包封生物活性物质的稳定双乳液体系的风味形成

Q Engineering
O. Feofilaktova, N. Zavorokhina
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引用次数: 0

摘要

保证功能性食品成分的稳定性和强化食品风味的形成符合健康营养原则,有利于人类和后代的健康,降低疾病风险。本研究旨在研究双乳食品体系(DEFS)中活性物质包封对食品感官轮廓形成及活性物质抗氧化能力的生物学影响。对鱼油反相乳化液与鱼油包封于乳化液基质内相的DEFS o/w/o进行对比感官分析;维生素B1(硫胺素)直接乳状液和DEFS w/o/w,其中维生素B1包封于乳状液基质内相;以及鱼油在反乳和双乳体系下贮存过程中氧化稳定性的研究结果。一名男子用封装的BAS编制了对照样品和DEFS的感官概况。结果表明,鱼油和维生素B1在DEFS中的包封有助于鱼油和维生素B1的色香味校正-除臭,消除鱼油和维生素B1的余味和异味。研究证实了鱼油胶囊在DEFS中的有效性,表现在增强其抗氧化能力。在贮藏过程中,对照样品的脂肪氧化强度高于双乳体系。对照样品的过氧化值在贮藏期间增加了6倍,达到每1 kg脂肪7.9 mmol的活性氧,而双乳食品体系的过氧化值仅增加了4倍,从贮藏第1天的1.3增加到第35天的5.1。平均每7天,对照样品的过氧化值增加1.32,双乳体系的过氧化值增加0.76。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flavor Formation of Stable Double Emulsion Systems with Encapsulated Biologically Active Substances
Ensuring the functional food ingredients stability and the flavor formation of foods fortified with them meets the healthy nutrition principles, which contributes to the human and future generations health, as well as reduces the disease risk. The research aim was to study the biologically impact of the active substances encapsulation into double emulsion food systems (DEFS) on the organoleptic profile formation and the biologically active substances resistance to oxidation. The study demonstrated the comparative organoleptic analysis results of the inverse emulsion with fish oil and DEFS o/w/o with fish oil encapsulated in the internal phase of the emulsion matrix; direct emulsion with vitamin B1 (thiamine) and DEFS w/o/w with vitamin B1 encapsulated in the internal phase of the emulsion matrix; as well as the oxidation stability study results of fish oil in the composition of the inverse emulsion and dual emulsion system during storage. A man compiled organoleptic profiles of control samples and DEFS with encapsulated BAS. The results showed that the fish oil and vitamin B1 encapsulation in DEFS contributed to the color and flavor correction – deodorization and elimination of fish oil and vitamin B1 aftertaste and off-flavours. Study confirmed the effectiveness of fish oil encapsulation in DEFS, expressed in increasing its resistance to oxidation. During storage, the fat oxidation intensity in the control sample was higher than in the double emulsion system. The peroxide value in the control sample increased 6 times during storage and amounted to 7.9 mmol of active oxygen per 1 kg of fat, while in the double emulsion food system the increase was only 4 times, from 1.3 on the first day of storage to 5.1 on the 35th day. On average, for every 7 days of storage the peroxide value grew by 1.32 for the control sample and by 0.76 for the double emulsion system.
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来源期刊
Agro Food Industry Hi-tech
Agro Food Industry Hi-tech 工程技术-生物工程与应用微生物
CiteScore
0.29
自引率
0.00%
发文量
0
审稿时长
6-12 weeks
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