Use of Micronization and Complex Coacervation to Preserve Antioxidant Properties of Flavonoids.

IF 2.7 Q2 FOOD SCIENCE & TECHNOLOGY International Journal of Food Science Pub Date : 2023-09-15 eCollection Date: 2023-01-01 DOI:10.1155/2023/9456931
Rinat Fatkullin, Irina Kalinina, Natalya Naumenko, Ekaterina Naumenko
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Abstract

The plant flavonoids taxifolin and rutin are among the best known and best studied antioxidants. In addition to their antioxidant properties, other pharmacobiological properties have been established for these substances. At the same time, taxifolin and rutin are chemically labile. They are prone to oxidative degradation and have poor water solubility. Under conditions of their real consumption, all this can lead to a significant reduction or complete loss of bioactivity of these flavonoids. Flavonoid modification and encapsulation techniques can be used to overcome these barrier factors. The use of micronization process for taxifolin and rutin allows changing the lipophilicity values of antioxidants. For micronized taxifolin, the log P value is 1.3 (1.12 for the control forms), and for rutin, it was 0.15 (-0.64 for the control forms). The antioxidant activity of micronized flavonoids has increased about 1.16 times compared to control forms. The present study evaluates the possibility of using encapsulation of premyconized flavonoids by complex coacervation, in order to preserve their antioxidant properties. The results of an in vitro digestion study show that the encapsulated forms of antioxidants retain their bioactivity and bioavailability better than their original forms. The bioavailability indices for the encapsulated forms of flavonoids are more than 1.6 times higher than for their original forms. The digested fractions of the encapsulated properties reveal better antioxidant properties than their original forms in in vitro tests evaluating the antioxidant properties on cultures of the protozoan Paramecium caudatum and human neuroblastoma SH-SY5Y cells. Encapsulated rutin indicates the highest activity, 0.64 relative to PMA. Thus, the studies represent the feasibility of using encapsulation to protect flavonoids during digestion and ensure the preservation of their antioxidant properties.

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利用微粉化和复合凝聚法保持黄酮类化合物的抗氧化性能。
植物黄酮类化合物taxifolin和芦丁是最著名和研究最好的抗氧化剂之一。除了抗氧化特性外,这些物质还具有其他药物生物学特性。同时,紫杉醇和芦丁在化学上是不稳定的。它们易于氧化降解并且水溶性差。在实际食用的条件下,所有这些都可能导致这些黄酮类化合物的生物活性显著降低或完全丧失。黄酮类化合物的改性和包封技术可以用来克服这些障碍因素。使用微粉化工艺对紫杉醇和芦丁可以改变抗氧化剂的亲脂性值。对于微粉化的紫杉醇 P值为1.3(对照形式为1.12),芦丁为0.15(对照形式的-0.64)。与对照形式相比,微粉化类黄酮的抗氧化活性增加了约1.16倍。本研究评估了通过复合凝聚法包埋预氧化类黄酮的可能性,以保持其抗氧化性能。体外消化研究的结果表明,包封形式的抗氧化剂比原始形式更好地保持其生物活性和生物利用度。类黄酮胶囊形式的生物利用度指数是其原始形式的1.6倍以上。在评估原生动物草履虫尾状体和人神经母细胞瘤SH-SY5Y细胞培养物的抗氧化特性的体外测试中,包封特性的消化部分显示出比其原始形式更好的抗氧化特性。包埋的芦丁显示出最高的活性,相对于PMA为0.64。因此,这些研究表明,使用包封在消化过程中保护类黄酮并确保其抗氧化性能的可行性。
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来源期刊
International Journal of Food Science
International Journal of Food Science Agricultural and Biological Sciences-Food Science
CiteScore
6.20
自引率
2.50%
发文量
105
审稿时长
11 weeks
期刊介绍: International Journal of Food Science is a peer-reviewed, Open Access journal that publishes research and review articles in all areas of food science. As a multidisciplinary journal, articles discussing all aspects of food science will be considered, including, but not limited to: enhancing shelf life, food deterioration, food engineering, food handling, food processing, food quality, food safety, microbiology, and nutritional research. The journal aims to provide a valuable resource for food scientists, food producers, food retailers, nutritionists, the public health sector, and relevant governmental and non-governmental agencies.
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