A framework for assessing confidence in freedom from infection in animal disease control programmes
Van Schaik, G; Madouasse, Aurélien; van Roon, A M; More, S J; Graham, D A; Frossling, J; Gethmann, J. M.; Fourichon, Christine; Mercat, M; Agren, E; Sauter-Louis, C; Gunn, George J.; Eze, J; Humphry, R; Henry, M K; Guelbenzu-Gonzalo, M.; Nielen, M; Santman-Berends, I M G
(2023) Revue scientifique et technique (International Office of Epizootics), volume 42, pp. 210 - 217
(Article)
Abstract
In the Surveillance Tool for Outcome-based Comparison of FREEdom from infection (STOC free) project (https://www.stocfree.eu), a data collection tool was constructed to facilitate standardised collection of input data, and a model was developed to allow a standardised and harmonised comparison of the outputs of different control programmes (CPs) for cattle
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diseases. The STOC free model can be used to evaluate the probability of freedom from infection for herds in CPs and to determine whether these CPs comply with the European Union's pre-defined output-based standards. Bovine viral diarrhoea virus (BVDV) was chosen as the case disease for this project because of the diversity in CPs in the six participating countries. Detailed BVDV CP and risk factor information was collected using the data collection tool. For inclusion of the data in the STOC free model, key aspects and default values were quantified. A Bayesian hidden Markov model was deemed appropriate, and a model was developed for BVDV CPs. The model was tested and validated using real BVDV CP data from partner countries, and corresponding computer code was made publicly available. The STOC free model focuses on herd-level data, although that animal-level data can be included after aggregation to herd level. The STOC free model is applicable to diseases that are endemic, given that it needs the presence of some infection to estimate parameters and enable convergence. In countries where infection-free status has been achieved, a scenario tree model could be a better suited tool. Further work is recommended to generalise the STOC free model to other diseases.
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Keywords: Bovine viral diarrhoea virus, Cattle, Control programmes, Output-based surveillance, Probability of freedom from infection, Animal Science and Zoology
ISSN: 0253-1933
Publisher: Office International des Epizooties
Note: Publisher Copyright: © 2023 van Schaik G., Madouasse A., van Roon A.M., More S.J., Graham D.A., Frössling J., Gethmann J., Fourichon C., Mercat M., Ågren E., Sauter-Louis C., Gunn G., Eze J., Humphry R., Henry M.K., Guelbenzu M., Nielen M. & Santman-Berends I.M.G.A.; licensee the World Organisation for Animal Health. This is an open access article distributed under the terms of the Creative Commons Attribution IGO Licence (https://creativecommons.org/licenses/by/3.0/igo/legalcode), which permits unrestricted use, distribution and reproduction in any medium, provided the original work is properly cited. In any reproduction of this article there should not be any suggestion that WOAH or this article endorses any specific organisation, product or service. The use of the WOAH logo is not permitted. This notice should be preserved along with the article's original URL.
(Peer reviewed)