Sub-lethal injury in foodborne microorganisms: An experimental comparison between ultrasound and traditional inactivation techniques

Applied Food Research Pub Date : 2025-06-28 DOI:10.1016/j.afres.2025.101119

Angela Racioppo, Angela Guerrieri, Maria Rosaria Corbo, Milena Sinigaglia, Antonio Bevilacqua, Barbara Speranza

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Abstract

After applying chemical or physical treatments, various effects could occur on foodborne microorganisms, as the microbiota could survive, or be inactivated; however, surviving cells could experience a sub-lethal injury, which can strongly affect the microbiological dynamics during storage. In this research, the effects of ultrasound (US, power at 60–80 % for 4–8 min), heat-treatments (up to 65 °C for 8 min), thymol (up to 900 mg/L), trans-2-hexenal (50–150 mg/L), and sodium benzoate (up to 450 mg/L) were tested towards Saccharomyces cerevisiae, Pseudomonas fluorescens, and Levilactobacillus brevis assessing both cell inactivation and the existence of a sub-lethal injury on surviving cells, as well as the release of cell components for injured microorganisms.

Ultrasound treatments showed microorganism-dependent effects: S. cerevisiae exhibited 100 % sub-lethal injury only under 60 % power for 8 min, while 80 % power led to full inactivation. P. fluorescens showed progressive inactivation with increasing ultrasound intensity, reaching 100 % injury at 80 % power for 8 min. Lactobacillus brevis displayed the highest resistance, with no significant injury recovered. Among antimicrobial compounds, trans-2-hexenal showed the strongest activity, inducing over 80 % sub-lethal injury in S. cerevisiae and complete injury in P. fluorescens after 2 days of exposure. Prolonged exposure (6 days) to trans-2-hexenal and thymol caused complete inactivation of L. brevis.

Analysis of cellular component release indicated that only antimicrobial treatments led to significant membrane damage in bacteria.

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食源性微生物的亚致死损伤：超声与传统灭活技术的实验比较

经化学或物理处理后，食源性微生物群可能存活，也可能灭活；然而，存活的细胞可能会经历亚致死损伤，这可能会强烈影响储存过程中的微生物动力学。在这个研究中,超声波的影响(我们,权力在60 - 80 % 4 - 8分钟),热处理(8分钟到65°C),麝香草酚(900 mg / L), trans-2-hexenal (50 - 150 mg / L),和苯甲酸钠(450 mg / L)对酿酒酵母进行了测试,荧光假,和Levilactobacillus短评估细胞失活和剂量受伤在细胞生存的存在,以及为受伤的微生物细胞的释放组件。超声处理显示出微生物依赖效应：酿酒葡萄球菌只有在60%功率下8分钟才表现出100%的亚致死损伤，而80%功率导致完全失活。随着超声强度的增加，荧光假单胞菌逐渐失活，在80%的功率下8分钟达到100%的损伤。短乳杆菌表现出最高的抗性，没有明显的损伤恢复。在抗菌化合物中，反式-2-己烯醛表现出最强的活性，在暴露2天后对酿酒葡萄球菌造成超过80%的亚致死伤害，对荧光假单胞菌造成完全伤害。长时间暴露于反式-2-己烯醛和百里香酚中（6天）导致短乳杆菌完全失活。细胞成分释放分析表明，只有抗菌处理才会导致细菌膜的明显损伤。

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

Applied Food Research

CiteScore

4.50

自引率

0.00%

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