en |
IMPACT OF COVID-19 PANDEMIC CRISIS AND FOOD SAFETY SYSTEM: A Literature Review
Alikord, M & Molaee-aghaee, E
Abstract
The new outbreak as unknown pneumonia that occurred in Wuhan province of China in
December 2019, is a new coronavirus from Severe Acute Respiratory Syndrome
Coronavirus 2 (SARS-CoV-2), and has been termed Coronavirus Disease 2019
(COVID-19). Coronaviruses are a family of viruses that usually cause respiratory
illness. Since food plays an essential role in human health as an integral part of human
life, food safety is critical in such cases. It is essential to adopt practical strategies in
controlling the COVID-19 crisis. Also, extreme economic consequences and threats to
human health were imposed in the COVID-19 pandemic in 2019-2021. Some studies
have been published by World Health Organization (WHO), Environmental Protection
Agency (EPA), and Food and Drug Administration (FDA); however, there is little
information about food safety and COVID-19. Although COVID-19 transmission
routes through food are not currently known, contamination through contaminated food
and environmental surfaces cannot be ignored, especially in manufacturing companies,
restaurants, and communities that are unsanitary. Nevertheless, World Health
Organization precautions on good hygiene when preparing food, and recommends
effective management of food safety during COVID-19. In food safety, COVID-19 is
known as a potential risk through food especially in restaurants and industrial areas.
There have been very few studies on the relationship between food safety and COVID-19. Studies have shown that COVID-19 can survive longer than MERS-CoV in food
stored at 4 °C. In the current situation, several methods are used to disinfect and control
the spread of COVID-19 disease, some of which are not effective and can also have
problems and limitations. Heat treatment, pasteurization, UV light-based, and chemical
disinfectants can be ways to prevent COVID-19 probable transmission. The
temperatures (30 or 40 °C) reduced the survival time of HCoVs on the inanimate
surfaces. The cooking processes (70 °C) are effective in inactivating the virus in food.
SARS-CoVs were inactivated by exposure to ultraviolet (254 nm) for 1 to 6 min with
an increase of up to 400-fold. Also, usage of disinfectants can be effective for
inanimate surfaces. This review summarizes the available data related to some topics
and methods to inactivate COVID-19 and the role and importance of the food industry
and food supply chain during the pandemic.
Keywords
COVID-19; SARS-CoV-2; Food; Safety; Security; Good manufacturing practice
|