Effect of Dielectric Filter Discharge Plasma on the Inactivation of Aerosolized Pathogens Associated with Edible Insects

The objective of this study was to determine the optimal disinfection treatment conditions of dielectric filter discharge (DFD) plasma against aerosolized pathogens relevant to edible insect-rearing environments. Bacillus thuringiensis, Serratia marcescens, and Escherichia coli O157:H7 are representative pathogens that can occur in edible insect-rearing environments. This study employed a treatment scheme in which plasma was applied during nebulization to treat aerosolized pathogens, after collection to treat filter-attached pathogens, or sequentially to both (overall pathogens). Negligible or minimal bactericidal effects were observed when DFD plasma was applied to aerosolized or filter-attached pathogens for 2 min. However, continuous treatment of both for 2 min each (a total of 4 min) resulted in significant inactivation, and longer treatment times (10 min) for filter-attached pathogens further enhanced the bactericidal effect (2.6~3.4 Log CFU/cm² reduction). No bactericidal effect was observed during storage after DFD plasma was turned off. Consequently, the highest bactericidal effect was obtained when DFD plasma was applied to aerosolized pathogens for 2 min, followed by an additional 10 min of treatment with filter-attached pathogens. These results indicate the potential use of DFD plasma for disinfecting aerosolized pathogens in edible insect-rearing environments.