Identifying a sufficient core group for trachoma transmission

Thomas M Lietman, Michael S Deiner, Catherine E Oldenburg, Scott D Nash, Jeremy D Keenan and Travis C Porco

PLOS Neglected Tropical Diseases, 2018, vol. 12, issue 10, 1-11

Abstract: Background: In many infectious diseases, a core group of individuals plays a disproportionate role in transmission. If these individuals were effectively prevented from transmitting infection, for example with a perfect vaccine, then the disease would disappear in the remainder of the community. No vaccine has yet proven effective against the ocular strains of chlamydia that cause trachoma. However, repeated treatment with oral azithromycin may be able to prevent individuals from effectively transmitting trachoma. Methodology/Principal findings: Here we assess several methods for identifying a core group for trachoma, assuming varying degrees of knowledge about the transmission process. We determine the minimal core group from a completely specified model, fitted to results from a large Ethiopian trial. We compare this benchmark to a core group that could actually be identified from information available to trachoma programs. For example, determined from the rate of return of infection in a community after mass treatments, or from the equilibrium prevalence of infection. Conclusions/Significance: Sufficient groups are relatively easy for programs to identify, but will likely be larger than the theoretical minimum. Author summary: Public health programs can in theory target treatment to a core group of individuals responsible for a disproportionate amount of transmission. The smallest group of individuals who need to be vaccinated to eventually eliminate an infectious disease is easy to find in theory, but not in practice. While no vaccine has proven effective for trachoma, intensive periodic treatment may be able to effectively prevent individuals from transmitting infection. Here we use a variety of methods to find a core group for trachoma transmission, including methods that use information available to trachoma programs. We show that the rate that infection returns into a community after mass treatment, or the pre-treatment prevalence of an infectious disease should work, but will include more individuals than the theoretical minimum core group.

Date: 2018
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pntd00:0006478

DOI: 10.1371/journal.pntd.0006478

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