Discrepancy Between the Occurrence of Arcobacter in Chickens and Broiler Carcass Contamination
Both Campylobacter and Arcobacter are commonly present on broiler carcasses. For Campylobacter, the superficial contamination originates predominantly from fecal contamination during slaughter. In contrast with Campylobacter, the source of the Arcobacter contamination is not clear. In several studie...
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Veröffentlicht in: | Poultry science 2007-04, Vol.86 (4), p.744-751 |
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Sprache: | eng |
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Zusammenfassung: | Both Campylobacter and Arcobacter are commonly present on broiler carcasses. For Campylobacter, the superficial contamination originates predominantly from fecal contamination during slaughter. In contrast with Campylobacter, the source of the Arcobacter contamination is not clear. In several studies, arcobacters have been isolated in poultry processing plants from the carcasses and slaughter equipment, but not from the intestinal content. In literature, contradictory reports about the Arcobacter colonization of the chicken gut have been published. In most of those studies, arcobacters were not isolated from cecal content nor from litter or the feathers, though some studies reported the isolation of arcobacters from cloacal swab samples. The present study assessed if arcobacters are part of the chicken intestine, skin, or feather flora. Because no isolation protocol has been validated for poultry intestinal content, a previously developed Arcobacter isolation procedure for feces from livestock animals was first validated. With this method, a good repeatability, in-lab reproducibility and sensitivity, and a good suppression of the chicken fecal accompanying flora were achieved when 125 mg/L of 5-fluorouracil, 10 mg/L of amphotericine B, 100 mg/L of cycloheximide, 16 mg/L of cefoperazone, 64 mg/L of novobiocine, and 64 mg/L of trimethoprim were applied. The validated method was used to examine the presence of arcobacters in and on living chickens of 4 flocks at slaughter age. Because arcobacters were not isolated from the intestinal tract nor from the skin or feathers of the birds, this study was not able to identify arcobacters as part of the intestinal or skin flora, nor could confirm the role of process water as reservoir. However, the results clearly demonstrated that the time period for processing the samples and the way of sample collection are crucial in the interpretation of epidemiological studies. As the reservoir of the carcass contamination remains unidentified, studies about the capacity of arcobacters to colonize the chicken intestinal tract may contribute in the assessment of the transmission routes of this emerging foodborn pathogen. |
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ISSN: | 0032-5791 1525-3171 |
DOI: | 10.1093/ps/86.4.744 |