Predictive model for the reduction of heat resistance of Listeria monocytogenes in ground beef by the combined effect of sodium chloride and apple polyphenols
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- 作者:Vijay K. Junejaa ; Vijay.Juneja@ars.usda.gov ; Evrim Gü ; ne? Altunta?b ; Kamuran Ayhanb ; Cheng-An Hwanga ; Shiowshuh Sheena ; Mendel Friedmanc
- 关键词:Listeria monocytogenes ; Ground beef ; Sodium chloride ; Apple polyphenols ; Heat resistance ; Microbial food safety
- 刊名:International Journal of Food Microbiology
- 出版年:2013
- 出版时间:3 June, 2013
- 年:2013
- 卷:164
- 期:1
- 页码:54-59
- 全文大小:893 K
文摘
We investigated the combined effect of three internal temperatures (57.5, 60, and 62.5 ¡ãC) and different concentrations (0 to 3.0 wt/wt. % ) of sodium chloride (NaCl) and apple polyphenols (APP), individually and in combination, on the heat-resistance of a five-strain cocktail of Listeria monocytogenes in ground beef. A complete factorial design (3 ¡Á 4 ¡Á 4) was used to assess the effects and interactions of heating temperature, NaCl, and APP. All 48 combinations were tested twice, to yield 96 survival curves. Mathematical models were then used to quantitate the combined effect of these parameters on heat resistance of the pathogen. The theoretical analysis shows that compared with heat alone, the addition of NaCl enhanced and that of APP reduced the heat resistance of L. monocytogenes measured as D-values. By contrast, the protective effect of NaCl against thermal inactivation of the pathogen was reduced when both additives were present in combination, as evidenced by reduction of up to ~ 68 % in D-values at 57.5 ¡ãC; 65 % at 60 ¡ãC; and 25 % at 62.5 ¡ãC. The observed high antimicrobial activity of the combination of APP and low salt levels (e.g., 2.5 % APP and 0.5 % salt) suggests that commercial and home processors of meat could reduce the salt concentration by adding APP to the ground meat. The influence of the combined effect allows a reduction of the temperature of heat treatments as well as the salt content of the meat. Meat processors can use the predictive model to design processing times and temperatures that can protect against adverse effects of contaminated meat products. Additional benefits include reduced energy use in cooking, and the addition of antioxidative apple polyphenols may provide beneficial health affects to consumers.