Evaluating swine disease occurrence on farms using the state-space model based on meat inspection data: a time-series analysis

Author:

Narita Tsubasa1,Kubo Meiko2,Nagakura Yuichi3,Sekiguchi Satoshi1

Affiliation:

1. University of Miyazaki

2. Miyazaki Prefectural Takasaki Meet Inspection Center

3. Miyazaki Prefectural Miyakonojyou Meet Inspection Center

Abstract

Abstract Background Data on abnormal health conditions in animals obtained from slaughter inspection are important for identifying problems in fattening management. However, methods to objectively evaluate diseases on farms using inspection data has not yet been well established. It is important to assess fattening management on farms using data obtained from slaughter inspection. In this study, we developed the state-space model to evaluate swine morbidity using slaughter inspection data. Results The most appropriate model for each disease was constructed using the state-space model. Data on 11 diseases in slaughterhouses over the past 4 years were used to build the model. The model was validated using data from 14 farms. The local-level model (the simplest model) was the best model for all diseases. We found that the analysis of slaughter data using the state-space model could construct a model with greater accuracy and flexibility than the ARIMA model. In this study, no seasonality or trend model was selected for any disease. It is thought that models with seasonality were not selected because diseases in swine shipped to slaughterhouses were the result of illness at some point during the 6-month fattening period between birth and shipment. Conclusion Evaluation of previous diseases helps with the objective understanding of problems in fattening management. We believe that clarifying how farms manage fattening of their pigs will lead to improved farm profits. In that respect, it is important to use slaughterhouse data for fattening evaluation, and it is extremely useful to use mathematical models for slaughterhouse data. However, in this research, the model was constructed on the assumption of normality and linearity. In the future, we believe that we can build a more accurate model by considering models that assume non-normality and non-linearity.

Publisher

Research Square Platform LLC

Reference26 articles.

1. Defining syndromes using cattle meat inspection data for syndromic surveillance purposes: A statistical approach with the 2005–2010 data from ten French slaughterhouses;Dupuy C;BMC Vet Res,2013

2. Contribution of meat inspection to animal health surveillance in Swine;Ellerbroek L;EFSA Supporting Publications,2017

3. Evaluation of Swiss slaughterhouse data for integration in a syndromic surveillance system;Vial F;BMC Vet Res,2014

4. Alton GD, Pearl DL, Bateman KG, Mcnab WB, Berke O. Factors associated with whole carcass condemnation rates in provincially-inspected abattoirs in Ontario 2001–2007: implications for food animal syndromic surveillance. BMC Vet Res [Internet]. 2010;6(42). Available from: http://www.biomedcentral.com/1746-6148/6/42.

5. Comparison of time-series models for monitoring temporal trends in endemic diseases sero-prevalence: Lessons from porcine reproductive and respiratory syndrome in Danish swine herds;Lopes Antunes AC;BMC Vet Res,2019

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