Litcius/Paper detail

Cold Plasma‐Mediated Inactivation of Spore‐Forming Microorganisms: Mechanisms, Quality Attributes, and Efficiency Parameters

Shiva Ezzati, Hossein Ahangari, Mohadeseh Mohammadian, Ali Khoshkalampour, Ehsan Moghaddas Kia, Zahra Ghasempour

2025Food Science & Nutrition9 citationsDOIOpen Access PDF

Abstract

species serve as main indicators of food safety, presenting considerable risks to consumers health. Heat sterilization is an easy and efficient technique; however, it compromises the quality and nutritional value of food. Cold plasma (CP), a developing non-thermal sterilization method, has demonstrated significant promise in food sterilization. CP offers a promising alternative, as it does not cause irreversible damage to sensory or nutritional attributes and is more cost-effective than traditional heat methods. The research explored the effects of different process parameters, primarily electrode type (direct or indirect plasma exposure), plasma power, duration of treatment, plasma-induced dosage, distance of samples between electrodes, and the plasma gas on the bacteriostatic effectiveness. Additionally, the interaction between plasma-induced reactive species and spore inactivation, as well as deterioration mechanisms, will be discussed thoroughly. CP can be utilized effectively, either independently or in combination with other methods, to enhance the efficacy of preservation techniques, thereby holding the potential to revolutionize food preservation practices significantly. Finally, a deeper insight into the relationship between spores and cold plasma is crucial for enhancing and improving cold plasma technology in the food industry.

Topics & Concepts

Sterilization (economics)SporeFood scienceEndosporePlasmaFood productsMicroorganismChemistryBacteriaBiotechnologyMicrobiologyBiologyBusinessGeneticsFinanceExchange ratePhysicsQuantum mechanicsForeign exchange marketPlasma Applications and DiagnosticsMicrobial Inactivation MethodsEnterobacteriaceae and Cronobacter Research