奶类中耐甲氧西林金黄色葡萄球菌对巴氏灭菌温度的反应分析

M. Kanaan, N. A. Sheriff, Suraida Abdullah
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引用次数: 1

摘要

背景和目的:社区和医院获得性感染的主要原因之一是超级细菌“耐多药金黄色葡萄球菌”(MRSA)。牛奶和奶制品似乎很容易感染多种疾病。因此,我们要求加工程序既能消除病原体,又能延长这些产品的使用寿命。本研究的目的是确定MRSA分离株在从乳制品中回收后对巴氏灭菌温度的敏感性。材料与方法:将10株MRSA分离株分别置于63°C LTLT(低温、长时间)处理30分钟和72°C HTST(高温、短时间)处理16秒中进行巴氏杀菌。结果:研究结果表明,所有分离株在低温下长时间(63°C 30分钟)被类似巴氏杀菌的处理杀死,但特定的适应性分离株可以在高温下短时间(72°C 16秒)存活,这可能表明热耐受机制的时间和温度依赖性变化。结论:结果表明,采用LTLT类似巴氏杀菌处理(63°C 30分钟),所有分离株都极易受到热损伤。然而,特定数量的这些分离株成功地建立了菌落,因为它们具有群体感应结构,可以在72°C的热损伤下存活16秒。巴氏杀菌奶生产商应该警惕这样一个事实,即在受污染的牛奶中发现了这种微生物,因为它损害了产品的安全性,降低了产品对消费者的价值。因此,强烈建议生产商利用不同的温度进行牛奶加工,以去除污染的甲氧西林和耐热金黄色葡萄球菌(MHRSA)。
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Analysis of the Responses to Pasteurization Temperatures of Methicillin Resistant Staphylococcus aureus Derived from Milk Items
Background and Aim: One of the leading causes of both community- and hospital-acquired infections is the superbug," multidrug-resistant Staphylococcus aureus (MRSA). Milk and dairy products seem to be highly vulnerable to a wide range of diseases. Therefore, we require processing procedures that both eliminate pathogens and lengthen the useful life of these products. The purpose of this study was to determine how susceptible MRSA isolates were to pasteurization temperatures after being recovered from dairy products. Materials and Methods: For the purpose of pasteurization, ten MRSA isolates were exposed to both a 63°C LTLT (low temperature, long time) therapy for 30 minutes and a 72°C HTST (high temperature, short time) treatment for 16 seconds. Results: The findings indicated that all isolates were killed by a pasteurization-like treatment at low temperature for a long time (63°C for 30 minutes), but that particular adaptable isolates could survive a pasteurization-like treatment at high temperature for a short time (72°C for 16 seconds), which may point to a time- and temperature-dependent variation in the thermal tolerance mechanism. Conclusion: The results showed that all isolates seemed extremely susceptible to damage from heat using LTLT pasteurization-like treatment (63°C for 30 minutes). Nevertheless, a particular number of these isolates succeeded in establishing colonies because they have quorum sensing structures that survive being handled by using heat damage at 72°C for 16 seconds. Pasteurized milk producers should be alerted to the fact that this microorganism has been found in contaminated milk since it compromises the product's safety and diminishes its value to consumers. As a result, it is strongly advised that manufacturers utilize varied temperatures for milk processing in order to remove the contaminating methicillin- and heat-resistant S. aureus (MHRSA).
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