大豆卵磷脂和酪蛋白酸钠对番茄红素纳米分散体稳定性和体外生物可及性的影响。

IF 2.3 4区 农林科学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Nor Shariffa Yussof, Tan Chin Ping, Tan Tai Boon, Uthumporn Utra, Muhammad Ezzudin Ramli
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引用次数: 1

摘要

研究背景:各种方法已被用于向消费者提供包括番茄红素在内的功能性脂质。然而,由于高度疏水性,番茄红素不溶于水系统,在体内的生物利用度有限。番茄红素纳米分散体有望改善番茄红素的性能,但其稳定性和生物可及性也受到乳化剂类型和环境条件如pH、离子强度和温度的影响。实验方法:考察大豆卵磷脂、酪蛋白酸钠和大豆卵磷脂/酪蛋白酸钠在不同pH、离子强度和温度下处理前后对乳化蒸发法制备的番茄红素纳米分散体理化性质和稳定性的影响。研究了纳米分散体的体外生物可及性。结果与结论:在中性pH条件下,大豆卵磷脂稳定的纳米分散体具有最高的物理稳定性和最小的粒径(78 nm),最低的多分散指数(PDI)值(0.180)和最高的zeta电位(-64 mV),而番茄红素浓度最低(1.826 mg/100 mL)。相反,酪蛋白酸钠稳定的纳米分散体具有最低的物理稳定性。大豆卵磷脂与酪蛋白酸钠以1:1的比例混合可获得物理稳定的番茄红素纳米分散体,其番茄红素浓度最高(2.656 mg/100 mL)。大豆卵磷脂制备的番茄红素纳米分散体在不同pH范围(pH=2 ~ 8)下均具有较高的物理稳定性,其粒径、PDI和zeta电位基本保持一致。当pH值降至酪蛋白酸钠的等电点(pH=4-5)附近时,含有酪蛋白酸钠的纳米分散体不稳定,发生了液滴聚集。当NaCl浓度大于100 mM时,大豆卵磷脂和酪蛋白酸钠混合稳定的纳米分散体的粒径和PDI值急剧增加,而大豆卵磷脂和酪蛋白酸钠混合稳定的纳米分散体更稳定。除了酪蛋白酸钠稳定的纳米分散体在加热到60℃以上时粒径增大外,所有的纳米分散体在温度变化(30-100℃)下都表现出良好的稳定性。大豆卵磷脂与酪蛋白酸钠复合可提高番茄红素纳米分散体的生物可及性。番茄红素纳米分散消化的理化性质、稳定性和程度在很大程度上取决于乳化剂类型。创新和科学贡献:生产纳米分散体被认为是克服番茄红素水溶性差、稳定性和生物利用度问题的最佳方法之一。目前,有关番茄红素强化递送系统的研究,特别是纳米分散形式的研究仍然有限。番茄红素纳米分散体的物理化学性质、稳定性和生物可及性等方面的研究成果,对开发一种有效的脂质递送系统具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Influence of Soy Lecithin and Sodium Caseinate on The Stability and <i>in vitro</i> Bioaccessibility of Lycopene Nanodispersion.

Influence of Soy Lecithin and Sodium Caseinate on The Stability and <i>in vitro</i> Bioaccessibility of Lycopene Nanodispersion.

Influence of Soy Lecithin and Sodium Caseinate on The Stability and <i>in vitro</i> Bioaccessibility of Lycopene Nanodispersion.

Influence of Soy Lecithin and Sodium Caseinate on The Stability and in vitro Bioaccessibility of Lycopene Nanodispersion.

Research background: Various approaches have been used to present functional lipids including lycopene in a palatable food form to consumers. However, being highly hydrophobic, lycopene is insoluble in aqueous systems and has a limited bioavailability in the body. Lycopene nanodispersion is expected to improve the properties of lycopene, but its stability and bioaccessibility are also affected by emulsifier type and environmental conditions such as pH, ionic strength and temperature.

Experimental approach: The influence of soy lecithin, sodium caseinate and soy lecithin/sodium caseinate at 1:1 ratio on the physicochemical properties and stability of lycopene nanodispersion prepared using the emulsification-evaporation methods before and after treatment at different pH, ionic strength and temperature were investigated. The in vitro bioaccessibility of the nanodispersions was also studied.

Results and conclusion: Under neutral pH conditions, nanodispersion stabilized with soy lecithin had the highest physical stability and the smallest particle size (78 nm), the lowest polydispersity index (PDI) value (0.180) and highest zeta potential (-64 mV) but the lowest lycopene concentration (1.826 mg/100 mL). Conversely, nanodispersion stabilized with sodium caseinate had the lowest physical stability. Combining the soy lecithin with sodium caseinate at 1:1 ratio resulted in a physically stable lycopene nanodispersion with the highest lycopene concentration (2.656 mg/100 mL). The lycopene nanodispersion produced by soy lecithin also had high physical stability under different pH range (pH=2-8) where the particle size, PDI and zeta potential remained fairly consistent. The nanodispersion containing sodium caseinate was unstable and droplet aggregation occurred when the pH was reduced close to the isoelectric point of sodium caseinate (pH=4-5). The particle size and PDI value of nanodispersion stabilized with soy lecithin and sodium caseinate mixture increased sharply when the NaCl concentration increased above 100 mM, while the soy lecithin and sodium caseinate counterparts were more stable. All of the nanodispersions showed good stability with respect to temperature changes (30-100 °C) except for the one stabilized by sodium caseinate, which exhibited an increased particle size when heated to above 60 °C. The combination of soy lecithin and sodium caseinate was found to increase the bioaccessibility of the lycopene nanodispersion. The physicochemical properties, stability and extent of the lycopene nanodispersion digestion highly depend on the emulsifier type.

Novelty and scientific contribution: Producing a nanodispersion is considered one of the best ways to overcome the poor water solubility, stability and bioavailability issues of lycopene. Currently, studies related to lycopene-fortified delivery systems, particularly in the form of nanodispersion, are still limited. The information obtained on the physicochemical properties, stability and bioaccessibility of lycopene nanodispersion is useful for the development of an effective delivery system for various functional lipids.

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来源期刊
Food Technology and Biotechnology
Food Technology and Biotechnology 工程技术-生物工程与应用微生物
CiteScore
3.70
自引率
0.00%
发文量
33
审稿时长
12 months
期刊介绍: Food Technology and Biotechnology (FTB) is a diamond open access, peer-reviewed international quarterly scientific journal that publishes papers covering a wide range of topics, including molecular biology, genetic engineering, biochemistry, microbiology, biochemical engineering and biotechnological processing, food science, analysis of food ingredients and final products, food processing and technology, oenology and waste treatment. The Journal is published by the University of Zagreb, Faculty of Food Technology and Biotechnology, Croatia. It is an official journal of Croatian Society of Biotechnology and Slovenian Microbiological Society, financed by the Croatian Ministry of Science and Education, and supported by the Croatian Academy of Sciences and Arts.
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