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Approaches to empower the implementation of new tools to detect and prevent foodborne pathogens in food processing


Rivera, D and Toledo, V and Reyes-Jara, A and Navarrete, P and Tamplin, M and Kimura, B and Wiedmann, M and Silva, P and Switt, AIM, Approaches to empower the implementation of new tools to detect and prevent foodborne pathogens in food processing, Food Microbiology, 75 pp. 126-132. ISSN 0740-0020 (2018) [Contribution to Refereed Journal]

Copyright Statement

2017 Elsevier Ltd.

DOI: doi:10.1016/


Foodborne pathogens cause an important public health burden, which is estimated in 600 million cases and more than 400,000 deaths, globally every year. The most susceptible populations, such as children under the age of five, the elderly and immunocompromised, account for the majority of the deaths. Food safety incidents, outbreaks, sporadic cases, and recalls have recognized economic impact, estimated at 7 billion every year in the US. Food safety has become a priority, and the implementation of preventive controls and monitoring systems has raised the development of new tools to detect and prevent pathogens in the food chain. Detection tools have evolved quickly, from rapid testing methods to application of genomics and metagenomics. Importantly, to reduce food safety hazards at food processing, the food chain needs to be seen from farm to fork. This review summarized the main findings discussed during the 2016 OECD-sponsored symposium on food safety. These include i) trends in food safety that embrace the need to implement new tools in detection and prevention, ii) the very rapid evolution of technologies to detect foodborne pathogens, iii) holistic approaches to prevent pathogens require a whole chain approach, and iv) key pillars to facilitate global implementations of new tools in food safety.

Item Details

Item Type:Contribution to Refereed Journal
Keywords:food safety, detection, prevention, foodborne pathogens, regulatory aspects
Research Division:Biological Sciences
Research Group:Microbiology
Research Field:Microbiology not elsewhere classified
Objective Division:Health
Objective Group:Public health (excl. specific population health)
Objective Field:Food safety
UTAS Author:Tamplin, M (Professor Mark Tamplin)
ID Code:123485
Year Published:2018 (online first 2017)
Web of Science® Times Cited:15
Deposited By:Tasmanian Institute of Agriculture
Deposited On:2018-01-10
Last Modified:2018-12-13

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