Noah Badr Ahmed, M El-Said Marwa, M Elmessery Tamer, Abdel-Razek Adel G
Pak J Biol Sci. 2019 Jan;22(2):51-58. doi: 10.3923/pjbs.2019.51.58.
Hibiscus oil (HO) and black cumin oil (BCO) are interesting oils which give a source for photochemical. Yoghurt recognized for health benefits, but mycotoxin is a food problem. The aim was adjusting non-traditional capsulated oils for minimizing mycotoxins in dairy products (yoghurt) and biological systems.
Oils fatty acid composition were evaluated. Micro and nano-emulsion designed to achieve food safety and shelf-life extension. Encapsulated emulsions evaluated by in vitro and in vivo models for several aflatoxins reduction through yogurt fortification model, for in vivo model reduction estimated as enhancement of rat's blood biochemical parameters. Concerning the in vitro model, changes of supplemented yoghurt properties were estimated.
Linoleic followed by oleic acid showed a high content in these oils representing omega fatty acids. Gamma fractions presented in considerable values (>50% of vitamin E). To evaluate encapsulated oils reduction on aflatoxins (AFs), it was estimated for in vitro and in vivo models. The in vitro reduction of aflatoxin B1 (AFB1) and aflatoxin M1 (AFM1) recorded 31.6 and 34.9%, respectively in plain yogurt. However, yogurt fortification by oil-capsules upgraded the ratio for AFB1 (63.9%) and AFM1 (66.4%). The best reduction recorded using BCO fortification. For in vivo study, supplementation of rat's diet by BCO micro-capsule declared an enhancement of biochemical parameters against aflatoxin G1 (AFG1) effects. Fortified yogurt offered enhancement of viscosity and water holding capacity properties.
Encapsulated emulsions recorded high AFs reduction in fortified yogurt and experimental rat's model. Yogurt fortification enhanced its quality characteristics and shelf-life that give a recommendation for the application.
木槿油(HO)和黑种草籽油(BCO)是具有吸引力的油类,为光化学提供了来源。酸奶因对健康有益而闻名,但霉菌毒素是一个食品问题。目的是调整非传统的胶囊化油,以减少乳制品(酸奶)和生物系统中的霉菌毒素。
评估了油的脂肪酸组成。设计微乳液和纳米乳液以实现食品安全和延长保质期。通过酸奶强化模型,利用体外和体内模型评估包封乳液对几种黄曲霉毒素的降低效果,对于体内模型,通过大鼠血液生化参数的改善来估计降低效果。关于体外模型,评估了添加酸奶特性的变化。
亚油酸之后是油酸,在这些油中含量较高,代表ω脂肪酸。γ组分含量可观(>维生素E的50%)。为了评估包封油对黄曲霉毒素(AFs)的降低效果,对体外和体内模型进行了评估。在纯酸奶中,黄曲霉毒素B1(AFB1)和黄曲霉毒素M1(AFM1)的体外降低率分别为31.6%和34.9%。然而,用油胶囊强化酸奶提高了AFB1(63.9%)和AFM1(66.4%)的降低率。使用BCO强化时降低率最高。对于体内研究,用BCO微胶囊补充大鼠饮食可提高生化参数,对抗黄曲霉毒素G1(AFG1)的影响。强化酸奶的粘度和持水能力特性得到了提高。
包封乳液在强化酸奶和实验大鼠模型中对AFs有很高的降低率。酸奶强化提高了其品质特性和保质期,因此推荐应用。
