Theoretical and Experimental Investigation of the Thermal Inactivation of Thermoanaerobacterium Thermosaccharolyticum and Geobacillus Stearothermophilus in Different Canned Food Matrices

Q4 Social Sciences

Rural Sustainability Research Pub Date : 2021-12-01 DOI:10.2478/plua-2021-0021

Evalds Raits, S. Raita, A. Kirse-Ozolina, S. Muizniece-Brasava

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引用次数: 1

Abstract

In the canning industry, thermal preservation processes typically are designed based on Clostridium botulinum thermal destruction kinetics. However, some bacteria can still survive, necessitating implementation of stricter timetemperature regimen for sterilization process. The aim of this study was to compare processing effectiveness at F0 (sterilization value) 8 ±1 min from the perspective of the vegetable-based product canning facility, while analyzing the inactivation, viability, and recovery of thermophilic bacteria. Four commercial products [tomato soup and rassolnik soup - acidified food (AF), and mushroom soup and pea porridge - low-acid food (LACF)] with different heat transfer characteristics (convection and conduction) were inoculated with 6.6 log10 spores/ml Geobacillus stearothermophilus LMKK 244 (reported as DSM 6790 and ATCC 10149 in other collections) and 4.810 log spores/ml Thermoanaerobacterium thermosaccharolyticum DSM 571 spore suspensions. Food samples contaminated with bacterial spores were processed in a steam-air retort at 118 °C for 75 min. G. stearothermophilus and T. thermosaccharolyticum growth was not detected in AF samples (pH = 4.4 and 4.5), but was observed in LACF samples (pH = 5.1 and 5.8). Practical evaluation showed that T. thermosaccharolyticum did not survive thermal processing, which was verified using a presence/absence test after incubation at 55 °C. G. stearothermophilus did not survive thermal processing, but recovered in pea porridge (pH = 5.8) during incubation. Our observations showed that food pH is a crucial factor determining microorganism survival during heat treatment and may be used by the vegetable-based product canning facilities to improve the food sterilization conditions.

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不同罐头基质中热厌氧杆菌、嗜热嗜热脂肪芽孢杆菌热灭活的理论与实验研究

在罐头工业中，热保存过程通常是基于肉毒梭菌的热破坏动力学设计的。然而，一些细菌仍然可以存活，这就需要对消毒过程实施更严格的时间-温度方案。本研究的目的是从蔬菜产品罐装设施的角度，比较F0（杀菌值）8±1分钟时的加工效果，同时分析嗜热细菌的灭活、活力和回收率。将具有不同传热特性（对流和传导）的四种商业产品[番茄汤和拉索尔尼克汤-酸化食品（AF），蘑菇汤和豌豆粥-低酸食品（LACF）]接种6.6log10孢子/ml嗜热脂肪土芽孢杆菌LMKK 244（在其他收集中报道为DSM 6790和ATCC 10149）和4.810log孢子/ml热厌氧杆菌热糖胶DSM 571孢子悬浮液。被细菌孢子污染的食品样品在118°C的蒸汽-空气蒸馏器中处理75分钟。在AF样品（pH=4.4和4.5）中未检测到嗜热脂肪酸链球菌和热糖链球菌的生长，但在LACF样品（pH=5.1和5.8）中观察到。实际评估表明，热糖链球菌不能在热处理中存活，在55°C下孵育后，使用存在/不存在测试进行验证。G.嗜热脂肪杆菌不能在热处理中存活，但在培养过程中在豌豆粥（pH=5.8）中恢复。我们的观察结果表明，食品pH值是决定热处理过程中微生物存活的关键因素，蔬菜产品罐装设施可以利用它来改善食品杀菌条件。

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