BackgroundSurveillance and intervention are resource-using activities of strategies to mitigate the unwanted effects of disease. Resources are scarce, and allocating them to disease mitigation instead of other uses necessarily involves the loss of alternative sources of benefit to people. For society to obtain the maximum benefits from using resources, the gains from disease mitigation must be compared to the resource costs, guiding decisions made with the objective of achieving the optimal net outcome.DiscussionEconomics provides criteria to guide decisions aimed at optimising the net benefits from the use of scarce resources. Assessing the benefits of disease mitigation is no exception. However, the technical complexity of mitigation means that economic evaluation is not straightforward because of the technical relationship of surveillance to intervention. We argue that analysis of the magnitudes and distribution of benefits and costs for any given strategy, and hence the outcome in net terms, requires that mitigation is considered in three conceptually distinct stages. In Stage I, 'sustainment', the mitigation objective is to sustain a free or acceptable status by preventing an increase of a pathogen or eliminating it when it occurs. The role of surveillance is to document that the pathogen remains below a defined threshold, giving early warning of an increase in incidence or other significant changes in risk, and enabling early response. If a pathogen is not contained, the situation needs to be assessed as Stage II, 'investigation'. Here, surveillance obtains critical epidemiological information to decide on the appropriate intervention strategy to reduce or eradicate a disease in Stage III, 'implementation'. Stage III surveillance informs the choice, timing, and scale of interventions and documents the progress of interventions directed at prevalence reduction in the population.SummaryThis article originates from a research project to develop a conceptual framework and practical tool for the economic evaluation of surveillance. Exploring the technical relationship between mitigation as a source of economic value and surveillance and intervention as sources of economic cost is crucial. A framework linking the key technical relationships is proposed. Three conceptually distinct stages of mitigation are identified. Avian influenza, salmonella, and foot and mouth disease are presented to illustrate the framework.
SUMMARYThis paper originated in a project to develop a practical, generic tool for the economic
evaluation of surveillance for farm animal diseases at national level by a state
veterinary service. Fundamental to that process is integration of epidemiological and
economic perspectives. Using a generalized example of epidemic disease, we show that an
epidemic curve maps into its economic equivalent, a disease mitigation function, that
traces the relationship between value losses avoided and mitigation resources expended.
Crucially, elementary economic principles show that mitigation, defined as loss reduction
achieved by surveillance and intervention, must be explicitly conceptualized as a
three-variable process, and the relative contributions of surveillance and intervention
resources investigated with regard to the substitution possibilities between them.
Modelling the resultant mitigation surfaces for different diseases should become a
standard approach to animal health policy analysis for economic efficiency, a contribution
to the evolving agenda for animal health economics research.
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