Radio frequency plus heat for in-shell egg pasteurization

IF 6.3 1区农林科学 Q1 FOOD SCIENCE & TECHNOLOGY

Innovative Food Science & Emerging Technologies Pub Date : 2024-10-05 DOI:10.1016/j.ifset.2024.103834

Daniela Bermudez-Aguirre , Joseph Sites , Joshua Carter , Brendan A. Niemira

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引用次数: 0

Abstract

Less than 3 % of the eggs in the United States are sold pasteurized because of the long thermal process (∼ 60 min). However, this represents a food safety risk because of the possible presence of Salmonella spp. inside the egg. This research studied the inactivation of S. typhimurium in in-shell eggs using the novel technology radio frequency (RF) to enhance their food safety, evaluating quality, presence of sub-lethally injured cells (SICs), and cell recovery (7 °C). Eggs were inoculated inside with S. typhimurium (10⁵ CFU/egg) and processed with RF (40.68 MHz, 35 W, 4.5 min) followed by hot water spray (H, 56.7 °C, 20 min). The studied quality attributes were yolk color, Haugh unit, yolk index, shell breakage strength, yolk and albumen pH, and albumen degradation. ANOVA one–way was used to find significant differences (α = 0.05). RF plus heat can pasteurize the eggs after 24.5 min (5-log reduction). No SICs were detected in any of the samples, and cells did not recover after five days of storage (Limit of detection <1 log CFU/g). Most quality attributes were like the control eggs. Albumen degradation showed a significant difference (p < 0.05) after processing. RF represents a potential option to ensure the safety of in-shell eggs, preserving their quality.

Industry relevance

Most in-shell eggs are sold unpasteurized worldwide with the potential risk of Salmonella spp. The conventional pasteurization process is a lengthy intervention that adds cost to the product and can damage the quality of eggs. Radio frequency plus heat pasteurization offers an alternative to pasteurizing in-shell eggs with a volumetric heating process that inactivates Salmonella cells inside the eggs and has minor effects on the quality of eggs. This technology is a novel option for the egg industry, providing high-quality and reasonably priced safe eggs.

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用于蛋壳内巴氏杀菌的射频加热器

在美国，只有不到 3% 的鸡蛋是经过巴氏杀菌处理出售的，因为巴氏杀菌的热处理过程较长（∼ 60 分钟）。然而，由于鸡蛋中可能存在沙门氏菌属，这意味着食品安全风险。本研究利用新型射频（RF）技术对壳内鸡蛋中的鼠伤寒沙门氏菌进行灭活，以提高鸡蛋的食品安全，并对鸡蛋质量、亚致死损伤细胞（SIC）的存在和细胞恢复（7 °C）进行评估。在鸡蛋内部接种鼠伤寒杆菌（105 CFU/只），然后用射频（40.68 MHz，35 W，4.5 分钟）处理，接着喷洒热水（H，56.7 °C，20 分钟）。研究的质量属性包括蛋黄颜色、哈氏单位、蛋黄指数、破壳强度、蛋黄和蛋白 pH 值以及蛋白降解。采用单因素方差分析找出显著差异（α = 0.05）。射频加热可在 24.5 分钟后对鸡蛋进行巴氏杀菌（降低 5 个菌落）。所有样品中均未检测到 SIC，储存五天后细胞也未恢复（检测限为 1 log CFU/g）。大多数质量属性与对照鸡蛋相同。处理后的蛋清降解显示出显著差异（p <0.05）。传统的巴氏杀菌过程是一个漫长的干预过程，不仅增加了产品成本，还可能损害鸡蛋的质量。射频加热巴氏杀菌法提供了一种壳内鸡蛋巴氏杀菌的替代方法，其体积加热过程可灭活鸡蛋内的沙门氏菌细胞，对鸡蛋质量的影响较小。这项技术为鸡蛋行业提供了一种新的选择，它能提供优质且价格合理的安全鸡蛋。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Innovative Food Science & Emerging Technologies 工程技术-食品科技

CiteScore

12.00

自引率

6.10%

发文量

259

审稿时长

25 days

期刊介绍： Innovative Food Science and Emerging Technologies (IFSET) aims to provide the highest quality original contributions and few, mainly upon invitation, reviews on and highly innovative developments in food science and emerging food process technologies. The significance of the results either for the science community or for industrial R&D groups must be specified. Papers submitted must be of highest scientific quality and only those advancing current scientific knowledge and understanding or with technical relevance will be considered.