Abstract
The tracing of potentially infectious contacts has become an important part of the control strategy for many infectious diseases, from early cases of novel infections to endemic sexually transmitted infections. Here, we make use of mathematical models to consider the case of partner notification for sexually transmitted infection, however these models are sufficiently simple to allow more general conclusions to be drawn. We show that, when contact network structure is considered in addition to contact tracing, standard “mass action” models are generally inadequate. To consider the impact of mutual contacts (specifically clustering) we develop an improvement to existing pairwise network models, which we use to demonstrate that ceteris paribus, clustering improves the efficacy of contact tracing for a large region of parameter space. This result is sometimes reversed, however, for the case of highly effective contact tracing. We also develop stochastic simulations for comparison, using simple re-wiring methods that allow the generation of appropriate comparator networks. In this way we contribute to the general theory of network-based interventions against infectious disease.
Highlights
Modelling has become a central tool in understanding the epidemiology of infectious disease, and designing control strategies
The inclusion of the triplewise model shows that disagreements between pairwise models and simulation in the clustered network are largely due to higher order structure, these effects are nowhere near as large as the differences between mean-field and pairwise models
We have provided an intuitive and general framework in which to study the impact of network clustering on the efficacy of contact tracing in the control of infectious disease
Summary
Modelling has become a central tool in understanding the epidemiology of infectious disease, and designing control strategies. Contact tracing, has been considered in a large number of disease contexts. These include the 2003 SARS pandemic [1,2], the 2001 UK FMD epidemic [3,4,5,6], contingency planning for deliberate release of smallpox [7,8], and control of sexually transmitted infections [9,10,11]. Since contact tracing takes place as a process over the network of interactions between hosts, it is natural to consider networkbased models of this process. This work means that the implications of heterogeneous numbers of contacts (and related network properties such as assortativity) for the efficacy of contact tracing are reasonably well understood
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