PLoS Computational Biology (Nov 2023)

A simulation-based method to inform serosurvey design for estimating the force of infection using existing blood samples.

  • Anna Vicco,
  • Clare P McCormack,
  • Belen Pedrique,
  • John H Amuasi,
  • Anthony Afum-Adjei Awuah,
  • Christian Obirikorang,
  • Nicole S Struck,
  • Eva Lorenz,
  • Jürgen May,
  • Isabela Ribeiro,
  • Gathsaurie Neelika Malavige,
  • Christl A Donnelly,
  • Ilaria Dorigatti

DOI
https://doi.org/10.1371/journal.pcbi.1011666
Journal volume & issue
Vol. 19, no. 11
p. e1011666

Abstract

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The extent to which dengue virus has been circulating globally and especially in Africa is largely unknown. Testing available blood samples from previous cross-sectional serological surveys offers a convenient strategy to investigate past dengue infections, as such serosurveys provide the ideal data to reconstruct the age-dependent immunity profile of the population and to estimate the average per-capita annual risk of infection: the force of infection (FOI), which is a fundamental measure of transmission intensity. In this study, we present a novel methodological approach to inform the size and age distribution of blood samples to test when samples are acquired from previous surveys. The method was used to inform SERODEN, a dengue seroprevalence survey which is currently being conducted in Ghana among other countries utilizing samples previously collected for a SARS-CoV-2 serosurvey. The method described in this paper can be employed to determine sample sizes and testing strategies for different diseases and transmission settings.