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Borremans, Benny ; Mummah, Riley O. ; Guglielmino, Angela H. ; Galloway, Renee L. ; Hens, Niel ; Prager, K. C. ; Lloyd‐Smith, James O. ( , Methods in Ecology and Evolution)more » « less
Abstract Studies of infectious disease ecology would benefit greatly from knowing when individuals were infected, but estimating this time of infection can be challenging, especially in wildlife. Time of infection can be estimated from various types of data, with antibody‐level data being one of the most promising sources of information. The use of antibody levels to back‐calculate infection time requires the development of a host‐pathogen system‐specific model of antibody dynamics, and a leading challenge in such quantitative serology approaches is how to model antibody dynamics in the absence of experimental infection data.
We present a way to model antibody dynamics in a Bayesian framework that facilitates the incorporation of all available information about potential infection times and apply the model to estimate infection times of Channel Island foxes infected with
Leptospira interrogans .Using simulated data, we show that the approach works well across a broad range of parameter settings and can lead to major improvements in infection time estimates that depend on system characteristics such as antibody decay rate and variation in peak antibody levels after exposure. When applied to field data we saw reductions up to 83% in the window of possible infection times.
The method substantially simplifies the challenge of modelling antibody dynamics in the absence of individuals with known infection times, opens up new opportunities in wildlife disease ecology and can even be applied to cross‐sectional data once the model is trained.
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Li, Shou-Li ; Bjørnstad, Ottar N. ; Ferrari, Matthew J. ; Mummah, Riley ; Runge, Michael C. ; Fonnesbeck, Christopher J. ; Tildesley, Michael J. ; Probert, William J. ; Shea, Katriona ( , Proceedings of the National Academy of Sciences)
