"Blown pack" spoilage is an increasingly reported spoilage condition of vacuum-packed chilled meats. This spoilage condition is primarily caused by a psychrophilic obligately anaerobic microorganism, Clostridium estertheticum. The present study investigated whether peroxyacetic acid (POAA)-based carcass rinse can delay the onset of gas production in chilled vacuum-packed beef artificially inoculated with C. estertheticum spores. The variables studied were (i) two prepackaging meat rinses (water and POAA-based rinse); (ii) three levels of C. estertheticum spores (0, 4, and 40 spores per cm2); and (iii) three postpackaging storage temperatures (-1.5, 0, and 2 degrees C). Treatment with POAA-based rinse marginally delayed the onset of pack blowing in packs carrying high numbers of C. estertheticum spores but not in packs carrying low levels of inoculum or in uninoculated controls. The presence of as few as 4 spores per cm2 of meat surface effectively decreased by two-thirds the nominal shelf life of vacuum-packed chilled beef. Increasing the inoculum by 10-fold to 40 spores per cm2 resulted in the additional acceleration of the onset of pack blowing. The onset of gas production was significantly delayed by storing the packaged product at -1.5 degrees C rather than at 0 degrees C. The results of this study indicate that the POAA-based rinse tested will not eliminate the spoilage threat posed by clostridial blown pack spoilage spores present on meat surfaces. POAA-based rinse can be used alone to achieve some extension of shelf life of beef cuts heavily contaminated with C. estertheticum spores. Alternatively, the rinse may offer an opportunity for a more substantial extension of shelf life of contaminated cuts when used with additional hurdles.
The efficacy of a peroxyacetic acid formulation (POAA) at reducing Escherichia coli O157:H7 contamination on external carcass surfaces of hot-boned beef and veal with a commercial spray apparatus was determined. Hot-boned external carcass surfaces were inoculated with either a high dose (10(6) CFU/cm2) in fresh bovine feces or with a low dose (10(3) CFU/cm2) in diluent of laboratory-cultured E. coli O157:H7. Treatments included a water wash, a POAA (180 ppm) wash, or a water plus POAA wash. Samples were extracted from the external carcass surface with a cork borer to determine the numbers of viable E. coli O157:H7 remaining on the carcass surface after treatment. Although a water wash alone resulted in a 1.25 (94.4%) and a 1.31 (95.1%) mean log reduction on veal and beef inoculated with a high dose of E. coli O157:H7, the POAA treatment resulted in a substantially greater mean log reduction of 3.56 and 3.59 (>99.9%). The water wash only resulted in a 33.9% reduction on veal and 62.8% on beef inoculated with a low dose of E. coli O157:H7, whereas POAA treatment greatly improved pathogen reduction to 98.9 and 97.4% on veal and beef, respectively. The combination of a water wash followed by a POAA treatment resulted in a similar E. coli O157:H7 reduction to that achieved by POAA treatment alone. In conclusion, POAA treatment significantly reduced viable E. coli O157:H7 numbers on experimentally contaminated beef and veal carcasses, which justifies its use as a chemical intervention for the removal of this human pathogen.
Samples of bottom muds from lakes and waterways in the Auckland area were inoculated into bottles of cooked meat medium. After incubation, the media were tested for production of Clostridium botulinum toxin which was detected with samples from 11 of the 20 sites examined. Although toxins produced from all positive samples were neutralized by specific antisera of both type C and D toxins, it is likely that C. botulinum type Calpha is the only type present in the Auckland area. All samples from other urban areas of the North Island gave negative results.
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