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Connection

Sarah E. Cobey to Influenza A Virus, H3N2 Subtype

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This is a "connection" page, showing publications Sarah E. Cobey has written about Influenza A Virus, H3N2 Subtype.
Sarah E. Cobey
Connection Strength
5.182
Influenza A Virus, H3N2 Subtype
  1. Reduced Effectiveness of Repeat Influenza Vaccination: Distinguishing Among Within-Season Waning, Recent Clinical Infection, and Subclinical Infection. J Infect Dis. 2024 Dec 16; 230(6):1309-1318.
    View in: PubMed
    Score: 0.926
  2. Measures of Population Immunity Can Predict the Dominant Clade of Influenza A (H3N2) in the 2017-2018 Season and Reveal Age-Associated Differences in Susceptibility and Antibody-Binding Specificity. Influenza Other Respir Viruses. 2024 11; 18(11):e70033.
    View in: PubMed
    Score: 0.918
  3. Earliest infections predict the age distribution of seasonal influenza A cases. Elife. 2020 07 07; 9.
    View in: PubMed
    Score: 0.681
  4. Poor Immunogenicity, Not Vaccine Strain Egg Adaptation, May Explain the Low H3N2 Influenza Vaccine Effectiveness in 2012-2013. Clin Infect Dis. 2018 07 18; 67(3):327-333.
    View in: PubMed
    Score: 0.594
  5. Explaining the geographical origins of seasonal influenza A (H3N2). Proc Biol Sci. 2016 09 14; 283(1838).
    View in: PubMed
    Score: 0.523
  6. Preliminary Findings From the Dynamics of the Immune Responses to Repeat Influenza Vaccination Exposures (DRIVE I) Study: A Randomized Controlled Trial. Clin Infect Dis. 2024 Oct 15; 79(4):901-909.
    View in: PubMed
    Score: 0.229
  7. Investigation of the Impact of Childhood Immune Imprinting on Birth Year-Specific Risk of Clinical Infection During Influenza A Virus Epidemics in Hong Kong. J Infect Dis. 2023 07 14; 228(2):169-172.
    View in: PubMed
    Score: 0.210
  8. Middle-aged individuals may be in a perpetual state of H3N2 influenza virus susceptibility. Nat Commun. 2020 09 11; 11(1):4566.
    View in: PubMed
    Score: 0.172
  9. Age-specific differences in the dynamics of protective immunity to influenza. Nat Commun. 2019 04 10; 10(1):1660.
    View in: PubMed
    Score: 0.156
  10. Response to Skowronski and De Serres. Clin Infect Dis. 2018 10 15; 67(9):1476.
    View in: PubMed
    Score: 0.151
  11. Estimating Vaccine-Driven Selection in Seasonal Influenza. Viruses. 2018 09 18; 10(9).
    View in: PubMed
    Score: 0.150
  12. Contemporary H3N2 influenza viruses have a glycosylation site that alters binding of antibodies elicited by egg-adapted vaccine strains. Proc Natl Acad Sci U S A. 2017 11 21; 114(47):12578-12583.
    View in: PubMed
    Score: 0.141
  13. Strength and tempo of selection revealed in viral gene genealogies. BMC Evol Biol. 2011 Jul 25; 11:220.
    View in: PubMed
    Score: 0.091
  14. Global migration dynamics underlie evolution and persistence of human influenza A (H3N2). PLoS Pathog. 2010 May 27; 6(5):e1000918.
    View in: PubMed
    Score: 0.084
  15. Epochal evolution shapes the phylodynamics of interpandemic influenza A (H3N2) in humans. Science. 2006 Dec 22; 314(5807):1898-903.
    View in: PubMed
    Score: 0.067
  16. Comparison of Human H3N2 Antibody Responses Elicited by Egg-Based, Cell-Based, and Recombinant Protein-Based Influenza Vaccines During the 2017-2018 Season. Clin Infect Dis. 2020 09 12; 71(6):1447-1453.
    View in: PubMed
    Score: 0.043
  17. Anticipating the species jump: surveillance for emerging viral threats. Zoonoses Public Health. 2012 May; 59(3):155-63.
    View in: PubMed
    Score: 0.023
  18. Predicting the epidemic sizes of influenza A/H1N1, A/H3N2, and B: a statistical method. PLoS Med. 2011 Jul; 8(7):e1001051.
    View in: PubMed
    Score: 0.023
Connection Strength

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