Development of Prangos ferulacea essential oil based nanoemulsions/pickering emulsion and examination of their performance in mayonnaise shelf life

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY
Donya Minasian , MirKhalil Pirouzifard , Hadi Almasi , Hamed Hassanzadeh
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Abstract

The increasing demand to replace chemical antimicrobial agents with natural compounds leads to the use of some plant extracts and essential oils (EOs) as natural preservatives. Nanoemulsion (NE) with Tween 80 as wall material and Pickering emulsions (PE) stabilized with carbohydrate (Arabic gum (AG)) or protein (sodium caseinate (SC)) wall materials. First of all, the PEO was obtained from two parts of plant: flowers and leave, and characterized by GC-MS and the IC50 index measurement. The Prangos ferulacea essential oil (PEO) extracted from leave was selected for the next tests due to slightly higher antioxidant activity compared to the flower's EO. The leave's PEO was encapsulated in three forms: nanoemulsion (NE) with Tween 80 as wall material and Pickering emulsions (PE) stabilized with carbohydrate (gum Arabic (GA)) or protein (sodium caseinate (SC)) wall materials. The NE had the smallest particle size and the highest antioxidant and antimicrobial (S. aureus and E. coli) activity. AG-stabilized PE recorded the highest encapsulation efficiency (85.37 ± 1.97 %). The occurring of new chemical interactions between PEO and wall materials and uniformly shaped PE microcapsules were approved by FT-IR and FE-SEM tests, respectively. Free and encapsulated PEO were added to the mayonnaise, and the samples were analyzed during storage at 4 °C for 60 days. Peroxide value and TBA index gradually increased for all mayonnaise samples, but this increase was lower for samples containing NE and SC-stabilized PEO capsules. In general, carriers stabilized with the simultaneous application of protein and carbohydrate performed better compared to their single application in sensory tests in mayonnaise.

Abstract Image

开发基于阿魏精油的 Prangos ferulacea 纳米乳液/萃取乳液,并检验其在蛋黄酱保质期内的表现
用天然化合物替代化学抗菌剂的需求日益增长,这导致一些植物提取物和精油(EO)被用作天然防腐剂。这些天然防腐剂包括以吐温 80 为壁材的纳米乳液(NE)和以碳水化合物(阿拉伯胶(AG))或蛋白质(酪蛋白酸钠(SC))为壁材的皮克林乳液(PE)。首先,从植物的花和叶两个部分提取 PEO,并通过气相色谱-质谱和 IC50 指数测定进行表征。由于从叶中提取的铁线莲精油(PEO)的抗氧化活性略高于花的 EO,因此被选中进行下一步测试。香叶中的 PEO 被封装成三种形式:以吐温 80 为壁材的纳米乳液(NE)和以碳水化合物(阿拉伯胶(GA))或蛋白质(酪蛋白酸钠(SC))为壁材的皮克林乳液(PE)。NE 的粒径最小,抗氧化和抗菌(金黄色葡萄球菌和大肠杆菌)活性最高。AG 稳定聚乙烯的封装效率最高(85.37 ± 1.97 %)。傅立叶变换红外光谱(FT-IR)和有限元扫描电子显微镜(FE-SEM)测试分别证实了 PEO 与壁材之间新化学作用的发生以及聚乙烯微胶囊的均匀形状。将游离和封装的 PEO 添加到蛋黄酱中,在 4 °C 下储存 60 天后对样品进行分析。所有蛋黄酱样品的过氧化值和 TBA 指数都逐渐升高,但含有 NE 和 SC 稳定型 PEO 胶囊的样品过氧化值和 TBA 指数的升高幅度较低。总的来说,在蛋黄酱的感官测试中,同时添加蛋白质和碳水化合物的稳定载体比单一添加这两种物质的载体表现更好。
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来源期刊
CiteScore
5.40
自引率
2.60%
发文量
193
审稿时长
69 days
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