Abstract
Many minimally processed foods depend on a combination of inhibitory factors to reduce the hazard of foodborne illness. Therefore, inactivation of Listeria innocua was studied according to a 2 4 factorial experiment designed to draw conclusions about temperature (52.5 °C and 65.0 °C), pH (4.5 and 7.5), water activity (a w =0.95 and 0.99) and solute type (NaCl and glycerol) effects. Three different recovery media were used to assess injured cells. Survival data were fitted with a Gompertz-based model and kinetic parameters (shoulder, maximum inactivation rate – k max , and tail) were estimated. Results showed that shoulder was affected by temperature, pH and combined effects; k max was influenced by all factors and their combinations; and tail was affected by a w , temperature and a w /pH combination. Results demonstrated the potential occurrence of microbial cross-protection survival techniques between the various stresses, e.g. heat and osmolarity. Indeed, this work clearly established that, to avoid hazards, Listeria inactivation must be evaluated with a maximum of environmental factors that undergo alterations. Only thus, appropriate food preservation treatments can be developed and consequently, the safety of food products can be assured.
Highlights
Pathogenic bacteria in food may encounter different stressing conditions such as high or low temperature, pH and water activity values
This study aimed at determining the influence and interactions of temperature, pH, aw and type of solute on the inactivation of L. innocua 10528
To achieve accurate results concerning the thermal inactivation of microorganisms, it is crucial to study the influence of relevant factors
Summary
Pathogenic bacteria in food may encounter different stressing conditions such as high or low temperature, pH and water activity (aw) values. L. monocytogenes can grow at refrigerated temperatures, has the ability to tolerate acidic conditions and can survive on dry surfaces (Norrung, 2000). Control of this bacterium is a major challenge for the food producers, since it can adapt to food environments, which normally restrict bacterial growth. A non-pathogenic species of Listeria is Listeria innocua. This bacterium is often used as a thermal processing surrogate for L. monocytogenes (Kondjoyan & Portanguen, 2008; Char, Guerrero, & Alzamora, 2009), since they share similar characteristics and environments. Besides the criticism of some researchers in assuming the parallelism of both species in a variety of foods and processing conditions, there are a considerable
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