The impact of primary and secondary processing steps on Campylobacter concentrations on chicken carcasses and portions

Campylobacteriosis is the most commonly notified foodborne disease in New Zealand and poultry meat is the major source for human infection. Carcasses and portions were sampled from key points along primary and secondary processing chains of three New Zealand poultry processors to determine the impact of processing steps on Campylobacter concentrations. Primary processing reduced Campylobacter concentrations on carcasses by almost 6-log; the biggest reduction was achieved by the spinchill, followed by the scald step. Significant plant differences in the degree of Campylobacter reduction were also observed at these steps. The spinchill and final acidified sodium chlorite wash resulted in carcasses with low-to-no levels of Campylobacter regardless of concentrations at prior steps. A similar study was conducted at primary processing for one plant in 2013; significant improvements in Campylobacter mitigation since 2013 were noted. Campylobacter concentrations from final product from secondary processing were higher than concentrations at the end of primary processing. Drumsticks had lower Campylobacter concentrations than other portion types. Skin removal from product did not consistently result in product with lower Campylobacter concentrations. Results identify key areas to target for further reduction of Campylobacter on poultry meat, and provide a benchmark to compare the efficacy of future interventions.

Automated summary

Campylobacteriosis is the most common foodborne disease in New Zealand, with poultry meat being the main source of human infection. A study was conducted on three poultry processors to determine the impact of processing steps on Campylobacter concentrations. Primary processing steps showed a significant reduction in Campylobacter concentrations on carcasses, while secondary processing resulted in higher concentrations in the final product. These findings provide valuable insights for targeting key areas in reducing Campylobacter on poultry meat.