A novel combination of thermovacuum and thermosonication to inactivate pathogenic bacteria in an Annona muricata L. beverage

IF 6.3 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY Innovative Food Science & Emerging Technologies Pub Date : 2024-09-05 DOI:10.1016/j.ifset.2024.103817
Yolanda Nolasco-González , Luis Miguel Anaya Esparza , María de Lourdes García-Magaña , M. Alejandra Chacón-López , Rosa I. Ortiz-Basurto , Alicia Del Real-López , Efigenia Montalvo-González
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Abstract

This work evaluated the bactericidal efficacy of the combination of vacuum pressure plus heat named thermovacuum (TV, alternation of vacuum pressure 33 kPa for 0.5 s during 5 min) and thermosonication (TS, 24 kHz, 80 % amplitude, 0.5 s pulse-cycle) varying the temperature (45–65 °C) and time (10–15 min) against Escherichia coli, Salmonella Paratyphi and Listeria monocytogenes inoculated into an Annona muricata beverage. The bactericidal efficacy was compared between the best TVTS and individual treatments. Lethality, sublethal and morphological injury were evaluated. The best TVTS conditions for the highest microbial inactivation (≥ 7 log CFU/mL) of E. coli and S. paratyphi were 55 °C for 15 min. L. monocytogenes required 65 °C for 15 min for a 5.75 log CFU/mL reduction. Morphological damage was demonstrated. The individual conditions of TVTS were less effective for inactive pathogenic microorganisms. TVTS is a viable technological option for processing A. muricata beverages.

Industrial relevance

This study confirms the importance of combining thermosonication with vacuum pressure to inactive pathogenic bacteria in beverages. The results of the TVTS application are relevant and contribute to a deeper understanding of the mechanism for the inactivation of pathogenic bacteria in fruit beverages, which is essential to food safety. Generating knowledge on microbial inactivation with non-aggressive TVTS technology can lead to further studies that will scale up this combined technology to produce safe food with decreasing operational costs.

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热真空和热声波相结合的新方法,用于灭活鼠尾草饮料中的病原菌
这项研究评估了真空加热(TV,在 5 分钟内交替使用 33 kPa 真空压力 0.5 秒)和热声波(TS,24 kHz,80% 振幅,0.5 秒脉冲周期)组合的杀菌效果,这两种组合被命名为热真空(TV,在 5 分钟内交替使用 33 kPa 真空压力 0.5 秒)和热声波(TS,24 kHz,80% 振幅,0.5 秒脉冲周期),其杀菌效果随温度(45-65 °C)和时间(10-15 分钟)的变化而变化。比较了最佳 TVTS 和单个处理的杀菌效果。对致死率、亚致死率和形态损伤进行了评估。大肠杆菌和副伤寒杆菌灭活率最高(≥ 7 log CFU/mL)的最佳 TVTS 条件是 55 °C 15 分钟。单核细胞增多性酵母菌需要 65 °C 15 分钟才能减少 5.75 log CFU/mL。形态损伤已得到证实。TVTS 的个别条件对非活性病原微生物的效果较差。这项研究证实了结合热超声和真空压力对饮料中的非活性病原菌的重要性。TVTS 应用的结果很有意义,有助于加深对水果饮料中致病菌灭活机制的理解,这对食品安全至关重要。通过非侵蚀性 TVTS 技术获得微生物灭活方面的知识,有助于开展进一步研究,从而扩大这种组合技术的规模,在降低运营成本的同时生产出安全的食品。
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来源期刊
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.
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