{"title":"食品工业不锈钢表面的消毒:气态臭氧对病原体和丝状真菌的影响","authors":"Elettra Berni, Matteo Belloli, Massimo Cigarini, Demetrio Brindani, Claudia Catelani Cardoso, Paola Mutti, Davide Imperiale","doi":"10.1111/jfs.13106","DOIUrl":null,"url":null,"abstract":"<p>The aim of this work was to evaluate the resistance of two pathogenic bacteria (<i>Listeria monocytogenes</i> and <i>Salmonella enterica</i> subsp. <i>enterica</i> serotype Senftenberg), and three airborne food-spoiling filamentous fungi (<i>Hyphopichia burtonii</i>, <i>Penicillium nordicum</i>, and <i>Aspergillus brasiliensis</i> ATCC 16404) to gaseous ozone on stainless steel. Tests were carried out by exposing inoculated tiles to gaseous ozone in a laboratorial chamber at concentrations up to 50 mg/L and at times up to 180 min (bacteria) or 300 min (filamentous fungi). For bacteria, the resistance to gaseous ozone of <i>L. monocytogenes</i> proved markedly higher than that of <i>S. enterica</i>. Their D-values increased by seven times (from 27.3 to 200.7 min for the strain of <i>L. monocytogenes studied</i>; from 7.3 to 48.0 min for the <i>Salmonella</i> species studied) when the ozone concentration were reduced from 12 to 4 mg/L. For filamentous fungi, a substantial effect was observed only at 50 mg/L on single-layered inocula: at these conditions, <i>A. brasiliensis</i> ATCC 16404 proved the most resistant strain to gaseous ozone, its D-value (134.4 min) being higher than those registered for the tested strains of <i>H. burtonii</i> (9.9 min) and <i>P. nordicum</i> (17.1 min). The results demonstrated that the use of gaseous ozone as a sanitizing agent for environments and working surfaces seems to be a potential alternative to chemical sanitizers against the two pathogens studied, whereas it seemed effective against the three filamentous fungi studied only in limited circumstances.</p>","PeriodicalId":15814,"journal":{"name":"Journal of Food Safety","volume":"44 1","pages":""},"PeriodicalIF":1.9000,"publicationDate":"2024-02-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Sanitizing of stainless steel surfaces in the food industry: Effect of gaseous ozone against pathogens and filamentous fungi\",\"authors\":\"Elettra Berni, Matteo Belloli, Massimo Cigarini, Demetrio Brindani, Claudia Catelani Cardoso, Paola Mutti, Davide Imperiale\",\"doi\":\"10.1111/jfs.13106\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>The aim of this work was to evaluate the resistance of two pathogenic bacteria (<i>Listeria monocytogenes</i> and <i>Salmonella enterica</i> subsp. <i>enterica</i> serotype Senftenberg), and three airborne food-spoiling filamentous fungi (<i>Hyphopichia burtonii</i>, <i>Penicillium nordicum</i>, and <i>Aspergillus brasiliensis</i> ATCC 16404) to gaseous ozone on stainless steel. Tests were carried out by exposing inoculated tiles to gaseous ozone in a laboratorial chamber at concentrations up to 50 mg/L and at times up to 180 min (bacteria) or 300 min (filamentous fungi). For bacteria, the resistance to gaseous ozone of <i>L. monocytogenes</i> proved markedly higher than that of <i>S. enterica</i>. Their D-values increased by seven times (from 27.3 to 200.7 min for the strain of <i>L. monocytogenes studied</i>; from 7.3 to 48.0 min for the <i>Salmonella</i> species studied) when the ozone concentration were reduced from 12 to 4 mg/L. For filamentous fungi, a substantial effect was observed only at 50 mg/L on single-layered inocula: at these conditions, <i>A. brasiliensis</i> ATCC 16404 proved the most resistant strain to gaseous ozone, its D-value (134.4 min) being higher than those registered for the tested strains of <i>H. burtonii</i> (9.9 min) and <i>P. nordicum</i> (17.1 min). 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引用次数: 0
摘要
这项工作的目的是评估两种致病细菌(单核细胞增生李斯特菌和肠炎沙门氏菌亚种血清型 Senftenberg)和三种空气传播的食品污染丝状真菌(Hyphopichia burtonii、Penicillium nordicum 和 Aspergillus brasiliensis ATCC 16404)对不锈钢上的气态臭氧的耐受性。测试方法是在实验室中将接种的瓷砖置于浓度高达 50 毫克/升、时间长达 180 分钟(细菌)或 300 分钟(丝状真菌)的气态臭氧中。细菌对气态臭氧的耐受性明显高于肠杆菌。当臭氧浓度从 12 毫克/升降低到 4 毫克/升时,它们的 D 值增加了七倍(单核细胞增生梭菌菌株的 D 值从 27.3 分钟增加到 200.7 分钟;沙门氏菌菌株的 D 值从 7.3 分钟增加到 48.0 分钟)。对于丝状真菌来说,只有在 50 毫克/升的浓度下,才会对单层接种产生实质性影响:在这种条件下,A. brasiliensis ATCC 16404 被证明是对气态臭氧抵抗力最强的菌株,其 D 值(134.4 分钟)高于 H. burtonii(9.9 分钟)和 P. nordicum(17.1 分钟)的测试值。结果表明,使用气态臭氧作为环境和工作表面的消毒剂,似乎可以替代化学消毒剂来对付所研究的两种病原体,但对所研究的三种丝状真菌似乎只有在有限的情况下才有效。
Sanitizing of stainless steel surfaces in the food industry: Effect of gaseous ozone against pathogens and filamentous fungi
The aim of this work was to evaluate the resistance of two pathogenic bacteria (Listeria monocytogenes and Salmonella enterica subsp. enterica serotype Senftenberg), and three airborne food-spoiling filamentous fungi (Hyphopichia burtonii, Penicillium nordicum, and Aspergillus brasiliensis ATCC 16404) to gaseous ozone on stainless steel. Tests were carried out by exposing inoculated tiles to gaseous ozone in a laboratorial chamber at concentrations up to 50 mg/L and at times up to 180 min (bacteria) or 300 min (filamentous fungi). For bacteria, the resistance to gaseous ozone of L. monocytogenes proved markedly higher than that of S. enterica. Their D-values increased by seven times (from 27.3 to 200.7 min for the strain of L. monocytogenes studied; from 7.3 to 48.0 min for the Salmonella species studied) when the ozone concentration were reduced from 12 to 4 mg/L. For filamentous fungi, a substantial effect was observed only at 50 mg/L on single-layered inocula: at these conditions, A. brasiliensis ATCC 16404 proved the most resistant strain to gaseous ozone, its D-value (134.4 min) being higher than those registered for the tested strains of H. burtonii (9.9 min) and P. nordicum (17.1 min). The results demonstrated that the use of gaseous ozone as a sanitizing agent for environments and working surfaces seems to be a potential alternative to chemical sanitizers against the two pathogens studied, whereas it seemed effective against the three filamentous fungi studied only in limited circumstances.
期刊介绍:
The Journal of Food Safety emphasizes mechanistic studies involving inhibition, injury, and metabolism of food poisoning microorganisms, as well as the regulation of growth and toxin production in both model systems and complex food substrates. It also focuses on pathogens which cause food-borne illness, helping readers understand the factors affecting the initial detection of parasites, their development, transmission, and methods of control and destruction.