Opportunities and challenges for the nanodelivery of green tea catechins in functional foods
Bioavailability, stability challenges, health benefits, and nanodelivery of green tea catechins. [Display omitted] •Green tea catechins possess a wide range of health-promoting benefits.•Tea catechins are labile under both environmental and gastrointestinal conditions.•Nanotechnology can protect cat...
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Veröffentlicht in: | Food research international 2021-04, Vol.142, p.110186, Article 110186 |
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Sprache: | eng |
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Zusammenfassung: | Bioavailability, stability challenges, health benefits, and nanodelivery of green tea catechins.
[Display omitted]
•Green tea catechins possess a wide range of health-promoting benefits.•Tea catechins are labile under both environmental and gastrointestinal conditions.•Nanotechnology can protect catechins towards their nanodelivery in functional foods.•Further research should explain cellular mechanisms of action and catechin toxicity.
Green tea, the least processed tea product, is scientifically known for its rich antioxidant content originating from polyphenols, especially catechins. The most potent green tea catechin is epigallocatechin-3-gallate (EGCG), which is responsible for a wide range of health benefits including anticancer, antidiabetics, and anti-inflammatory properties. However, green tea catechins (GTCs) are very labile under both environmental and gastrointestinal conditions; their chemical stability and bioavailability primarily depend on the processing and formulation conditions. Nanocarriers can protect GTCs against such conditions, and consequently, can be applicable for designing nanodelivery systems suitable for GTCs. In this review, the latest findings about both opportunities and limitations for the nanodelivery of GTCs and their incorporation into various functional food products are discussed. The scientific findings so far confirm that nanodelivery of GTCs can be an efficient approach towards the enhancement of their health-promoting effects with a minimal dose, controlled and targeted release, lessening the dose-related toxicity, and the efficient incorporation into functional foods. However, further investigation is yet needed to fully explain the cellular mechanisms of action of GTCs on human health and to elucidate the effect of encapsulation on their bioefficacy using well-designed, systematic, long-term, and large-scale clinical interventions. There also exists a substantial concern regarding the safety of the manufactured nanoparticles, their absorption, and the associated release mechanisms. |
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ISSN: | 0963-9969 1873-7145 |
DOI: | 10.1016/j.foodres.2021.110186 |