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|Abstract:||The World Health Organisation’s definition of public health refers to all organized measures to prevent disease, promote health, and prolong life among the population as a whole (World Health Organization, 2014). Mathematical modelling plays an increasingly important role in helping to guide the most high impact and cost-effective means of achieving these goals. Public health programmes are usually implemented over a long period of time with broad benefits to many in the community. Clinical trials are seldom large enough to capture these effects. Observational data may be used to evaluate a programme after it is underway, but have limited value in helping to predict the future impact of a proposed policy. Furthermore, public health practitioners are often required to respond to new threats, for which there is little or no previous data on which to assess the threat. Computational and mathematical models can help to assess potential threats and impacts early in the process, and later aid in interpreting data from complex and multifactorial systems. As such, these models can be critical tools in guiding public health action. However, there are a number of challenges in achieving a successful interface between modelling and public health. Here, we discuss some of these challenges.|
|Citation:||Metcalf, C.J.E., Edmunds, W.J., Lessler, J. (2015). Six challenges in modelling for public health policy. Epidemics, 10 (93 - 96). doi:10.1016/j.epidem.2014.08.008|
|Pages:||93 - 96|
|Type of Material:||Journal Article|
|Version:||Final published version. This is an open access article.|
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