Encapsulation of Pomelo Peel Essential oil (Citrus maxima) Using the Alginate/Chitosan complex

IF 1.5 4区 医学 Q4 CHEMISTRY, MEDICINAL Natural Product Communications Pub Date : 2024-08-14 DOI:10.1177/1934578x241275015
Cam Ngan Thi Nguyen, Thuong Nhan Phu Nguyen, Chi Khang Van, Huynh Cang Mai
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Abstract

Objective: This study aimed to determine appropriate parameters for encapsulating pomelo peel essential oil (Citrus maxima) using the alginate/chitosan complex. Methods: The investigated parameters included the concentration of sodium alginate solution (2 ‒ 3.5% w/v based on the volume of mixture), the concentration of pomelo essential oil (20 ‒ 40% w/w based on dry matter of wall marerials), the concentration of Tween 80 (0 ‒ 20% w/w based on dry matter of wall marerials), the concentration of CaCl2 solution (0.5 ‒ 3.5% w/v based on the volume of mixture), time (10 min – 20 min) and speed of emulsion homogenization (489-4402 × g), the concentration of chitosan solution (0.5 ‒ 2% w/v based on the volume of mixture), and pH of chitosan solution (4 ‒ 6). Results: The results showed encapsulation yield (EY%) and encapsulation efficiency (EE%) of 91.64% and 85.18%, respectively, when using the concentration of sodium alginate solution as 3% (w/v based on the volume of mixture), the concentration of essential oil as 30% (w/w based on dry matter of wall marerials), the concentration of Tween 80 as 15% (w/w based on dry matter of wall marerials), the concentration of CaCl2 solution as 1.5% (w/v based on the volume of mixture), homogenization time as 10 min and homogenization speed as 4402 × g, the concentration of chitosan as 2% (w/v based on the volume of mixture) and pH of Chitosan solution as 5. Conclusion: The alginate/chitosan complex was proven effective in encapsulating pomelo essential oil (Citrus maxima) on a laboratory scale. The resulting encapsulated particles had a relatively uniform size and a high ability to retain essential oils in the core of the particles. Further studies should be conducted to elucidate the mechanism of the encapsulation process and to additionally evaluate the physical and chemical properties of the encapsulated particles.
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利用海藻酸/壳聚糖复合物封装柚子皮精油(Citrus maxima)
研究目的本研究旨在确定使用海藻酸盐/壳聚糖复合物封装柚子皮精油(Citrus maxima)的适当参数。研究方法研究参数包括海藻酸钠溶液的浓度(按混合物体积计算为 2 - 3.5% w/v)、柚子精油的浓度(按壁材干物质计算为 20 - 40% w/w)、吐温 80 的浓度(按壁材干物质计算为 0 - 20% w/w)、氯化钙溶液的浓度(按壁材干物质计算为 0.5 - 3.5% w/v(基于混合物体积)、乳液均质时间(10 - 20 分钟)和速度(489-4402 × g)、壳聚糖溶液浓度(0.5 - 2% w/v(基于混合物体积))和壳聚糖溶液的 pH 值(4 - 6)。结果显示结果表明,当海藻酸钠溶液浓度为 3% (按混合物体积计算)、香精油浓度为 30% (按墙面干物质计算)、吐温 80 浓度为 15% (按墙面干物质计算)、氯化钙溶液浓度为 1.5%(按混合物体积计算),均质时间为 10 分钟,均质速度为 4402×g,壳聚糖浓度为 2%(按混合物体积计算),壳聚糖溶液的 pH 值为 5:实验证明,海藻酸盐/壳聚糖复合物能有效封装柚子精油(Citrus maxima)。封装后的颗粒大小相对均匀,在颗粒核心保留精油的能力很强。应开展进一步研究,以阐明封装过程的机理,并对封装颗粒的物理和化学特性进行额外评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Natural Product Communications
Natural Product Communications 工程技术-食品科技
CiteScore
3.10
自引率
11.10%
发文量
254
审稿时长
2.7 months
期刊介绍: Natural Product Communications is a peer reviewed, open access journal studying all aspects of natural products, including isolation, characterization, spectroscopic properties, biological activities, synthesis, structure-activity, biotransformation, biosynthesis, tissue culture and fermentation. It covers the full breadth of chemistry, biochemistry, biotechnology, pharmacology, and chemical ecology of natural products. Natural Product Communications is a peer reviewed, open access journal studying all aspects of natural products, including isolation, characterization, spectroscopic properties, biological activities, synthesis, structure-activity, biotransformation, biosynthesis, tissue culture and fermentation. It covers the full breadth of chemistry, biochemistry, biotechnology, pharmacology, and chemical ecology of natural products. Natural Product Communications is a peer reviewed, open access journal studying all aspects of natural products, including isolation, characterization, spectroscopic properties, biological activities, synthesis, structure-activity, biotransformation, biosynthesis, tissue culture and fermentation. It covers the full breadth of chemistry, biochemistry, biotechnology, pharmacology, and chemical ecology of natural products.
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