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Mehrnaz Hatami

Mehrnaz Hatami

Academic rank: Associate Professor
ORCID: https://orcid.org/0000-0002-7873-144X
Education: PhD.
ScopusId: 55221393500
HIndex:
Faculty: Agriculture and Environment
Address: Arak University
Phone:

Research

Title
New insights into the role of nanotechnology in microbial food safety
Type
JournalPaper
Keywords
Nanotechnology · Nutraceuticals · Encapsulation · Probiotics · Food safety · Viability
Year
2020
Journal 3 Biotech
DOI
Researchers Farzad Rahmati ، Seyyedeh Sanaz Hosseini ، Sadaf Mahuti Safai ، behnam Asgari lajayer ، Mehrnaz Hatami

Abstract

Today, the role of nanotechnology in human life is undeniable as a broad range of industries, particularly food and medicine sectors, have been dramatically influenced. Nanomaterials can contribute to food safety by forming new nano-sized ingredients with modified physicochemical characteristics. Nanotechnologies can inhibit the growth of food spoilage microorganisms by recruiting novel and unique agents that are involved in removal of microbes from foods or prevent adhesion of microbial cells to food surfaces. Hence, nanotechnology could be considered as a high-potential tool in food packaging, safety, and preservation. Moreover, the prevention of biofilm formation by disturbing the attachment of bacteria to the food surface is another useful nanotechnological approach. Recently, nanoparticle-based biosensors have been designed and developed to detect the food-borne pathogens and hazardous substances through complicated mechanisms. During the past half-century, many methods such as freeze-drying and spray drying have been employed for increasing the viability in food industries; however, the other novel approaches such as encapsulation methods have also been developed. Admittedly, some beneficial bacteria such as probiotics bring diverse benefits for human health if only they are in a sufficient number and viability in the food products and gastrointestinal tract (GI). Encapsulation of these valuable microbial strains by nanoparticles improves the survival of probiotics under harsh conditions such as extreme levels of temperature, pH, and salinity during the processing of food products and within the GIT tract. The survival and effectiveness of encapsulated microorganisms depends on different factors including function of cell wall components in bacteria and type of coating materials. This review aims to broadly explore the potential of different aspects of nanotechnology in food industry, especially for packaging, preservation, safety, and viability.