从木槿花萼中提取的喷雾干燥微胶囊化。

Mercedes Campo Fernández, Donna Fiorella Granja Rizzo, Nubia Lisbeth Matute Castro, Osmany Cuesta Rubio, Ingrid Márquez Hernández
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引用次数: 0

摘要

研究了超声辅助提取水仙花萼的最佳工艺条件,并采用喷雾干燥法制备水仙花萼微囊化粉末。对提取液进行分析,以提取溶剂(水和水/乙醇)和温度/提取时间比(25℃/60 min和60℃/30 min)为变量。进气温度(150℃;190℃)和阿拉伯胶(G)和麦芽糖糊精(MD)的混合物作为包封剂(G40/MD60;G60/MD40)为研究变量。用于分析的参数为:产率,pH,°Bx,化学成分(酚类和总花青素,HPLC-MS)和抗氧化能力(DPPH)。多酚类物质的最佳提取条件为水:乙醇(80:20),60℃,30 min。酚酸、黄酮醇苷和花青素(飞鸽苷-3-参比比苷和花青素-3-参比比苷)的存在是提取强度最高的信号。进气温度为150℃,G60/MD40时总酚和花青素含量最高。而在150℃和G40/MD60条件下,其抗氧化能力较好。考虑到其易于处理和抗氧化能力,所获得的微颗粒可以用作制备植物药或功能食品的成分。
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Microencapsulación mediante secado por atomización a partir de un extracto de los cálices de Hibiscus sabdariffa L.
The objective of the research was to define the best conditions for ultrasound-assisted extraction of H. sabdariffa L. calyces, and to obtain microencapsulated powders, by spray drying. The extracts were analyzed, considering as variables: extracting solvent (water and water/ethanol) and the temperature /extraction time ratio (25 oC/60 min and 60 oC/30 min). Inlet air temperature (150 oC; 190 oC) and the mixture of gum arabic (G) and maltodextrin (MD) as encapsulating agents (G40/MD60; G60/MD40) were the variables studied. The parameters used for the analysis were: yield, pH, °Bx, chemical composition (phenols and total anthocyanins, HPLC-MS), and antioxidant capacity (DPPH). The best polyphenols extraction conditions were water:ethanol (80:20), at 60 °C for 30 min. The presence of phenolic acids, flavonol glycosides, and anthocyanins (delphinidin-3-sambubioside and cyanidin-3-sambubioside) were identified as the signals of highest intensity. Inlet air temperature at 150 °C and G60/MD40 allowed the highest total phenols and anthocyanins content. However, the antioxidant capacity was better at 150 °C and G40/MD60. The microparticle obtained could be used as an ingredient for the preparation of phytopharmaceuticals or functional foods, considering their easy handling, and antioxidant capacity.
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