Document Type
Article
Publication Date
2-2024
Keywords
antimicrobials; peracetic acid; chlorine; QACs; tolerance; antimicrobial resistance; Salmonella
Abstract
Salmonella remains a top bacterial pathogen implicated in several food-borne outbreaks, despite the use of antimicrobials and sanitizers during production and processing. While these chemicals have been effective, Salmonella has shown the ability to survive and persist in poultry processing environments. This can be credited to its microbial ability to adapt and develop/acquire tolerance and/or resistance to different antimicrobial agents including oxidizers, acids (organic and inorganic), phenols, and surfactants. Moreover, there are several factors in processing environments that can limit the efficacy of these antimicrobials, thus allowing survival and persistence. This mini-review examines the antimicrobial activity of common disinfectants/sanitizers used in poultry processing environments and the ability of Salmonella to respond with innate or acquired tolerance and survive exposure to persists in such environments. Instead of relying on a single antimicrobial agent, the right combination of different disinfectants needs to be developed to target multiple pathways within Salmonella.
Citation
Obe, T., Kiess, A. S., & Nannapaneni, R. (2024). Antimicrobial Tolerance in Salmonella: Contributions to Survival and Persistence in Processing Environments. Animals, 14 (4), 578. https://doi.org/10.3390/ani14040578
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Included in
Agriculture Commons, Dairy Science Commons, Veterinary Medicine Commons, Zoology Commons
