Refrigeration temperature enhanced synergistic interaction of curcumin and 460 nm light-emitting diode against Staphylococcus saprophyticus at neutral pH

Objectives:As considered highly resistant to antibiotics like mecillinam,the rise of Staphylococcus saprophyticus(S.saprophyticus)contamination of fresh foods and food processing environments necessitates the development of a new antimicrobial approach for food safety control.This study aimed to investigate the synergistic effect of food-grade curcumin(CUR)and blue light-emitting diode(LED)on S.saprophyticus.Materials and Methods:S.saprophyt/ciys was subjected to the synergistic treatment at 4℃ and 25℃.The influence of parameters,including CUR concentration,light dose,and pH incubation time on the inactivation of S.saprophyticus vjqs characterized through plate counting method.Results:The combined treatment of CUR and blue light irradiation significantly(P<0.05)reduced bacterial counts and the antimicrobial effect was in a CUR concentration and light dose-dependent manner.Moreover,refrigeration temperature(4℃)significantly(P<0.05)enhanced the antibacterial effect at neutral pH condition(6.2-72),resulting in approximately 6.0 log reductions.Under acidic condition(pH 2.2-5.2),there was no significant difference in bacterial population reduction between treatments at both temperatures.Conclusions:These findings proposed that synergistic interaction of CUR and 460 nm LED under refrigerated temperature could enhance the inactivation of S.saprophyticus at neutral pH condition.