Angela M. Laury scite author profile

The objectives of this study were to determine the effects of a lactic acid- and citric acid-based antimicrobial product on the reduction of Salmonella on whole broiler carcasses during processing and the reduction of Salmonella and Escherichia coli O157:H7 on beef trim. Freshly harvested broiler carcasses were inoculated with an inoculum of Salmonella strains to yield a 10(5) CFU/ml pathogen load on the surface of the carcass. The beef tips were inoculated as well with an inoculum of either E. coli O157:H7 or Salmonella to yield 10(4) CFU/100 cm(2). After 30 min for attachment, the broiler carcasses were treated with Chicxide applied for 5 s via a spray or immersed in Chicxide for 5, 10, or 20 s. Broiler carcasses were rinsed in poultry rinse bags with 400 ml of Butterfield's phosphate buffer in which Salmonella was enumerated from the diluents and Butterfield's phosphate. Chicxide significantly reduced Salmonella by 1.3 log CFU/ml with spray treatment and 2.3 log CFU/ml for all dip treatments. Following 30 min of attachment, the beef tips were placed into a spray cabinet with either Beefxide or sterilized water (control) and sprayed at 1 ft/2.5 s chain speed at 40 lb/in(2). The external surface of each beef tip was swabbed (100 cm(2)) to determine pathogen loads. Beefxide significantly reduced E. coli O157:H7 by 1.4 log CFU/100 cm(2) and Salmonella by 1.1 log CFU/100 cm(2) (P < 0.05) compared with the control samples.

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Evaluation of Nonpathogenic Surrogate Bacteria as Process Validation Indicators for Salmonella enterica for Selected Antimicrobial Treatments, Cold Storage, and Fermentation in Meat

Niebuhr

Laury

Acuff

et al. 2008

Journal of Food Protection

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Prerigor lean and adipose beef carcass tissues were artificially inoculated individually with stationary-phase cultures of five nonpathogenic Escherichia coli cultures that had been previously identified as surrogates for E. coli O157:H7 or a mixture of five Salmonella strains in a fecal inoculum. Each tissue sample was processed with microbial interventions comparable with those used in the meat industry. The log reductions of the E. coli isolates were generally not statistically different from the salmonellae inoculum within a specific treatment. Inoculation experiments were also conducted with ground beef stored at either 4 or -20 degrees C. When compared with the Salmonella inoculum, at least three of the five E. coli strains survived in a manner that was not statistically different from the salmonellae. The E. coli strains and the Salmonella mixed culture were also inoculated into summer sausage batter, and the population enumerated both before and after fermentation. Four of the E. coli strains showed a lower population reduction (higher survival) than the Salmonella mixed culture. The five nonpathogenic E. coli strains may be used as individually or collectively for specific process validation indicators for Salmonella.

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Fate of Escherichia coli O157:H7 in Meat

Laury

Echeverry

Brashears

2009

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Inhibition of Escherichia coli O157:H7 and Clostridium sporogenes in Spinach Packaged in Modified Atmospheres after Treatment Combined with Chlorine and Lactic Acid Bacteria

Brown

Brooks

Karunasena

et al. 2011

Journal of Food Science

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The goal of our work was to identify methods that could reduce food-borne pathogens in packaged spinach products. Using current industry techniques in combination with unique methods, such as the use of beneficial bacteria, our research identified whether harmful microorganisms could be eliminated. Our data demonstrate that specific packaging conditions with beneficial bacteria can help eliminate or reduce the survival of E. coli O157:H7 and C. sporogenes (a model for C. botulinum) in produce.

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Use of Carbon Monoxide Combined with Carbon Dioxide for Modified Atmosphere Packaging of Pre- and Postrigor Fresh Pork Sausage To Improve Shelf Life

Laury

Sebranek

2007

Journal of Food Protection

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Fresh pre- and postrigor pork sausage patties were manufactured in the Iowa State University Meat Laboratory and packaged either in modified atmosphere (MAP) with 0.4% carbon monoxide (CO) and 99.6% carbon dioxide (CO2) or on foam trays overwrapped with oxygen-permeable film (OW). Packages were stored at 2 to 40C under fluorescent lights for up to 31 days. Aerobic, anaerobic, and psychrotrophic plate counts, raw and cooked color, purge, and lipid oxidation were measured during storage. Results indicated that both pork sausage products in MAP had lower aerobic and psychrotrophic counts and less lipid oxidation throughout storage (P < 0.05). Raw color of both products in MAP was redder than the OW patties (P < 0.05), but the prerigor pork sausage in MAP benefited more from the CO atmosphere in terms of raw color than the postrigor pork sausage in MAP. Cooked color of the prerigor pork sausage in MAP was significantly redder than cooked color of the postrigor pork sausage. Both pork sausage products in MAP were also lighter (L* value) than the OW patties for raw and cooked color. Therefore, the combination of CO and CO2 in MAP was beneficial in extending the shelf life of pre-and postrigor fresh pork sausage by reducing aerobic and psychrotrophic microbial growth and improving oxidative stability and color, compared to conventional OW packaging. However, increased purge, increased anaerobic growth, and changes in cooking behavior were also observed for the products in MAP during storage (P < 0.05).

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Angela M. Laury

Validation of a Lactic Acid– and Citric Acid–Based Antimicrobial Product for the Reduction of Escherichia coli O157:H7 and Salmonella on Beef Tips and Whole Chicken Carcasses

Evaluation of Nonpathogenic Surrogate Bacteria as Process Validation Indicators for Salmonella enterica for Selected Antimicrobial Treatments, Cold Storage, and Fermentation in Meat

Fate of Escherichia coli O157:H7 in Meat

Inhibition of Escherichia coli O157:H7 and Clostridium sporogenes in Spinach Packaged in Modified Atmospheres after Treatment Combined with Chlorine and Lactic Acid Bacteria

Use of Carbon Monoxide Combined with Carbon Dioxide for Modified Atmosphere Packaging of Pre- and Postrigor Fresh Pork Sausage To Improve Shelf Life

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