以简单药物制剂形式对橄榄苦苷及其二醛衍生物进行环境可持续制备。

Environmentally Sustainable Preparation of Oleuropein and Its Dialdehydic Derivatives in a Simple Pharmaceutical Formulation.

作者信息

Nardi Monica, Bonacci Sonia, Frisina Marialaura, Oliverio Manuela, Scarpelli Rosa, Procopio Antonio

机构信息

Department of Health Science -, AGreen Food Research Center, University Magna Græcia of Catanzaro, Viale Europa, 88100, Catanzaro, Italy.

出版信息

ChemSusChem. 2025 May 5;18(9):e202402252. doi: 10.1002/cssc.202402252. Epub 2025 Jan 7.

DOI:10.1002/cssc.202402252

PMID:39714969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12051248/

Abstract

In this paper, Krapcho's one-step decarbomethoxylation of oleuropein in DES is reported. Oleuropein used as reagent was extracted with water from olive leaves, widely available and inexpensive waste from the olive oil production chain. The reaction has been carried out in a series of ChCl-based DES of increasing acidity, with or without the addition of an amount of water, under microwave and conventional heating. The antioxidant power of the best reaction mixture, both in terms of biocompatibility of the medium and conversion of the starting material, was measured and compared with a natural phenolic mixture coming from EVOO. The reported results indicate that the formulation deriving by the Krapcho's one-step decarbomethoxylation of oleuropein in ChCl:Citric acid (1 : 1) DES can provide a ready-to-use "phenolic complex" with oxygen scavenging power similar to a mixture of phenols extracted from an EVOO that meets the requirements of EFSA health claim.

摘要

本文报道了在离子液体中橄榄苦苷的克拉普乔一步脱甲氧基化反应。用作试剂的橄榄苦苷是从橄榄叶中用水提取的，橄榄叶是橄榄油生产链中广泛可得且价格低廉的废弃物。该反应在一系列酸度递增的基于氯化胆碱的离子液体中进行，添加或不添加一定量的水，采用微波和传统加热方式。测定了最佳反应混合物的抗氧化能力，包括介质的生物相容性和起始原料的转化率，并与来自特级初榨橄榄油的天然酚类混合物进行了比较。报道的结果表明，通过在氯化胆碱：柠檬酸（1∶1）离子液体中对橄榄苦苷进行克拉普乔一步脱甲氧基化反应得到的制剂，可以提供一种即用型的“酚类复合物”，其氧清除能力类似于从符合欧洲食品安全局健康声明要求的特级初榨橄榄油中提取的酚类混合物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e95/12051248/38a54938d4a2/CSSC-18-e202402252-g001.jpg

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以简单药物制剂形式对橄榄苦苷及其二醛衍生物进行环境可持续制备。

Environmentally Sustainable Preparation of Oleuropein and Its Dialdehydic Derivatives in a Simple Pharmaceutical Formulation.

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