, and may help predict its future directions. [ABSTRACT FROM AUTHOR]

Published

2017