Abstract
In general, the poultry industry uses 0.5–1 ppm chlorine solution in the meat sanitization process. However, chlorine can react with organic material and produce halogenated organic compounds, notably chloroform, which causes bladder and rectal cancer in humans. For this reason, many industries try to avoid chlorine. This study investigated the efficacy of ultrasound and plasma-activated water (PAW) on the inactivation of Escherichia coli and Staphylococcus aureus in chicken muscle, rough skin, and smooth skin. Samples inoculated with bacteria suspension were treated by ultrasound alone and PAW–ultrasound. The Taguchi method and desirability function approach were used for the experimental design and optimization. Combined ultrasound and PAW inactivated up to 1.33 log CFU/ml of E. coli K12 and 0.83 log CFU/ml of S. aureus at a sample thickness of 4 mm, at 40 °C for 60 min, while PAW alone only reduced E. coli K12 by 0.46 log CFU/ml and S. aureus by 0.33 log CFU/ml under the same condition. The muscle topography showed a porous structure, which facilitated the penetration of PAW. The color measurements of muscle treated with ultrasound and PAW–ultrasound were dramatically different from the untreated sample, as also perceived by the sensory evaluation panel. Therefore, the synergistic interaction of combined PAW–ultrasound could be used to enhance microbial inactivation in meat.
Highlights
In the past, sanitization by the chilling process with circulation system in the poultry industry used ice and 0.5–1 ppm chlorine to decrease the temperature of chicken carcass and lower the bacterial load in the gizzard and intestine
The desirability function with Taguchi can be used for optimizing the bacteria reduction by using plasma-activated water (PAW) and PAW–ultrasound with different types of chicken meat
The Scanning Electron Microscope (SEM) results showed that ultrasound could destroy the chicken muscle cells, facilitating the entry of reactive oxygen species (ROS) from PAW into the bacteria
Summary
Sanitization by the chilling process with circulation system in the poultry industry used ice and 0.5–1 ppm chlorine to decrease the temperature of chicken carcass and lower the bacterial load in the gizzard and intestine. TM (ListShield ) combined with UV-C light reduced Listeria monocytogenes 2.04 log CFU/ml[1], ultrasound combined with a chemical immersion (lactic acid, sodium decanoate, and trisodium phosphate) reduced 0.73 log CFU/ml of Campylobacter jejuni, 1.02 log CFU/ml of TVC, and 1.37 log CFU/ml of total Enterobacteriaceae[2], electrolyzed water reduced 1.0 log CFU/ml of microbial reduction[3], non-thermal plasma jet with N2/O2 gas reduced 0.66 log CFU/g of Salmonella typhimurium[4], cold atmospheric plasma pen with He/O2 gas reduced 3 log CFU/ml of L. innocua on muscle[5], and dielectric barrier discharge plasma reduced 3.11 log CFU/ml of C. jejuni on skin[6] Another low-temperature technique that has been used to inactivate bacteria is ultrasound. The pyrolysis reactions in Eqs. (12) and (13) differentiate ultrasound-induced reactions from those that originate from plasma treatment
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call