The ability of foodborne pathogens to exhibit adaptive responses to stressful conditions in foods may enhance their survival when passing through the gastrointestinal system. We aimed to determine whether surviving stresses encountered during a model dry-fermented sausage (DFS) production process exhibit enhanced tolerance and survival in an gastrointestinal model. Salami sausage batters spiked with five isolates, including enterohaemorrhagic strains isolated from different DFS outbreaks, were fermented in a model DFS process (20°C, 21 days). Control batters spiked with the same strains were stored at 4°C for the same period. Samples from matured model sausages and controls were thereafter exposed to an digestion challenge. Gastric exposure (pH 3) resulted in considerably reduced survival of the strains that had undergone the model DFS process. This reduction continued after entering intestinal challenge (pH 8), but growth resumed after 120 min. When subjected to gastric challenge for 120 min, that had undergone the DFS process showed about 2.3 log lower survival compared with those kept in sausage batter at 4°C. Our results indicated that strains surviving a model DFS process exhibited reduced tolerance to subsequent gastric challenge at low pH.
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| http://dx.doi.org/10.1155/2017/5176384 | DOI Listing |
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