Dealing with FMD cost-effectively: preparation helps

03-04 | |
The structure and density of FMD-susceptible species populations play an important role in disease spread and the choice of a control strategy. Photo: Peter Roek
The structure and density of FMD-susceptible species populations play an important role in disease spread and the choice of a control strategy. Photo: Peter Roek

A recent study looked at different livestock settings in Italy to assess the spread of Foot-and-Mouth Disease (FMD) in relation to the cost effectiveness of potential control strategies.

The study highlights that the structure and density of FMD-susceptible species populations play an important role in disease spread and the choice of a control strategy. Transmission is, therefore, strongly related to distribution and density of FMD-susceptible animals.

The study

In this study, which has been published in Animals journal, a model was applied to simulate the spread of FMD in 3 Italian regions with different livestock demographics (densely, medium, and sparsely populated) in order to assess the cost effectiveness of the disease control options within the framework of the Italian contingency plan.

Italian livestock production is characterised by a heterogenous geographical distribution, with some of the most densely populated livestock areas in Europe found in Northern Italy where cattle and pig farming are concentrated. In addition, certain areas predominantly in central and southern Italy are distinguished by herds of different species reared in extensive and traditional husbandry systems.

To explore the dynamics of epidemics and the effect of the control strategies, 3 areas were identified and selected. The areas differ in terms of livestock population density, species, and type of farming:

  • Densely-populated livestock area: includes the administrative province of Brescia, Mantua, and Cremona in the region of Lombardy; >450 animals/km2.
  • Medium-populated livestock area: includes the administrative province of Pavia and Lodi in the region of Lombardy; >51 animals/km2.
  • Sparsely-populated livestock area: includes the administrative provinces of Grosseto and Siena in the region of Tuscany; ≤50 animals/km2.

The geographical coordinates, animal species farmed, type of production, and number of cloven-hoofed livestock animals and farms in the areas included in the study were collected from the Italian National Database of Livestock Species.

In accordance with current EU legislation, the control strategies tested were as follows:

  • Stamping-out.
  • Pre-emptive culling of 50 farms at risk of being contaminated or likely to contribute to the spread of the infection within a radius of 5 km.
  • Ring vaccination within a radius of 5 km. Vaccine efficacy was set at 40%.

Results and costs

The study also took into account economic resources to adopt control strategies. The direct costs of the FMD control options applied were estimated using a deterministic approach while adapting a spreadsheet tool, where the total costs were the result of:

  • Animal compensation due to culling;
  • Cost of culling, carcass disposal, farm cleaning, and disinfection;
  • Cost of surveillance;
  • Cost of vaccination (when applied);
  • Cost of personnel.

The results of the simulations showed that stamping-out was sufficient to control the outbreak in the sparsely and medium-populated areas whereas, in densely populated areas, only vaccinations could effectively control an outbreak.

In terms of the economic resources needed for the adoption of different control strategies, considering livestock indemnity, cleaning, disinfection and disposal, surveillance, vaccination and personnel costs, the results showed that indemnity due to culling had the highest impact on the costs in all scenarios and vaccination resulted in the most cost-effective option to apply in densely-populated livestock areas.

Conclusion

The researchers stated that maintaining an entirely non-immune population of animals susceptible to FMD requires permanent disease awareness and preparedness. Also, modelling disease spread lays the foundations for the design of a sound contingency plan and for the rapid mobilisation of resources to respond to an outbreak. Contingency plans have proven to be a crucial tool for the successful control of disease emergencies and, considering that a solution for all the possible situations does not exist, such plans must be flexible enough to adjust to the circumstances, they added.

The researchers also stressed that animal health crises that have occurred previously have shown the benefits of having specific, detailed, and rapid procedures for the management of disease emergencies. They noted that it is well documented that FMD countries capable of responding promptly to an FMD incursion recover their free status faster than countries with longer reaction times.

van Dijk
Zana van Dijk Editor Dairy Global
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