Refereed journal article or data article (A1)

Capturing multiple-type interactions into practical predictors of type replacement following human papillomavirus vaccination




List of AuthorsIrene Man, Kari Auranen, Jacco Wallinga, Johannes A. Bogaards

PublisherThe Royal Society

Publication year2019

JournalPhilosophical Transactions B: Biological Sciences

Journal acronymPhil. Trans. R. Soc. B

Volume number374

Issue number1773

Number of pages8

ISSN0962-8436

eISSN1471-2970

DOIhttp://dx.doi.org/10.1098/rstb.2018.0298


Abstract

Current HPV vaccines target a subset of the oncogenic human papillomavirus (HPV) types. If HPV types compete during infection, vaccination may trigger replacement by the non-targeted types. Existing approaches to assess the risk of type replacement have focused on detecting competitive interactions between pairs of vaccine and non-vaccine types. However, methods to translate any inferred pairwise interactions into predictors of replacement have been lacking. In this paper, we develop practical predictors of type replacement in a multi-type setting, readily estimable from pre-vaccination longitudinal or cross-sectional prevalence data. The predictors we propose for replacement by individual non-targeted types take the form of weighted cross-hazard ratios of acquisition versus clearance, or aggregate odds ratios of coinfection with the vaccine types. We elucidate how the hazard-based predictors incorporate potentially heterogeneous direct and indirect type interactions by appropriately weighting type-specific hazards and show when they are equivalent to the odds-based predictors. Additionally, pooling type-specific predictors proves to be useful for predicting increase in the overall non-vaccine-type prevalence. Using simulations, we demonstrate good performance of the predictors under different interaction structures. We discuss potential applications and limitations of the proposed methodology in predicting type replacement, as compared to existing approaches.

This article is part of the theme issue ‘Silent cancer agents: multi-disciplinary modelling of human DNA oncoviruses’.


Last updated on 2021-24-06 at 09:09