Use and abuse of mathematical models : an illustration from the 2001 foot and mouth disease epidemic in the United Kingdom

Kitching, R.; Thrusfield, Michael; Taylor, Nick

doi:10.20506/rst.25.1.1665

Cited by 87 publications

(56 citation statements)

References 65 publications

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“…Although not included in some of the mathematical models used in the FMD epidemic in the United Kingdom in 2001 (Ferguson et al 2001;Keeling et al 2001), it was accepted that there was within-herd transmission of FMD (Hutber and Kitching 2000). Accordingly, it is likely that farm-level infectiousness would increase over time as the number of animals infected increased (Taylor 2003;Haydon et al 2004;Honhold et al 2004;Kitching et al 2006). Future comparisons should assess the impact of within-herd spread in more complex, realistic scenarios.…”

Section: Discussionmentioning

confidence: 99%

A comparison of predictions made by three simulation models of foot-and-mouth disease

Dubé

Stevenson

Garner³

et al. 2007

New Zealand Veterinary Journal

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Section: Discussionmentioning

confidence: 99%

A comparison of predictions made by three simulation models of foot-and-mouth disease

Dubé

Stevenson

Garner³

et al. 2007

New Zealand Veterinary Journal

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“…However, perception of these models by other scientists working on these public health problems remains divided. Although modelling approaches have gained growing acceptance in recent years, as illustrated by the number of articles published in high-profile journals [4][5][6], the use of mathematical models has also at times elicited scepticism or defiance [7,8]. To the best of our knowledge, no study quantifying the perceived growing impact of the modelling approach on the scientific community or providing in-depth information on the relationships between mathematical models and other relevant scientific fields has been published.…”

Section: Introductionmentioning

confidence: 99%

The rising impact of mathematical modelling in epidemiology: antibiotic resistance research as a case study

et al. 2007

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Mathematical modelling of infectious diseases has gradually become part of public health decision-making in recent years. However, the developing status of modelling in epidemiology and its relationship with other relevant scientific approaches have never been assessed quantitatively. Herein, using antibiotic resistance as a case study, 60 published models were analysed. Their interactions with other scientific fields are reported and their citation impact evaluated, as well as temporal trends. The yearly number of antibiotic resistance modelling publications increased significantly between 1990 and 2006. This rise cannot be explained by the surge of interest in resistance phenomena alone. Moreover, modelling articles are, on average, among the most frequently cited third of articles from the journal in which they were published. The results of this analysis, which might be applicable to other emerging public health problems, demonstrate the growing interest in mathematical modelling approaches to evaluate antibiotic resistance.

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“…These approaches provide contexts in which policy options for disease control and risk assessment can be built into system preparedness, though from experience they are often poor decision-making tools for disease alleviation (see below). Perhaps not surprisingly, the specification and parametrization of these models, and their accompanying evidence base, have often been identified as highly uncertain [30,31]. Parameter estimation, an essential part of model development, is frequently based on data considered to be comparable to the system under study, while clearly being different.…”

Section: Uncertainties Of Anticipationmentioning

confidence: 99%

Uncertainties in the governance of animal disease: an interdisciplinary framework for analysis

Fish

Austin

Christley

et al. 2011

Phil. Trans. R. Soc. B

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Uncertainty is an inherent feature of strategies to contain animal disease. In this paper, an interdisciplinary framework for representing strategies of containment, and analysing how uncertainties are embedded and propagated through them, is developed and illustrated. Analysis centres on persistent, periodic and emerging disease threats, with a particular focus on cryptosporidiosis, foot and mouth disease and avian influenza. Uncertainty is shown to be produced at strategic, tactical and operational levels of containment, and across the different arenas of disease prevention, anticipation and alleviation. The paper argues for more critically reflexive assessments of uncertainty in containment policy and practice. An interdisciplinary approach has an important contribution to make, but is absent from current real-world containment policy.

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Use and abuse of mathematical models : an illustration from the 2001 foot and mouth disease epidemic in the United Kingdom

Cited by 87 publications

References 65 publications

A comparison of predictions made by three simulation models of foot-and-mouth disease

A comparison of predictions made by three simulation models of foot-and-mouth disease

The rising impact of mathematical modelling in epidemiology: antibiotic resistance research as a case study

Uncertainties in the governance of animal disease: an interdisciplinary framework for analysis

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