氯化钠、乳酸钠和二乙酸钠对沙门氏菌属和金黄色葡萄球菌生长概率的影响

IF 1.9 4区农林科学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of Food Safety Pub Date : 2024-11-19 DOI:10.1111/jfs.13175

Cheng-An Hwang, Lihan Huang, Shiowshuh Sheen

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引用次数: 0

摘要

沙门氏菌属和金黄色葡萄球菌与食用加工肉制品引起的食源性疾病有关。本研究考察了这两种病原体在固体培养基中受氯化钠（盐）、乳酸钠和双乙酸钠影响的生长概率，以便使用这三种添加剂来提高加工肉类的微生物安全性。将灭菌的胰蛋白酶大豆琼脂（TSA，200 μL）与盐（3%-8%，aw 0.98-0.93）、乳酸（0%-2.4%）和双乙酸钠（0%-0.25%）混合配制，并接种沙门氏菌属或金黄色葡萄球菌，分散到 96 孔微孔板中，在 37°C 下培养 7 天。培养结束后，孔中出现沙门氏菌或金黄色葡萄球菌菌落即为生长事件，否则为无生长事件。记录每种配方的生长事件数量。通过逻辑回归分析添加剂对生长事件的影响，以确定生长和不生长的界限以及可能阻止沙门氏菌属或金黄色葡萄球菌生长的配方。对于沙门氏菌属，在 TSA 中观察到的最低不生长浓度为：3% 的盐加 0.8% 的乳酸盐+0.2% 的双乙酸酯或 1.6% 的乳酸盐+0.1% 的双乙酸酯；4% 的盐加 2.4% 的乳酸盐；5% 的盐加 0.25% 的双乙酸酯；6% 的盐加 0.8% 的乳酸盐+0.15% 的双乙酸酯；7% 的盐加 0.8% 的乳酸盐或 0.15% 的双乙酸酯；以及 8% 的盐单独使用。对于金黄色葡萄球菌，其浓度分别为 3%的盐加 2.4%的乳酸盐+0.2%的双乙酸酯，5%的盐加 1.6%的乳酸盐+0.2%的双乙酸酯，7%的盐加 0.8%的乳酸盐+0.25%的双乙酸酯，8%的盐加 0.8%的乳酸盐+0.20%的双乙酸酯或 1.6%的乳酸盐+0.15%的双乙酸酯。这些无生长配方也能抑制两种病原体在熟肉样品中的生长。我们建立了数学模型来描述添加剂对沙门氏菌属和金黄色葡萄球菌生长概率的影响。这项研究的结果可用于配制冷藏和保质肉制品，以降低沙门氏菌属和金黄色葡萄球菌的风险。

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Effects of Sodium Chloride, Sodium Lactate, and Sodium Diacetate on the Growth Probabilities of Salmonella Spp. and Staphylococcus Aureus

Salmonella spp. and Staphylococcus aureus have been linked to foodborne illnesses caused by the consumption of processed meat products. This study examined the growth probabilities of these two pathogens as affected by sodium chloride (salt), sodium lactate, and sodium diacetate in a solid medium for using these three additives to improve the microbial safety of processed meat. Sterilized tryptic soy agar (TSA, 200 μL) formulated with a combination of salt (3%–8%, a_w 0.98–0.93), lactate (0%–2.4%), and diacetate (0%–0.25%) and inoculated with Salmonella spp. or S. aureus was dispersed into 96-well microplates and incubated at 37°C for 7 days. After incubation, a well showing any Salmonella spp. or S. aureus colonies was denoted as a growth event, otherwise a no-growth event. The number of growth events for each formulation was recorded. The effects of the additives on the growth event were analyzed by logistic regression to identify the growth and no-growth boundaries and the formulations that may prevent the growth of Salmonella spp. or S. aureus. For Salmonella spp., the observed minimum no-growth concentrations in TSA were 3% salt with 0.8% lactate+0.2% diacetate or 1.6% lactate+0.1% diacetate, 4% salt with 2.4% lactate, 5% salt with 0.25% diacetate, 6% salt with 0.8% lactate+0.15% diacetate, 7% salt with 0.8% lactate or 0.15% diacetate, and 8% salt alone. For S. aureus, the concentrations were 3% salt with 2.4% lactate+0.2 diacetate, 5% salt with 1.6% lactate+0.2% diacetate, 7% salt with 0.8% lactate+0.25% diacetate, and 8% salt with 0.8% lactate+0.20% diacetate or 1.6% lactate+0.15% diacetate. These no-growth formulations also inhibited the growth of both pathogens in cooked meat samples. Mathematical models were developed to describe the effects of the additives on the growth probabilities of Salmonella spp. and S. aureus. Findings from this study may be used for formulating refrigerated and shelf-stable meat products to reduce Salmonella spp. and S. aureus risk.

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来源期刊

Journal of Food Safety 工程技术-生物工程与应用微生物

CiteScore

5.30

自引率

0.00%

发文量

审稿时长

1 months

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.