Treatment of Fresh Meat, Fish and Products Thereof with Cold Atmospheric Plasma to Inactivate Microbial Pathogens and Extend Shelf Life

Author:

Paulsen PeterORCID,Csadek Isabella,Bauer Alexandra,Bak Kathrine H.ORCID,Weidinger PiaORCID,Schwaiger KarinORCID,Nowotny NorbertORCID,Walsh James,Martines EmilioORCID,Smulders Frans J. M.

Abstract

Assuring the safety of muscle foods and seafood is based on prerequisites and specific measures targeted against defined hazards. This concept is augmented by ‘interventions’, which are chemical or physical treatments, not genuinely part of the production process, but rather implemented in the framework of a safety assurance system. The present paper focuses on ‘Cold Atmospheric pressure Plasma’ (CAP) as an emerging non-thermal intervention for microbial decontamination. Over the past decade, a vast number of studies have explored the antimicrobial potential of different CAP systems against a plethora of different foodborne microorganisms. This contribution aims at providing a comprehensive reference and appraisal of the latest literature in the area, with a specific focus on the use of CAP for the treatment of fresh meat, fish and associated products to inactivate microbial pathogens and extend shelf life. Aspects such as changes to organoleptic and nutritional value alongside other matrix effects are considered, so as to provide the reader with a clear insight into the advantages and disadvantages of CAP-based decontamination strategies.

Publisher

MDPI AG

Subject

Plant Science,Health Professions (miscellaneous),Health (social science),Microbiology,Food Science

Reference145 articles.

1. Why do animal-based food loss and waste matter?;Lipinski;Anim. Front.,2020

2. FAO. Food and Agriculture Organization of the United Nations (2022, August 19). Food Wastage Footprint and Climate Change, Rome Italy, 2015. Available online: https://www.fao.org/3/bb144e/bb144e.pdf.

3. Genetic and environmental effects on meat quality;Warner;Meat Sci.,2010

4. Meeting the meat: Delineating the molecular machinery of muscle development;Jan;J. Anim. Sci. Technol.,2016

5. Mohammadabadi, M., Bordbar, F., Jensen, J., Du, M., and Guo, W. (2021). Key genes regulating skeletal muscle development and growth in farm animals. Animals, 11.

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