{"title":"紫外线-C 光激活没食子酸和超声波:减少莴苣(Lactuca sativa L.)肠道病原体的新方法","authors":"C.J. Alvarez-Rodríguez , N.X. Morales-Martínez , S.C. Beristain-Bauza , P. Hernández-Carranza , I.I. Ruiz-López , C.E. Ochoa-Velasco","doi":"10.1016/j.foodcont.2024.110673","DOIUrl":null,"url":null,"abstract":"<div><p>The effect of UV-C light-activated gallic acid (AGA) alone or combined with ultrasound (US) on the inactivation of <em>E. coli</em> and <em>S</em>. Typhimurium inoculated in aqueous solution and lettuce was studied. The contact time (0–30 min) and AGA concentration (0.05–0.25 M) were evaluated against microorganisms inoculated in aqueous solutions. At selected conditions, the combined effect of AGA and US process was evaluated against microorganisms inoculated in lettuce leaves; samples were taken from washing peptone water and the surface of lettuce using a cotton swab. The microbial inactivation of AGA in lettuce was described using the Monod model, which adequately reproduces the inactivation kinetics (<em>R</em> > 0.96). In aqueous solutions, 10 min of contact time and 0.15 M and 0.25 M of AGA were required to reduce more than 5 log reduction of <em>S</em>. Typhimurium and <em>E. coli</em>, respectively. In lettuce, the <em>E. coli</em> showed higher resistance than <em>S</em>. Typhimurium to the AGA treatment, obtaining a maximum microbial reduction (4.33 ± 0.17 log reduction) using washing peptone water as a sampling method and AGA plus US process. Moreover, the AGA treatment combined with the US process presented a higher microbial inactivation compared to a common disinfectant (colloidal silver). Therefore, it is possible to indicate that AGA combined with the US may be an adequate alternative to reduce enteropathogens in lettuce.</p></div>","PeriodicalId":319,"journal":{"name":"Food Control","volume":null,"pages":null},"PeriodicalIF":5.6000,"publicationDate":"2024-06-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"UV-C light-activated gallic acid and ultrasound: A novel approach for reducing enteropathogens inoculated in lettuce (Lactuca sativa L.)\",\"authors\":\"C.J. Alvarez-Rodríguez , N.X. Morales-Martínez , S.C. Beristain-Bauza , P. Hernández-Carranza , I.I. Ruiz-López , C.E. Ochoa-Velasco\",\"doi\":\"10.1016/j.foodcont.2024.110673\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The effect of UV-C light-activated gallic acid (AGA) alone or combined with ultrasound (US) on the inactivation of <em>E. coli</em> and <em>S</em>. Typhimurium inoculated in aqueous solution and lettuce was studied. The contact time (0–30 min) and AGA concentration (0.05–0.25 M) were evaluated against microorganisms inoculated in aqueous solutions. At selected conditions, the combined effect of AGA and US process was evaluated against microorganisms inoculated in lettuce leaves; samples were taken from washing peptone water and the surface of lettuce using a cotton swab. The microbial inactivation of AGA in lettuce was described using the Monod model, which adequately reproduces the inactivation kinetics (<em>R</em> > 0.96). In aqueous solutions, 10 min of contact time and 0.15 M and 0.25 M of AGA were required to reduce more than 5 log reduction of <em>S</em>. Typhimurium and <em>E. coli</em>, respectively. In lettuce, the <em>E. coli</em> showed higher resistance than <em>S</em>. Typhimurium to the AGA treatment, obtaining a maximum microbial reduction (4.33 ± 0.17 log reduction) using washing peptone water as a sampling method and AGA plus US process. Moreover, the AGA treatment combined with the US process presented a higher microbial inactivation compared to a common disinfectant (colloidal silver). 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引用次数: 0
摘要
研究了紫外线-C 光活化没食子酸(AGA)单独或与超声波(US)结合对接种在水溶液和莴苣中的大肠杆菌和伤寒杆菌的灭活效果。针对接种在水溶液中的微生物,对接触时间(0-30 分钟)和 AGA 浓度(0.05-0.25 M)进行了评估。在选定的条件下,评估了 AGA 和 US 工艺对接种在莴苣叶片中的微生物的综合影响;样品是用棉签从清洗蛋白胨水和莴苣表面采集的。使用莫诺模型描述了莴苣中 AGA 的微生物灭活过程,该模型充分再现了灭活动力学(R > 0.96)。在水溶液中,需要 10 分钟的接触时间以及 0.15 M 和 0.25 M 的 AGA 才能分别使伤寒杆菌和大肠杆菌减少 5 个对数值以上。在生菜中,大肠杆菌对 AGA 处理的耐受性高于鼠伤寒杆菌,使用洗涤蛋白胨水作为取样方法和 AGA 加 US 处理可获得最大的微生物减少量(4.33 ± 0.17 log 减少量)。此外,与普通消毒剂(胶体银)相比,AGA 处理加 US 处理的微生物灭活率更高。因此,可以说 AGA 与 US 工艺的结合是减少莴苣中肠道病原体的适当替代方法。
UV-C light-activated gallic acid and ultrasound: A novel approach for reducing enteropathogens inoculated in lettuce (Lactuca sativa L.)
The effect of UV-C light-activated gallic acid (AGA) alone or combined with ultrasound (US) on the inactivation of E. coli and S. Typhimurium inoculated in aqueous solution and lettuce was studied. The contact time (0–30 min) and AGA concentration (0.05–0.25 M) were evaluated against microorganisms inoculated in aqueous solutions. At selected conditions, the combined effect of AGA and US process was evaluated against microorganisms inoculated in lettuce leaves; samples were taken from washing peptone water and the surface of lettuce using a cotton swab. The microbial inactivation of AGA in lettuce was described using the Monod model, which adequately reproduces the inactivation kinetics (R > 0.96). In aqueous solutions, 10 min of contact time and 0.15 M and 0.25 M of AGA were required to reduce more than 5 log reduction of S. Typhimurium and E. coli, respectively. In lettuce, the E. coli showed higher resistance than S. Typhimurium to the AGA treatment, obtaining a maximum microbial reduction (4.33 ± 0.17 log reduction) using washing peptone water as a sampling method and AGA plus US process. Moreover, the AGA treatment combined with the US process presented a higher microbial inactivation compared to a common disinfectant (colloidal silver). Therefore, it is possible to indicate that AGA combined with the US may be an adequate alternative to reduce enteropathogens in lettuce.
期刊介绍:
Food Control is an international journal that provides essential information for those involved in food safety and process control.
Food Control covers the below areas that relate to food process control or to food safety of human foods:
• Microbial food safety and antimicrobial systems
• Mycotoxins
• Hazard analysis, HACCP and food safety objectives
• Risk assessment, including microbial and chemical hazards
• Quality assurance
• Good manufacturing practices
• Food process systems design and control
• Food Packaging technology and materials in contact with foods
• Rapid methods of analysis and detection, including sensor technology
• Codes of practice, legislation and international harmonization
• Consumer issues
• Education, training and research needs.
The scope of Food Control is comprehensive and includes original research papers, authoritative reviews, short communications, comment articles that report on new developments in food control, and position papers.
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