Effect of microencapsulated Lactobacillus reuteri under simulated gastric conditions and its inhibition on Listeria monocytogenes

H. Jurado-Gámez, Jhon-Fredy Cerón-Córdoba, Juan Carlos Bolaños-Bolaños
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Abstract

Food-borne diseases (FDB) are responsible for causing approximately 600 million illnesses and 420,000 deaths per year. Biologically related FBDs are typically associated with ubiquitous microorganisms, with bacteria such as Li. monocytogenes, Escherichia coli, Salmonella and Staphylococcus aureus being frequently implicated. The use of probiotics is limited by adverse conditions, that can impair the stability of La. reuteri and the evaluation of its probiotic properties and effects on pathogenic bacteria. Therefore, it is crucial to develop effective strategies to protect probiotics during their use. This study was conducted aiming to determine the effect of microencapsulation by spray drying technique on the probiotic viability of La. reuteri on Li. monocytogenes under simulated gastric conditions. The research involved reconstituting, planting, and inoculating La. reuteri and Li. monocytogenes; determining fermentation kinetics; conducting spray drying microencapsulation; studying and characterizing of microencapsulation; testing for exopolysaccharides production; conducting temperature tests; assessing exposure to gastric conditions; and conducting antibiotic susceptibility and inhibition tests. Such investigations allowed the establishment of the exponential phase in Probiotic (PRO) culture medium at 18 h and in De Man, Rogosa and Sharpe agar (MRS) medium at 12 h, exopolysaccharide production positive and growth at different temperatures (1.95x1013 CFU/ml and 2.16x1012 CFU/ml), survival against gastric conditions (greater than 108 CFU/ml) and inhibitory effect of La. reuteri on Li. monocytogenes (halos larger than 2 mm). The probiotic La. reuteri microencapsulated in a binary matrix composed of inulin and maltodextrin expresses probiotic properties against Li. monocytogenes, which is responsible for FBD and great stability after undergoing simulated gastric conditions.
模拟胃条件下微囊化罗伊氏乳杆菌对单核增生李斯特菌的抑制作用
食源性疾病每年造成约6亿人患病和42万人死亡。生物学上相关的fbd通常与普遍存在的微生物有关,如Li等细菌。单核细胞增生,大肠杆菌,沙门氏菌和金黄色葡萄球菌经常被牵连。益生菌的使用受到不利条件的限制,可能会损害La的稳定性。罗伊氏菌及其益生菌特性的评价及对致病菌的影响。因此,在益生菌的使用过程中制定有效的保护策略至关重要。本研究旨在研究喷雾干燥微胶囊化技术对枸杞益生菌活力的影响。路透李。模拟胃条件下的单核细胞增生。研究包括重组、种植和接种La。路透社和李。monocytogenes;测定发酵动力学;进行喷雾干燥微胶囊化;微胶囊化的研究与表征胞外多糖生产试验;进行温度测试;评估胃病暴露;进行抗生素敏感性和抑制试验在益生菌(PRO)培养基中培养18 h,在德曼、罗戈萨和Sharpe琼脂(MRS)培养基中培养12 h,在不同温度(1.95 × 1013 CFU/ml和2.16 × 1012 CFU/ml)下产生阳性的胞外多糖,在胃条件下存活(大于108 CFU/ml),并对La有抑制作用。路透李。单核细胞增生(光晕大于2mm)。益生菌La。在菊粉和麦芽糖糊精组成的二元基质中微囊化罗伊氏菌表达了抗Li的益生菌特性。单核细胞增生基因,它负责FBD和在经历模拟胃部条件后的极大稳定性。
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