Abstract
Listeria monocytogenes is a pathogen of considerable public health importance with a high case fatality. L. monocytogenes can grow at refrigeration temperatures and is of particular concern for ready-to-eat foods that require refrigeration. There is substantial interest in conducting and modeling shelf-life studies on L. monocytogenes, especially relating to storage temperature. Growth model parameters are generally estimated from constant-temperature growth experiments. Traditionally, first-order and second-order modeling (or primary and secondary) of growth data has been done sequentially. However, omnibus modeling, using a mixed-effects nonlinear regression approach, can model a full dataset covering all experimental conditions in one step. This study compared omnibus modeling to conventional sequential first-order/second-order modeling of growth data for five strains of L. monocytogenes. The omnibus model coupled a Huang primary model for growth with secondary models for growth rate and lag phase duration. First-order modeling indicated there were small significant differences in growth rate depending on the strain at all temperatures. Omnibus modeling indicated smaller differences. Overall, there was broad agreement between the estimates of growth rate obtained by the first-order and omnibus modeling. Through an appropriate choice of fixed and random effects incorporated in the omnibus model, potential errors in a dataset from one environmental condition can be identified and explored.
Highlights
Listeria monocytogenes is a facultatively anaerobic Gram-positive bacterium which is pathogenic for humans and is of considerable public health importance
Analysis of variance showed that there were some significant differences in growth rates among strains, which increased with temperature
Silva et al [23] developed a web-based SHINY app which reports a meta-analysis estimate of growth rate for L. monocytogenes of 0.063 h−1 with a 95% confidence interval between 0.0517 and 0.0755 h−1 at 8 ◦C
Summary
Listeria monocytogenes is a facultatively anaerobic Gram-positive bacterium which is pathogenic for humans and is of considerable public health importance. Within the European Union, EFSA [1] reported 2549 human cases of listeriosis (0.47 cases per 100,000 population) in 2018 with a statistically significant increasing trend from 2009–2018. There has been substantial activity within the European Union and elsewhere to provide guidance on how to conduct laboratory shelf-life studies on L. monocytogenes in RTE foods to assure product safety and to conform to regulatory requirements. Several guidance documents have emerged outlining the conduct of challenge studies relating to L. monocytogenes in RTE foods. The EC/DG SANCO guidance [2] documents a decision tree approach for the steps of shelf-life studies in order to investigate the growth of L. monocytogenes in the product. An EURL Lm Technical Guidance Document [3] details challenge tests and durability studies related to the growth of L. monocytogenes in RTE foods. Other guidance documents are available [5,6]
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