Transmission and dose-response experiments for social animals: a reappraisal of the colonization biology of Campylobacter jejuni in chickens
Doseresponse experiments characterize the relationship between infectious agents and their hosts. These experiments are routinely used to estimate the minimum effective infectious dose for an infectious agent, which is most commonly characterized by the dose at which 50 per cent of challenged hosts become infectedthe ID50. In turn, the ID50 is often used to compare between different agents and quantify the effect of treatment regimes. The statistical analysis of doseresponse data typically makes the assumption that hosts within a given dose group are independent. For social animals, in particular avian species, hosts are routinely housed together in groups during experimental studies. For experiments with non-infectious agents, this poses no practical or theoretical problems. However, transmission of infectious agents between co-housed animals will modify the observed doseresponse relationship with implications for the estimation of the ID50 and the comparison between different agents and treatments. We derive a simple correction to the likelihood for standard doseresponse models that allows us to estimate doseresponse and transmission parameters simultaneously. We use this model to show that: transmission between co-housed animals reduces the apparent value of the ID50 and increases the variability between replicates leading to a distinctive all-or-nothing response; in terms of the total number of animals used, individual housing is always the most efficient experimental design for ascertaining doseresponse relationships; estimates of transmission from previously published experimental data for Campylobacter spp. in chickens suggest that considerable transmission occurred, greatly increasing the uncertainty in the estimates of doseresponse parameters reported in the literature. Furthermore, we demonstrate that accounting for transmission in the analysis of doseresponse data for Campylobacter spp. challenges our current understanding of the differing response of chickens with respect to host-age and in vivo passage of bacteria. Our findings suggest that the age-dependence of transmissibility between hostsrather than their susceptibility to colonizationis the mechanism behind the lag-phase reported in commercial flocks, which are typically found to be Campylobacter free for the first 1421 days of life.
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Publication
Contributors
Conlan A J K, Line J E, Hiett K, Coward C, Van Diemen P M, Stevens M P, Jones M A, Gog J R, Maskell D J
Year
2011
Journal
Journal of the Royal Society Interface
Volume
8
Issue
65
Pages
1720-1735
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