Encapsulation of Lemongrass Extract (Cymbopogon citratus) Coated Alginate/Chitosan Using Gelation Method

A. Prasetyaningrum, Sadam Arrois, Fitri Lafifa, Aat Zaki Mubarok, Fadlillah Fani, N. Handayani, R. Ratnawati, B. Jos
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Abstract

Lemongrass (Cymbopogon citratus) is a medicinal plant with various biological activities such as antibacterial, antifungal, antiprotozoal, anti-inflammatory, and antioxidant. This study aimed to encapsulate lemongrass bioactive in alginate/chitosan complex by enhancing the properties of CaCl2 crosslinked incorporated with tween 80 by ionic gelation method. The hydrogel was prepared by mixing alginate solution (2% w/v) and chitosan solution (1% w/v) with a ratio (1:1 v/v). Tween 80 (2% v/v) was added as a dissolution enhancer and CaCl2 as a crosslinker agent. The formulation varying by concentration of CaCl2 (0.1M to 0.3M) and lemongrass extract (2% to 12%). Encapsulation lemongrass with alginate-chitosan beads is characterized to determine encapsulation efficiency, swelling study, morphology, functional groups, and release study. The results showed that encapsulation efficiency ranged from 74.81% to 83.07%. Encapsulation efficiency increased with the addition of CaCl2 and lemongrass extract concentration. The swelling ratio ranged from 27.29 to 37.81, it will decrease with the addition of CaCl2 and lemongrass extract concentration. The Scanning Electron Microscopy (SEM) analysis of hydrogel beads shows a polyhedral shape, porous, and rough surface which indicates bioactive of lemongrass trapped on the beads. The Fourier Transform Infrared Spectroscopy (FTIR) results show new peaks at 1734 cm-1 as carbonyl stretch vibrations in ketones, aldehydes, and carboxylic acids, indicating the addition of lemongrass extract. Bioactive of lemongrass extract loaded alginate-chitosan beads was successfully released as much as 87.12% at pH 6.8. This study suggested the strong potential alginate-chitosan beads as an encapsulating agent for lemongrass extract using the ionic gelation method, and it has potential as a drug delivery system.Keywords: encapsulation; lemongrass; alginate; chitosan; CaCl2
用凝胶法制备海藻酸盐/壳聚糖包封柠檬草提取物
柠檬草(Cymbopogon citratus)是一种具有抗菌、抗真菌、抗原虫、抗炎、抗氧化等多种生物活性的药用植物。本研究旨在通过离子凝胶法提高钙l2交联剂的性能,将柠檬草的生物活性包封在海藻酸盐/壳聚糖配合物中。将海藻酸盐溶液(2% w/v)与壳聚糖溶液(1% w/v)按1:1的比例混合制备水凝胶。加入吐温80 (2% v/v)作为溶解增强剂,CaCl2作为交联剂。配方中CaCl2 (0.1M ~ 0.3M)和柠檬草提取物(2% ~ 12%)的浓度不同。以海藻酸盐壳聚糖微球包封香茅为研究对象,考察包封效果、溶胀特性、形态、官能团和释放特性。结果表明:包封率为74.81% ~ 83.07%。包封率随CaCl2添加量和柠檬草提取物浓度的增加而增加。溶胀率为27.29 ~ 37.81,随CaCl2添加量和柠檬草浸膏浓度的增加而降低。扫描电子显微镜(SEM)分析表明,水凝胶珠具有多面体形状、多孔性和粗糙的表面,表明水凝胶珠上含有柠檬草的生物活性。傅里叶变换红外光谱(FTIR)结果显示,酮、醛和羧酸中的羰基拉伸振动在1734 cm-1处出现新峰,表明添加了柠檬草提取物。在pH为6.8的条件下,负载海藻酸壳聚糖珠的柠檬草提取物的生物活性达到87.12%。本研究表明,海藻酸盐-壳聚糖微球作为离子凝胶法制备柠檬草提取物的包封剂,具有潜在的给药潜力。关键词:封装;柠檬草;藻朊酸盐;壳聚糖;氯化钙
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