Abstract
The current study investigated Listeria monocytogenes inactivation using mild heat with elevated hydrostatic pressure and nisin under buffered condition. A four-strain pathogen mixture was exposed to 0 (control) and up to 9 min of (1) 4 °C elevated pressure; (2) 4 °C elevated pressure and nisin; (3) 4 °C nisin; (4) heat at 40 °C; (5) 40 °C elevated pressure; (6) 40 °C elevated pressure and nisin; and (7) 40 °C nisin. Elevated hydrostatic pressure at 400 MPa (Hub880 Explorer, Pressure BioScience Inc., Easton, MA, USA) and nisin concentration of 5000 IU/mL were used in the trials. Analyses of variance were conducted, followed by Dunnett’s- and Tukey-adjusted means separations. Under conditions of these experiments, nisin augmented (p < 0.05) decontamination efficacy of 40 °C heat and elevated hydrostatic pressure treatments, particularly at treatment interval of 3 min. This synergism with nisin faded away (p ≥ 0.05) as the treatment time for thermal, high-pressure, and thermal-assisted pressure processing increased. The results of our study, thus, exhibit that practitioners and stakeholders of pressure-based technologies could benefit from synergism of mild heat and nisin for short-term, high-pressure pasteurization treatments to achieve microbial safety and economic feasibility comparable to traditional heat-treated products.
Highlights
Considering the complexity of microbial communities, their adaptability to environmental changes, and their ubiquitous nature, contamination of water supplies and food products with pathogens of public health concern is practically unavoidable
The results of our study, exhibit that practitioners and stakeholders of pressure-based technologies could benefit from synergism of mild heat and nisin for short-term, high-pressure pasteurization treatments to achieve microbial safety and economic feasibility comparable to traditional heat-treated products
The current study investigated the synergism of nisin and pressure-based pasteurization against the planktonic cells of L. monocytogenes
Summary
Considering the complexity of microbial communities, their adaptability to environmental changes, and their ubiquitous nature, contamination of water supplies and food products with pathogens of public health concern is practically unavoidable. As such, assuring safety of food and water supplies from natural and anthropogenic microbial pathogens is a daunting task and a moving target [1,2]. Among more than 200 pathogenic organisms that could cause foodborne illnesses, hospitalizations, and deaths, various serotypes of Listeria monocytogenes ( 4b, 1/2a, and 1/2b) are of great public health significance. 20% hospitalization and death rates, respectively, associated with these outbreaks. Epidemiological evidence from the active surveillance data of the CDC reveals similar trends with at least 1591 annual illnesses associated with L. monocytogenes (>99% of the cases are foodborne), with 94% hospitalization rate and 15.9%
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