Effectiveness of a novel UV light emitting diode based technology for the microbial inactivation of Bacillus subtilis in model food systems.
light emitting diodes
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CitationHinds, L., Charoux, C., Akhter, M., O’Donnell, C. and Tiwari, B. Effectiveness of a novel UV light emitting diode based technology for the microbial inactivation of Bacillus subtilis in model food systems. Food Control, 2019, 106910. doi: https://doi.org/10.1016/j.foodcont.2019.106910
AbstractThe objective of this study was to assess the effectiveness of a novel UV multiwavelength light emitting diode (LED) based technology for the inactivation of B. subtilis in two model food systems. The LED based system was used to treat B. subtilis bacterial cultures using various combinations of UV wavelengths (285, 365, 405, 285/365, 285/405, 365/405, 285/365/405 nm) for different treatment durations (5 & 10 min). Bacterial enumerations, post-treatment analysis and SEM imaging were carried out. UV treatment at 285 nm was found to be the most efficient individual wavelength for inactivation resulting in > 6 log10 reductions. Treatments at other wavelengths investigated also resulted in bacteriostatic effects. Synergistic effects were observed for treatment at a 285/405 nm combination in one model system. Growth kinetics were carried out using a modified Gompertz model and model fit was assessed by root mean squared error, accuracy factor and bias factor. Experimental data showed good fit with model employed with RMSE values ranging from 0.01 x 10-2 to 1.367 x 10-2 for 5 min treatment, and 0.01 x 10-2 to 0.210 x 10-2 for 10 min treatment. Multivariate analysis was also carried out using principal component analysis and explained 100% of the variation observed for 3 principal components. This study shows that UV-LED technology is effective as bactericidal and bacteriostatic technology, depending on wavelength used.
FunderIrish Department of Agriculture, Food and the Marine
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