Title of article
Elimination by ozone of Shigella sonnei in shredded lettuce and water Original Research Article
Author/Authors
Mar?a Victoria Selma، نويسنده , , David Beltr?n، نويسنده , , Ana Allende، نويسنده , , Eliseo Chac?n-Vera، نويسنده , , Mar?a Isabel Gil، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
8
From page
492
To page
499
Abstract
Several outbreaks of shigellosis have been attributed to the consumption of contaminated fresh-cut vegetables. The minimal processing of these products make it difficult to ensure that fresh produce is safe for consumer. Chlorine-based agents have been often used to sanitize produce and reduce microbial populations in water applied during processing operations. However, the limited efficacy of chlorine-based agents and the production of chlorinated organic compounds with potential carcinogenic action have created the need to investigate the effectiveness of new decontamination techniques. In this study, the ability of ozone to inactivate S. sonnei inoculated on shredded lettuce and in water was evaluated. Furthermore, several disinfection kinetic models were considered to predict S. sonnei inactivation with ozone. Treatments with ozone (1.6 and 2.2 ppm) for 1 min decreased S. sonnei population in water by 3.7 and 5.6 log cfu mL−1, respectively. Additionally, it was found that S. sonnei growth in nutrient broth was affected by ozone treatments. After 5.4 ppm s ozone dose, lag-phases were longer for injured cells recovered at 10 °C than 37 °C. Furthermore, treated cells recovered in nutrient broth at 10 °C were unable to grow after 16.5 ppm s ozone dose. Finally, after 5 min, S. sonnei counts were reduced by 0.9 and 1.4 log units in those shredded lettuce samples washed with 2 ppm of ozonated water with or without UV-C activation, respectively. In addition, S. sonnei counts were reduced by 1.8 log units in lettuce treated with 5 ppm for 5 min. Therefore, ozone can be an alternative treatment to chlorine for disinfection of wash water and for reduction of microbial population on fresh produce due to it decomposes to nontoxic products.
Keywords
Disinfection , Microbial inactivation , Pathogen , Sanitation , Fresh-cut
Journal title
Food Microbiology
Serial Year
2007
Journal title
Food Microbiology
Record number
1189624
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