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Radical species generating technologies for decontamination of Listeria species in food: a recent review report.

Rathnakumar KaavyaBharathipriya RajasekaranKartik ShahC NickhilSuguna PalanisamySuriya PalamaeAnandu Chandra KhanashyamPandiselvam RSoottawat BenjakulPriyamavada ThorakattuBharathi RameshFawzan Sigma AurumKarthik Sajith BabuSarvesh RustagiSeema Ramniwas
Published in: Critical reviews in food science and nutrition (2024)
Foodborne illnesses occur due to the contamination of fresh, frozen, or processed food products by some pathogens. Among several pathogens responsible for the illnesses, Listeria monocytogenes is one of the lethal bacteria that endangers public health. Several preexisting and novel technologies, especially non-thermal technologies are being studied for their antimicrobial effects, particularly toward L. monocytogenes . Some noteworthy emerging technologies include ultraviolet (UV) or light-emitting diode (LED), pulsed light, cold plasma, and ozonation. These technologies are gaining popularity since no heat is employed and undesirable deterioration of food quality, especially texture, and taste is devoided. This review aims to summarize the most recent advances in non-thermal processing technologies and their effect on inactivating L. monocytogenes in food products and on sanitizing packaging materials. These technologies use varying mechanisms, such as photoinactivation, photosensitization, disruption of bacterial membrane and cytoplasm, etc. This review can help food processing industries select the appropriate processing techniques for optimal benefits, in which the structural integrity of food can be preserved while simultaneously destroying L. monocytogenes present in foods. To eliminate Listeria spp., different technologies possess varying mechanisms such as rupturing the cell wall, formation of pyrimidine dimers in the DNA through photochemical effect, excitation of endogenous porphyrins by photosensitizers, generating reactive species, causing leakage of cellular contents and oxidizing proteins and lipids. These technologies provide an alternative to heat-based sterilization technologies and further development is still required to minimize the drawbacks associated with some technologies.
Keyphrases
  • public health
  • listeria monocytogenes
  • human health
  • risk assessment
  • cell wall
  • staphylococcus aureus
  • computed tomography
  • climate change
  • heat stress
  • genetic diversity
  • heavy metals
  • quality improvement
  • quantum dots