Last data update: Sep 23, 2024. (Total: 47723 publications since 2009)
Records 1-3 (of 3 Records) |
Query Trace: Liaini Gross F [original query] |
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Antibodies against egg- and cell-grown influenza A(H3N2) viruses in adults hospitalized during the 2017-2018 season (preprint)
Levine MZ , Martin ET , Petrie JG , Lauring AS , Holiday C , Jefferson S , Fitzsimmons WJ , Johnson E , Ferdinands JM , Monto AS . bioRxiv 2018 439471 Background The 2017-2018 US influenza season was severe with low vaccine effectiveness. Circulating A(H3N2) viruses from multiple genetic groups were antigenically similar to cell-grown vaccine strains. However, most influenza vaccines are egg-propagated.Methods Serum was collected shortly after illness onset from 15 PCR confirmed A(H3N2) infected cases and 15 uninfected (controls) hospitalized adults enrolled in an influenza vaccine effectiveness study.Geometric mean titers against egg- and cell-grown A/Hong Kong/4801/2014 A(H3N2) vaccine strains and representative circulating viruses (including A/Washington/16/2017) were determined by microneutralization (MN) assays. Independent effects of strain-specific titers on susceptibility were estimated by logistic regression.Results MN titers against egg-A/Hong Kong were significantly higher among those who were vaccinated (MN GMT: 173 vs 41; P = 0.01). However, antibody titers to cell-grown viruses were much lower in all individuals (P>0.05) regardless of vaccination. In unadjusted models, a 2-fold increase in MN titers against egg-A/Hong Kong was not significantly protective against infection (29% reduction; p=0.09), but a similar increase in cell-A/Washington titer (3C.2a2) was protective (60% reduction; p=0.02). A similar increase in egg-A/Hong Kong titer was not significantly associated with odds of infection when adjusting for MN titers against A/Washington (15% reduction; P=0.61). A 54% reduction of odds of infection was observed with a 2-fold increase in A/Washington (not significant; P=0.07), adjusted for egg-A/Hong Kong titer.Conclusion Although individuals vaccinated in 2017-2018 had high antibody titers against the egg-adapted vaccine strain, antibody responses to cell-grown circulating viruses may not be sufficient to provide protection, likely due to egg-adaptation in the vaccine.We thank Maryna Eichelberger, Hongquan Wan, Jin Gao, and Laura Couzens (Food and Drug Administration) for technical support and providing reassortant influenza viruses for use in the enzyme-linked lectin assays. St Jude Children’s Research Hospital provided plasmids that were used to generate these reassortant influenza viruses. We thank Mrs F Liaini Gross, Lauren Horner and Makeda Kay from Influenza Division, Centers for Disease Control and Prevention for technical support for virus propagation and specimen management. |
Effect of repeat vaccination on immunogenicity of quadrivalent cell-culture and recombinant influenza vaccines among healthcare personnel aged 18-64 years: A randomized, open-label trial
Gaglani M , Kim SS , Naleway AL , Levine MZ , Edwards L , Murthy K , Dunnigan K , Zunie T , Groom H , Ball S , Jeddy Z , Hunt D , Wesley MG , Sambhara S , Gangappa S , Grant L , Cao W , Liaini Gross F , Mishina M , Fry AM , Thompson MG , Dawood FS , Flannery B . Clin Infect Dis 2022 76 (3) e1168-e1176 BACKGROUND: Antibody responses to non-egg-based standard-dose cell-culture influenza vaccine (containing 15 µg hemagglutinin (HA)/component) and recombinant vaccine (containing 45 µg HA/component) during consecutive seasons have not been studied in the United States. METHODS: In a randomized trial of immunogenicity of quadrivalent influenza vaccines among healthcare personnel (HCP) aged 18-64 years over two consecutive seasons, HCP who received recombinant-hemagglutinin (RIV) or cell-culture-based vaccine (ccIIV) during the first season (Y1) were re-randomized the second season of 2019-2020 (Y2) to receive ccIIV or RIV, resulting in four ccIIV-RIV combinations. In Y2, hemagglutination inhibition (HI) antibody titers against reference cell-grown vaccine viruses were compared in each ccIIV-RIV group with titers among HCP randomized both seasons to receive egg-based, standard-dose inactivated influenza vaccine (IIV), using geometric mean titer (GMT) ratios of Y2-post-vaccination titers. RESULTS: Y2 data from 414 HCPs were analyzed per-protocol. Compared to 60 IIV/IIV recipients, 74 RIV/RIV and 106 ccIIV/RIV recipients showed significantly elevated GMT ratios (Bonferroni corrected P <.007) against all components except A (H3N2). Post-vaccination GMT ratios for ccIIV/ccIIV and RIV/ccIIV were not significantly elevated compared to IIV/IIV except for RIV/ccIIV against A(H1N1)pdm09. CONCLUSIONS: In adult HCPs, receipt of RIV two consecutive seasons or the second season was more immunogenic than consecutive egg-based IIV for three of the four components of quadrivalent vaccine. Immunogenicity of ccIIV/ccIIV was similar to that of IIV/IIV. Differences in hemagglutinin antigen content may play a role in immunogenicity of influenza vaccination in consecutive seasons. |
Repeated vaccination against matched H3N2 influenza virus gives less protection than single vaccination in ferrets
Music N , Tzeng WP , Liaini Gross F , Levine MZ , Xu X , Shieh WJ , Tumpey TM , Katz JM , York IA . NPJ Vaccines 2019 4 28 Epidemiological studies suggest that humans who receive repeated annual immunization with influenza vaccine are less well protected against influenza than those who receive vaccine in the current season only. To better understand potential mechanisms underlying these observations, we vaccinated influenza-naive ferrets either twice, 10 months apart (repeated vaccination group; RV), or once (current season only group; CS), using a prime-boost regimen, and then challenged the ferrets with A/Hong Kong/4801/2014(H3N2). Ferrets that received either vaccine regimen were protected against influenza disease and infection relative to naive unvaccinated ferrets, but the RV group shed more virus, especially at the peak of virus shedding 2 days post infection (p < 0.001) and regained weight more slowly (p < 0.05) than those in the CS group. Qualitative, rather than quantitative, differences in the antibody response may affect protection after repeated influenza vaccination. |
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