Abstract
Campylobacteriosis is currently the most frequent foodborne zoonosis in many countries. One main source is poultry. The aim of this study was to enhance the knowledge about the potential of bacteriophages in reducing colonization of broilers with Campylobacter , as there are only a few in vivo studies published. Commercial broilers were inoculated with 104 CFU/bird of a Campylobacter jejuni field strain. Groups of 88 birds each were subsequently treated with a single phage or a four-phage cocktail (107 PFU/bird in CaCO3 buffered SM-Buffer). Control birds received the solvent only. Afterwards, subgroups of eleven birds each were examined for their loads with phages and Campylobacter on day 1, 3, 7, 14, 21, 28, 35 and 42 after phage application. The susceptibility of the Campylobacter population to phage infection was determined using ten isolates per bird. In total 4180 re-isolates were examined. The study demonstrated that the deployed phages persisted over the whole investigation period. The Campylobacter load was permanently reduced by the phage-cocktail as well as by the single phage. The reduction was significant between one and four weeks after treatment and reached a maximum of log10 2.8 CFU/g cecal contents. Phage resistance rates of initially up to 43% in the single phage treated group and 24% in the cocktail treated group later stabilized at low levels. The occurrence of phage resistance influenced but did not override the Campylobacter reducing effect. Regarding the reduction potential, the cocktail treatment had only a small advantage over the singe phage treatment directly after phage administration. However, the cocktail moderated and delayed the emergence of phage resistance.
Highlights
Human campylobacteriosis is presently the most frequent foodborne zoonosis in the EU with stable rates of about 53 confirmed cases per 100 000 population and year during 2006-09 [1]
One main cause of human campylobacteriosis is handling, preparation and consumption of broiler meat, which may account for 20% to 30 percent of human infections with Campylobacter
A reduction of intestinal colonization of broilers would lead to a considerable decline of human campylobacteriosis [4]
Summary
Human campylobacteriosis is presently the most frequent foodborne zoonosis in the EU with stable rates of about 53 confirmed cases per 100 000 population and year during 2006-09 [1]. A risk assessment showed that a reduction of log of Campylobacter counts on broiler carcasses leads to a 30-fold decline in human campylobacteriosis caused by consuming chickens [5]. Available conventional pre-harvest strategies to reduce Campylobacter contamination in poultry production are not sufficient [6]. These pre-harvest strategies include the application of on-farm biosecurity measures, the decontamination of litter, and the supplementation of feed with compounds inhibiting Campylobacter and the treatment of drinking water. Novel strategies, targeting Campylobacter control at pre-harvest level, are in progress, including administration of probiotics, vaccination, antibiotics, changes in feed structure and antimicrobial alternatives, i.e. bacteriophages (phages) and bacteriocins [7,8]. Phages are a promising supplementary tool for the production of safe poultry food products [17]
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