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Effectiveness and Efficiency of Controlling Campylobacter on Broiler Chicken Meat

Author

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  • Arie H. Havelaar
  • Marie‐Josee J. Mangen
  • Aline A. De Koeijer
  • Marc‐Jeroen Bogaardt
  • Eric G. Evers
  • Wilma F. Jacobs‐Reitsma
  • Wilfrid Van Pelt
  • Jaap A. Wagenaar
  • G. Ardine De Wit
  • Henk Van Der Zee
  • Maarten J. Nauta

Abstract

Campylobacter bacteria are an important cause of foodborne infections. We estimated the potential costs and benefits of a large number of possible interventions to decrease human exposure to Campylobacter by consumption of chicken meat, which accounts for 20–40% of all cases of human campylobacteriosis in the Netherlands. For this purpose, a farm‐to‐fork risk assessment model was combined with economic analysis and epidemiological data. Reduction of contamination at broiler farms could be efficient in theory. However, it is unclear which hygienic measures need to be taken and the costs can be very high. The experimental treatment of colonized broiler flocks with bacteriophages has proven to be effective and could also be cost efficient, if confirmed in practice. Since a major decrease of infections at the broiler farm is not expected in the short term, additional measures in the processing plant were also considered. At this moment, guaranteed Campylobacter‐free chicken meat at the retail level is not realistic. The most promising interventions in the processing plant are limiting fecal leakage during processing and separation of contaminated and noncontaminated flocks (scheduling), followed by decontamination of the contaminated flock. New (faster and more sensitive) test methods to detect Campylobacter colonization in broilers flocks are a prerequisite for successful scheduling scenarios. Other methods to decrease the contamination of meat of colonized flocks such as freezing and heat treatment are more expensive and/or less effective than chemical decontamination.

Suggested Citation

  • Arie H. Havelaar & Marie‐Josee J. Mangen & Aline A. De Koeijer & Marc‐Jeroen Bogaardt & Eric G. Evers & Wilma F. Jacobs‐Reitsma & Wilfrid Van Pelt & Jaap A. Wagenaar & G. Ardine De Wit & Henk Van Der , 2007. "Effectiveness and Efficiency of Controlling Campylobacter on Broiler Chicken Meat," Risk Analysis, John Wiley & Sons, vol. 27(4), pages 831-844, August.
    • Handle: RePEc:wly:riskan:v:27:y:2007:i:4:p:831-844
    DOI: 10.1111/j.1539-6924.2007.00926.x
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    References listed on IDEAS

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    1. Mangen, Marie-Josee J. & Poppe, Krijn J. & Havelaar, Arie H., 2005. "Controlling Campylobacter in the chicken meat chain; Estimation of intervention costs," Report Series 29108, Wageningen University and Research Center, Agricultural Economics Research Institute.
    2. Maarten Nauta & Ine Van Der Fels‐Klerx & Arie Havelaar, 2005. "A Poultry‐Processing Model for Quantitative Microbiological Risk Assessment," Risk Analysis, John Wiley & Sons, vol. 25(1), pages 85-98, February.
    3. P. F. M. Teunis & A. H. Havelaar, 2000. "The Beta Poisson Dose‐Response Model Is Not a Single‐Hit Model," Risk Analysis, John Wiley & Sons, vol. 20(4), pages 513-520, August.
    4. Wendelke E. A. Katsma & Aline A. De Koeijer & Wilma F. Jacobs‐Reitsma & Marie‐Josée J. Mangen & Jaap A. Wagenaar, 2007. "Assessing Interventions to Reduce the Risk of Campylobacter Prevalence in Broilers," Risk Analysis, John Wiley & Sons, vol. 27(4), pages 863-876, August.
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    1. Wendelke E. A. Katsma & Aline A. De Koeijer & Wilma F. Jacobs‐Reitsma & Marie‐Josée J. Mangen & Jaap A. Wagenaar, 2007. "Assessing Interventions to Reduce the Risk of Campylobacter Prevalence in Broilers," Risk Analysis, John Wiley & Sons, vol. 27(4), pages 863-876, August.
    2. Yicheol Han & Stephan J. Goetz & Claudia Schmidt, 2021. "Visualizing Spatial Economic Supply Chains to Enhance Sustainability and Resilience," Sustainability, MDPI, vol. 13(3), pages 1-15, February.
    3. Yukichika Kawata & Masahide Watanabe, 2018. "Economic feasibility of Campylobacter†reduced chicken: Do consumers have high willingness to pay?," Agribusiness, John Wiley & Sons, Ltd., vol. 34(2), pages 222-239, March.
    4. Dorota Kurowicka & Maarten Nauta & Katarzyna Jozwiak & Roger Cooke, 2010. "Updating Parameters of the Chicken Processing Line Model," Risk Analysis, John Wiley & Sons, vol. 30(6), pages 934-944, June.
    5. Maarten Nauta & Bjarke Christensen, 2011. "The Impact of Consumer Phase Models in Microbial Risk Analysis," Risk Analysis, John Wiley & Sons, vol. 31(2), pages 255-265, February.
    6. Eric G. Evers & Petra A. Berk & Mijke L. Horneman & Frans M. van Leusden & Rob de Jonge, 2014. "A Quantitative Microbiological Risk Assessment for Campylobacter in Petting Zoos," Risk Analysis, John Wiley & Sons, vol. 34(9), pages 1618-1638, September.
    7. Marie‐Josée J. Mangen & Michael B. Batz & Annemarie Käsbohrer & Tine Hald & J. Glenn Morris & Michael Taylor & Arie H. Havelaar, 2010. "Integrated Approaches for the Public Health Prioritization of Foodborne and Zoonotic Pathogens," Risk Analysis, John Wiley & Sons, vol. 30(5), pages 782-797, May.
    8. Maarten J. Nauta & Arnout R. H. Fischer & Esther D. Van Asselt & Aarieke E. I. De Jong & Lynn J. Frewer & Rob De Jonge, 2008. "Food Safety in the Domestic Environment: The Effect of Consumer Risk Information on Human Disease Risks," Risk Analysis, John Wiley & Sons, vol. 28(1), pages 179-192, February.
    9. Régis Pouillot & Véronique Goulet & Marie Laure Delignette‐Muller & Aurélie Mahé & Marie Cornu, 2009. "Quantitative Risk Assessment of Listeria monocytogenes in French Cold‐Smoked Salmon: II. Risk Characterization," Risk Analysis, John Wiley & Sons, vol. 29(6), pages 806-819, June.
    10. Marie‐Josée J. Mangen & Arie H. Havelaar & Krijn P. Poppe & G. Ardine De Wit & the CARMA Project Team, 2007. "Cost‐Utility Analysis to Control Campylobacter on Chicken Meat—Dealing with Data Limitations," Risk Analysis, John Wiley & Sons, vol. 27(4), pages 815-830, August.
    11. Martijn Bouwknegt & Anne B. Knol & Jeroen P. van der Sluijs & Eric G. Evers, 2014. "Uncertainty of Population Risk Estimates for Pathogens Based on QMRA or Epidemiology: A Case Study of Campylobacter in the Netherlands," Risk Analysis, John Wiley & Sons, vol. 34(5), pages 847-864, May.

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