TY - JOUR
T1 - Practice and Progress
T2 - Updates on Outbreaks, Advances in Research, and Processing Technologies for Low-moisture Food Safety
AU - Acuff, Jennifer C.
AU - Dickson, James S.
AU - Farber, Jeffrey M.
AU - Grasso-Kelley, Elizabeth M.
AU - Hedberg, Craig
AU - Lee, Alvin
AU - Zhu, Mei Jun
N1 - Publisher Copyright:
© 2022 The Authors.
PY - 2023/1
Y1 - 2023/1
N2 - Large, renowned outbreaks associated with low‐moisture foods (LMFs) bring to light some of the potential, inherent risks that accompany foods with long shelf lives if pathogen contamination occurs. Subsequently, in 2013, Beuchat et al. (2013) noted the increased concern regarding these foods, specifically noting examples of persistence and resistance of pathogens in low‐water activity foods (LWAFs), prevalence of pathogens in LWAF processing environments, and sources of and preventive measures for contamination of LWAFs. For the last decade, the body of knowledge related to LMF safety has exponentially expanded. This growing field and interest in LMF safety have led researchers to delve into survival and persistence studies, revealing that some foodborne pathogens can survive in LWAFs for months to years. Research has also uncovered many complications of working with foodborne pathogens in desiccated states, such as inoculation methods and molecular mechanisms that can impact pathogen survival and persistence. Moreover, outbreaks, recalls, and developments in LMF safety research have created a cascading feedback loop of pushing the field forward, which has also led to increased attention on how industry can improve LMF safety and raise safety standards. Scientists across academia, government agencies, and industry have partnered to develop and evaluate innovate thermal and nonthermal technologies to use on LMFs, which are described in the presented review. The objective of this review was to describe aspects of the extensive progress made by researchers and industry members in LMF safety, including lessons‐learned about outbreaks and recalls, expansion of knowledge base about pathogens that contaminate LMFs, and mitigation strategies currently employed or in development to reduce food safety risks associated with LMFs.
AB - Large, renowned outbreaks associated with low‐moisture foods (LMFs) bring to light some of the potential, inherent risks that accompany foods with long shelf lives if pathogen contamination occurs. Subsequently, in 2013, Beuchat et al. (2013) noted the increased concern regarding these foods, specifically noting examples of persistence and resistance of pathogens in low‐water activity foods (LWAFs), prevalence of pathogens in LWAF processing environments, and sources of and preventive measures for contamination of LWAFs. For the last decade, the body of knowledge related to LMF safety has exponentially expanded. This growing field and interest in LMF safety have led researchers to delve into survival and persistence studies, revealing that some foodborne pathogens can survive in LWAFs for months to years. Research has also uncovered many complications of working with foodborne pathogens in desiccated states, such as inoculation methods and molecular mechanisms that can impact pathogen survival and persistence. Moreover, outbreaks, recalls, and developments in LMF safety research have created a cascading feedback loop of pushing the field forward, which has also led to increased attention on how industry can improve LMF safety and raise safety standards. Scientists across academia, government agencies, and industry have partnered to develop and evaluate innovate thermal and nonthermal technologies to use on LMFs, which are described in the presented review. The objective of this review was to describe aspects of the extensive progress made by researchers and industry members in LMF safety, including lessons‐learned about outbreaks and recalls, expansion of knowledge base about pathogens that contaminate LMFs, and mitigation strategies currently employed or in development to reduce food safety risks associated with LMFs.
KW - Food safety
KW - Low moisture
KW - Low‐water activity
KW - Pathogen resistance
KW - Research advancement
UR - http://www.scopus.com/inward/record.url?scp=85149503242&partnerID=8YFLogxK
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U2 - 10.1016/j.jfp.2022.11.010
DO - 10.1016/j.jfp.2022.11.010
M3 - Review article
C2 - 36916598
AN - SCOPUS:85149503242
SN - 0362-028X
VL - 26
JO - Journal of food protection
JF - Journal of food protection
IS - 1
M1 - 100018
ER -