Review of proposed different irradiation methods to inactivate food-processing viruses and microorganisms

Sharifeh Shahi^{1

2}, Reza Khorvash³, Mohammad Goli^{2

4}, Seyed Mohsen Ranjbaran², Afsaneh Najarian⁵, Abdorreza Mohammadi Nafchi^{6

7}

Affiliations

¹ Department of Biomedical Engineering Isfahan (Khorasgan) Branch Islamic Azad University Isfahan Iran.
² Laser and Biophotonics in Biotechnologies Research Center Isfahan (Khorasgan) Branch Islamic Azad University Isfahan Iran.
³ School of Medicine Isfahan University of Medical Sciences Isfahan Iran.
⁴ Department of Food Science and Technology Isfahan (Khorasgan) Branch Islamic Azad University Isfahan Iran.
⁵ Department of Food Science University of Guelph Guelph ON Canada.
⁶ Food Technology Division School of Industrial Technology Universiti Sains Malaysia Penang Malaysia.
⁷ Department of Food Science and Technology Damghan Branch Islamic Azad University Damghan Iran.

PMID: 34646553
PMCID: PMC8498048
DOI: 10.1002/fsn3.2539

Review

Review of proposed different irradiation methods to inactivate food-processing viruses and microorganisms

Sharifeh Shahi et al. Food Sci Nutr. 2021.

. 2021 Aug 22;9(10):5883-5896.

doi: 10.1002/fsn3.2539. eCollection 2021 Oct.

Authors

Sharifeh Shahi^{1

2}, Reza Khorvash³, Mohammad Goli^{2

4}, Seyed Mohsen Ranjbaran², Afsaneh Najarian⁵, Abdorreza Mohammadi Nafchi^{6

7}

Affiliations

¹ Department of Biomedical Engineering Isfahan (Khorasgan) Branch Islamic Azad University Isfahan Iran.
² Laser and Biophotonics in Biotechnologies Research Center Isfahan (Khorasgan) Branch Islamic Azad University Isfahan Iran.
³ School of Medicine Isfahan University of Medical Sciences Isfahan Iran.
⁴ Department of Food Science and Technology Isfahan (Khorasgan) Branch Islamic Azad University Isfahan Iran.
⁵ Department of Food Science University of Guelph Guelph ON Canada.
⁶ Food Technology Division School of Industrial Technology Universiti Sains Malaysia Penang Malaysia.
⁷ Department of Food Science and Technology Damghan Branch Islamic Azad University Damghan Iran.

PMID: 34646553
PMCID: PMC8498048
DOI: 10.1002/fsn3.2539

Abstract

Coronaviruses, which have been enveloped nonsegmented positive-sense RNA viruses, were first mentioned in the mid-1960s and can attack people as well as a wide range of animals (including mammals and birds). Three zoonotic coronaviruses have been identified as the cause of large-scale epidemics over the last two decades: Middle East respiratory syndrome (MERS), severe acute respiratory syndrome (SARS), and swine acute diarrhea syndrome (SADS). Epithelial cells in the respiratory and gastrointestinal tract are the principal targeted cells, and viral shedding occurs via these systems in diverse ways such as through fomites, air, or feces. Patients infected with the novel coronavirus (2019-nCoV) reported having visited the Wuhan seafood wholesale market shortly before disease onset. The clinical data on established 2019-nCoV cases reported so far indicate a milder disease course than that described for patients with SARS-CoV or MERS-CoV. This study aimed to review radiation inactivation of these viruses in the food industry in three sections: visible light, ionizing radiation (alpha ray, beta ray, X-ray, gamma ray, neutron, plasma, and ozone), and nonionizing radiation (microwave, ultraviolet, infrared, laser light, and radiofrequency). Due to the obvious possibility of human-to-human and animal-to-human transmission, using at least one of these three methods in food processing and packaging during coronavirus outbreaks will be critical for preventing further outbreaks at the community level.

Keywords: food processing; ionizing radiation; nonionizing radiation; viruses radiation‐inactivation; visible‐light radiation.

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Conflict of interest statement

The authors declare that they have no conflict of interest and that no human or animal research was included in the report.

Figures

**FIGURE 1**
Electromagnetic spectrum (Lima et al., 2018)

**FIGURE 2**
Type of ionizing radiations and penetration depth (Antonio‐Javier et al., 2018)

**FIGURE 3**
The category of UV spectrum by emphasize on germicidal efficiency without ozone production (Cheng et al., 2020)

See this image and copyright information in PMC

References

1. Ahari, H. , Alinejad Dizaj, M. , Paidari, S. , & Anvar, A. A. (2016). The Effect of Gamma (γ) Irradiation to inactivate Escherichia coli in contaminated water. Iranian Journal of Aquatic Animal Health, 2(2), 88–96. 10.18869/acadpub.ijaah.2.2.88 - DOI
1. Al‐Ani, M. Y. , & Al‐Khalidy, F. R. (2006). Use of ionizing radiation technology for treating municipal wastewater. International Journal of Environmental Research, 3(4), 360–368. - PubMed
1. Silvestre, C. , Cimmino, S. , Stoleru, E. , & Vasile, C. (2017). Application of radiation technology to food packaging. Chapter 20, PP, 461‐484.
1. Augusto Goncalves, A. (2009). Ozone ‐ an emerging technology for the seafood industry. Brazilian Archives of Biology and Technology, 52(6), 1527–1539. 10.1590/S1516-89132009000600025 - DOI
1. Barnaud, E. , Rogee, S. , Garry, P. , Rose, N. , & Pavio, N. (2012). Thermal inactivation of infectious hepatitis E virus in experimentally contaminated food. Applied and Environmental Microbiology, 75(15), 5153–5159. - PMC - PubMed

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Review of proposed different irradiation methods to inactivate food-processing viruses and microorganisms

Affiliations

Review of proposed different irradiation methods to inactivate food-processing viruses and microorganisms

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

References

Publication types

LinkOut - more resources

Full Text Sources

Miscellaneous