Occurrence of genetic diversity and differentiation of Campylobacter in poultry flocks

Today, thermophilic Campylobacter spp. (besides Salmonella) represent one of the most common sources of human bacterial gastrointestinal infection. The main source of human C. jejuni infections is the consumption of insufficient heated chicken meat. The aims of the investigations presented here were to detect the Campylobacter genotype distribution in poultry flocks by applying AFLP analysis and to describe a potential carry-over of Campylobacter strains among sequential and adjacent poultry flocks. For the above mentioned purposes, 19 flocks of four poultry species were monitored to investigate the distribution and spread of Campylobacter genotypes between sequential and adjacent flocks. Caecal and liver samples were obtained at frequent intervals from birds of all flocks and these samples were examined for Campylobacter. The amplified fragment length polymorphism (AFLP) analysis was performed to genotype Campylobacter isolates. Of the 1643 caecal and liver-samples investigated, 452 (27.5%) caecal samples and 11(0.7%) liver samples contained Campylobacter. Of the caecal isolates 76.3% were identified as C. jejuni and 23.7% were identified as C. coli. Poultry flocks were largely colonised by more than one AFLP type and an intense exchange of Campylobacter genotypes between different poultry flocks occurred. The results show clearly that poultry and poultry meat are regarded as one of the main sources of thermophilic Campylobacter spp. infection in humans in the food chain. This is evident not only from the high rate of occurrence of these pathogens, but also from the often-high quantitative exposure samples. The risk of a foodborne infection is also enhanced by the comparatively very low minimum infectious dose for humans. At present, a complete elimination of thermophilic Campylobacter spp. from the food chain appears practically unreachable. This difficulty is reduced by the results of genetic strain diversity, because they suggest the existence of a variety of input sources.