Abstract
BackgroundSoil-transmitted helminths (STH) are intestinal parasites estimated to infect over 1.5 billion people. Current treatment programmes are aimed at morbidity control through school-based deworming programmes (targeting school-aged children, SAC) and treating women of reproductive age (WRA), as these two groups are believed to record the highest morbidity. More recently, however, the potential for interrupting transmission by treating entire communities has been receiving greater emphasis and the feasibility of such programmes are now under investigation in randomised clinical trials through the Bill & Melinda Gates Foundation funded DeWorm3 studies. Helminth parasites are known to be highly aggregated within human populations, with a small minority of individuals harbouring most worms. Empirical evidence from the TUMIKIA project in Kenya suggests that aggregation may increase significantly after anthelminthic treatment.MethodsA stochastic, age-structured, individual-based simulation model of parasite transmission is employed to better understand the factors that might induce this pattern. A simple probabilistic model based on compounded negative binomial distributions caused by age-dependencies in both treatment coverage and exposure to infection is also employed to further this understanding.ResultsBoth approaches confirm helminth aggregation is likely to increase post-mass drug administration as measured by a decrease in the value of the negative binomial aggregation parameter, k. Simple analytical models of distribution compounding describe the observed patterns well.ConclusionsThe helminth aggregation that was observed in the field was replicated with our stochastic individual-based model. Further work is required to generalise the probabilistic model to take account of the respective sensitivities of different diagnostics on the presence or absence of infection.
Highlights
Soil-transmitted helminths (STH) are intestinal parasites estimated to infect over 1.5 billion people
We investigate the impact of mass drug administration (MDA) on worm aggregation via observed patterns in communities experiencing high MDA coverage; through the predictions of probability models of the impact of MDA; and through individualbased stochastic simulations of parasite transmission and MDA impact under different patterns of individual compliance to multiple rounds of treatment
Predictions based on the stochastic simulations At equilibrium, N. americanus prevalence was approximately 65% in all villages for all compliance scenarios
Summary
Soil-transmitted helminths (STH) are intestinal parasites estimated to infect over 1.5 billion people. The soil-transmitted helminths (STH) are a group of intestinal parasites comprising Ascaris lumbricoides (roundworm), Trichuris trichiura (whipworm), and Necator americanus and Ancylostoma duodenale (the hookworms). There are an estimated 1.5 billion individuals infected with at least one intestinal nematode globally, cumulatively resulting in over five million disability-adjusted life years (DALYs) [2]. The most common anthelmintic drugs in use against STH are albendazole and mebendazole. Both are known to have few side effects [4, 5] generally high efficacy [6], and are currently donated for global use in deworming programmes by GlaxoSmithKline and Johnson & Johnson, respectively
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