TY - JOUR T1 - Transfer of Campylobacter from a Positive Batch to Broiler Carcasses of a Subsequently Slaughtered Negative Batch: A Quantitative Approach. JF - J Food Prot Y1 - 2016 A1 - Seliwiorstow, Tomasz A1 - Julie Baré A1 - Inge Van Damme A1 - I. Gisbert Algaba A1 - Uyttendaele, Mieke A1 - de Zutter, Lieven KW - Abattoirs KW - Animals KW - Campylobacter KW - Chickens KW - Colony Count, Microbial KW - Food Contamination KW - Food Handling KW - Food Microbiology KW - Meat AB -

The present study was conducted to quantify Campylobacter cross-contamination from a positive batch of broiler chicken carcasses to a negative batch at selected processing steps and to evaluate the duration of this cross-contamination. During each of nine visits conducted in three broiler slaughterhouses, Campylobacter levels were determined on broiler carcasses originating from Campylobacter-negative batches processed immediately after Campylobacter-positive batches. Data were collected after four steps during the slaughter process (scalding, plucking, evisceration, and washing) at 1, 10, and 20 min after the start of the slaughter of the batches. Campylobacter levels in ceca of birds from Campylobacter-positive batches ranged from 5.62 to 9.82 log CFU/g. When the preceding positive batch was colonized at a low level, no (enumerable) carcass contamination was found in a subsequent negative batch. However, when Campylobacter levels were high in the positive batch, Campylobacter was found on carcasses of the subsequent negative batch but at levels significantly lower than those found on carcasses from the preceding positive batch. The scalding and the evisceration process contributed the least (< 1.5 log CFU/g) and the most (up to 4 log CFU/ g), respectively, to the Campylobacter transmission from a positive batch to a negative batch. Additionally, the number of Campylobacter cells transferred from positive to negative batches decreased over the first 20 min of sampling time. However, the reduction was slower than previously estimated in risk assessment studies, suggesting that pathogen transfer during crosscontamination is a complex process.

VL - 79 CP - 6 U1 - http://www.ncbi.nlm.nih.gov/pubmed/27296592?dopt=Abstract M3 - 10.4315/0362-028X.JFP-15-486 ER -