Department of Animal and Food Sciences, University of Delaware, Newark, DE, USA.
J Appl Microbiol. 2011 Oct;111(4):865-76. doi: 10.1111/j.1365-2672.2011.05111.x. Epub 2011 Aug 11.
Listeria monocytogenes is a major safety concern for ready-to-eat foods. The overall objective of this study was to investigate whether prior frozen storage could enhance the efficacy of edible coatings against L. monocytogenes on cold-smoked salmon during subsequent refrigerated storage.
A formulation consisting of sodium lactate (SL, 1·2-2·4%) and sodium diacetate (SD, 0·125-0·25%) or 2·5% Opti.Form (a commercial formulation of SL and SD) was incorporated into each of five edible coatings: alginate, κ-carrageenan, pectin, gelatin and starch. The coatings were applied onto the surface of cold-smoked salmon slices inoculated with L. monocytogenes at a level of 500 CFU cm⁻². In the first phase, the slices were first frozen at -18°C for 6 days and stored at 22°C for 6 days. Alginate, gelatin and starch appeared to be the most effective carriers. In the second phase, cold-smoked salmon slices were inoculated with L. monocytogenes, coated with alginate, gelatin or starch with or without the antimicrobials and stored frozen at -18°C for 12 months. Every 2 months, samples were removed from the freezer and kept at 4°C for 30 days. Prior frozen storage at -18°C substantially enhanced the antilisterial efficacy of the edible coatings with or without antimicrobials during the subsequent refrigerated storage.
Plain coatings with ≥ 2 months frozen storage and antimicrobial edible coatings represent an effective intervention to inhibit the growth of L. monocytogenes on cold-smoked salmon.
This study demonstrates the effectiveness of the conjunct application of frozen storage and edible coatings to control the growth of L. monocytogenes to enhance the microbiological safety of cold-smoked salmon.
李斯特菌是即食食品的主要安全隐患。本研究的总体目标是研究先前的冷冻储存是否可以增强可食用涂层在后续冷藏储存期间对冷熏三文鱼上李斯特菌的功效。
一种由乳酸钠(SL,1.2-2.4%)和双乙酸钠(SD,0.125-0.25%)或 2.5%Opti.Form(SL 和 SD 的商业配方)组成的配方被掺入到五种可食用涂层中:海藻酸钠、κ-卡拉胶、果胶、明胶和淀粉。将这些涂层涂覆在经 500 CFU cm⁻²水平接种李斯特菌的冷熏三文鱼片表面。在第一阶段,将鱼片先在-18°C下冷冻 6 天,然后在 22°C下储存 6 天。海藻酸钠、明胶和淀粉似乎是最有效的载体。在第二阶段,将冷熏三文鱼片接种李斯特菌,用海藻酸钠、明胶或淀粉涂层包裹,用或不用抗菌剂,并在-18°C下冷冻储存 12 个月。每隔 2 个月,从冰箱中取出样品,在 4°C下储存 30 天。-18°C 的先前冷冻储存大大增强了可食用涂层在随后冷藏储存期间的抗李斯特菌功效,无论是否含有抗菌剂。
具有≥2 个月冷冻储存期的普通涂层和含抗菌剂的可食用涂层代表了一种有效干预措施,可以抑制冷熏三文鱼上李斯特菌的生长。
本研究证明了冷冻储存和可食用涂层的联合应用可以有效控制李斯特菌的生长,从而提高冷熏三文鱼的微生物安全性。
