Thermal Tolerance of O157 and non-O157 Shiga Toxigenic Strains of Escherichia coli, Salmonella, and Potential Pathogen Surrogates, in Frankfurter Batter and Ground Beef of Varying Fat Levels

Vasan, Akhila; Geier, Renae; Ingham, Steven C.; Ingham, Barbara H.

doi:10.4315/0362-028x.jfp-14-106

Cited by 14 publications

(7 citation statements)

References 40 publications

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“…An increased fat content in food products increased the heat resistance of E. coli in some studies (Line et al, 1991; Huang et al, 1992; Ahmed et al, 1995; Smith et al, 2001; Liu et al, 2015), while other studies reported decreased resistance, no effect, or strain-specific effects (Kotrola and Conner, 1997; Vasan et al, 2014; Liu et al, 2015). The potential direct effects of fat on heat resistance of E. coli are confounded by the strong effect of fat on heat transfer in solid foods.…”

Section: Effects Of Salt or Sugar Addition In High Moisture Foodsmentioning

confidence: 97%

Some Like It Hot: Heat Resistance of Escherichia coli in Food

Gänzle

2016

Front. Microbiol.

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Heat treatment and cooking are common interventions for reducing the numbers of vegetative cells and eliminating pathogenic microorganisms in food. Current cooking method requires the internal temperature of beef patties to reach 71°C. However, some pathogenic Escherichia coli such as the beef isolate E. coli AW 1.7 are extremely heat resistant, questioning its inactivation by current heat interventions in beef processing. To optimize the conditions of heat treatment for effective decontaminations of pathogenic E. coli strains, sufficient estimations, and explanations are necessary on mechanisms of heat resistance of target strains. The heat resistance of E. coli depends on the variability of strains and properties of food formulations including salt and water activity. Heat induces alterations of E. coli cells including membrane, cytoplasm, ribosome and DNA, particularly on proteins including protein misfolding and aggregations. Resistant systems of E. coli act against these alterations, mainly through gene regulations of heat response including EvgA, heat shock proteins, σE and σS, to re-fold of misfolded proteins, and achieve antagonism to heat stress. Heat resistance can also be increased by expression of key proteins of membrane and stabilization of membrane fluidity. In addition to the contributions of the outer membrane porin NmpC and overcome of osmotic stress from compatible solutes, the new identified genomic island locus of heat resistant performs a critical role to these highly heat resistant strains. This review aims to provide an overview of current knowledge on heat resistance of E. coli, to better understand its related mechanisms and explore more effective applications of heat interventions in food industry.

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Section: Effects Of Salt or Sugar Addition In High Moisture Foodsmentioning

confidence: 97%

Some Like It Hot: Heat Resistance of Escherichia coli in Food

Gänzle

2016

Front. Microbiol.

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“…When ground beef fat content increased from 7 to 30% and patties were frozen, then thawed or refrigerated before cooking on a gas grill, there was a greater inactivation of E. coli O157:H7. Additionally, thermal processing steps used to eliminate E. coli O157:H7 can also be utilized to eliminate non-O157 STEC, only a few strains may posses a higher thermal tolerance and need a different type of processing (Vasan et al, 2014). Furthermore, irradiation treatment has been found to eliminate E. coli O157:H7, consequently the USDA has created regulations on irradiation of beef products to eliminate these pathogens (Vogt and Dippold, 2005).…”

Section: Pathogens Associated With Ground Beefmentioning

confidence: 99%

“…These guidelines outline a minimum time and temperature combination that must be met to achieve a 6.5-log reduction of Salmonella in beef products (Vasan et al, 2014). Salmonella causes an estimated one million cases of food born illness, which results in nearly 400 deaths a year (Scallan et al, 2011).…”

Section: Pathogens Associated With Ground Beefmentioning

confidence: 99%

Consumer preference of ground beef patties with varying percentages of finely textured beef

et al. 2016

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“…The authors found significant differences in decimal reduction of E. coli among various strains at 55 °C. The time for Salmonella decimal reduction was found to be significantly less than O157 and non-O157 Shiga toxigenic E. coli (Vasan et al, 2014).…”

mentioning

confidence: 78%

“…The inactivation results of foodborne pathogens in ground beef by the energy of radio frequency indicated that the cooking of meatballs with the combination of radio frequency and convection cooking reduced the levels of E. coli O157:H7, Salmonella, and Listeria monocytogenes to the non-detectable levels in 5.5 minutes (Schlisselberg et al, 2013). It has also been reported that the efficacy of treatments with regards to pathogen inactivation changes with products and strains (Vasan, Geier, Ingham, & Ingham, 2014). The authors found significant differences in decimal reduction of E. coli among various strains at 55 °C.…”

mentioning

confidence: 99%

The Relative Efficacy of Thermal and Acidification Stresses on the Survival of E. coli O157:H7, Salmonella, and Listeria Monocytogenes in Ground Beef

Biswas¹,

Pandey²

2016

JFR

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To provide additional insights on pathogen survival, we evaluated the relative efficacy of acidification (pH 2.7), thermophilic treatment (55 °C), and low temperature pasteurization (68 °C) on the inactivation of E. coli O157:H7, Salmonella, and Listeria monocytogenes in ground beef. A series of experiment was conducted under biosafety level 3 environments for assessing the impacts of heat and low pH on pathogen survival. Results showed that 5-log reductions of E. coli O157:H7 could take more than 2640 min at 55 °C, 134 min at 68 °C and 120 min under pH 2.7. Compared to E. coli O157:H7, the 5-log reduction of Salmonella was obtained in 4836, 126, 86 min at 55 °C, 68 °C, and pH 2.7, respectively. The 5-log reduction of Listeria was achieved in 4704, 200, and 115 min under 55 °C, 68 °C, and pH 2.7, respectively. The results of this study will provide additional insights for developing improved methods for controlling pathogens in ground beef.

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Thermal Tolerance of O157 and non-O157 Shiga Toxigenic Strains of Escherichia coli, Salmonella, and Potential Pathogen Surrogates, in Frankfurter Batter and Ground Beef of Varying Fat Levels

Cited by 14 publications

References 40 publications

Some Like It Hot: Heat Resistance of Escherichia coli in Food

Some Like It Hot: Heat Resistance of Escherichia coli in Food

Consumer preference of ground beef patties with varying percentages of finely textured beef

The Relative Efficacy of Thermal and Acidification Stresses on the Survival of E. coli O157:H7, Salmonella, and Listeria Monocytogenes in Ground Beef

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