Emergence and dynamics of influenza super-strains

Brian J. Coburn, Chris Cosner, Shigui Ruan

Research output: Contribution to journalArticle

8 Scopus citations

Abstract

Background. Influenza super-strains can emerge through recombination of strains from birds, pigs, and humans. However, once a new recombinant strain emerges, it is not clear whether the strain is capable of sustaining an outbreak. In certain cases, such strains have caused major influenza pandemics. Methods. Here we develop a multi-host (i.e., birds, pigs, and humans) and multi-strain model of influenza to analyze the outcome of emergent strains. In the model, pigs act as "mixing vessels" for avian and human strains and can produce super-strains from genetic recombination. Results. We find that epidemiological outcomes are predicted by three factors: (i) contact between pigs and humans, (ii) transmissibility of the super-strain in humans, and (iii) transmissibility from pigs to humans. Specifically, outbreaks will reoccur when the super-strain intections are less frequent between humans (e.g., R 0=1.4) but grequent from pigs to humans, and a large-scale outbreak followed by successively damping outbreaks will occur when human transmissibility is high (e.g., R0=2.3). The average time between the initial outbreak and the first resurgence varies from 41 to 82 years. We determine the largest outbreak will occur when 2.3 <R0 < 3.8 and the highest cumulative infections occur when 0 <R0 < 3.0 and is dependent on the frequency of pig-to-human infections for lower R 0 values (0 <R0 < 1.9). Conclusions. Our results provide insights on the effect of species interactions on the dynamics of influenza super-strains. Counter intuitively, epidemics may occur in humans even if the transmissibility of a super-strain is low. Surprisingly, our modeling shows strains that have generated past epidemics (e.g., H1N1) could resurge decades after they have apparently disappeared.

Original languageEnglish (US)
Article numberS6
JournalBMC public health
Volume11
Issue numberSUPPL. 1
DOIs
StatePublished - Mar 17 2011

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ASJC Scopus subject areas

  • Public Health, Environmental and Occupational Health

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