Application of Ultrasonic-Assisted Fractionation with Full-Factorial Design for the Production of Alkaloid-Rich Fraction from Ficus septica Leaves

Journal of Food and Pharmaceutical Sciences Pub Date : 2020-11-23 DOI:10.22146/JFPS.852

M. H. Ridho, A. P. Gani, S. Wahyuono, N. Fakhrudin

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引用次数: 2

Abstract

Ficus septica Burm. F (Awar-awar) in Indonesian herbal medicine traditionally used for the treatment of various disease. Previous studies indicated that the F. septica leaves contained phenantroindolizidine alkaloids with anticancer activity. Fractionation of the ethanol extract of F. septica leaves using n-hexane was able to separate chlorophylls and other inert non–polar constituents from the extract. This fractionation process can be optimized using ultrasonic-assisted fractionation to yield n-hexane insoluble fraction (HIF) that is rich in alkaloids. This study aimed to produce HIF from the ethanol extract of F. septica leaves by using optimized ultrasonic-assisted fractionation with n-hexane as a solvent and full factorial as experimental design. Ficus septica leaves were macerated in ethanol (60%) and the extract was used for the ultrasonic-assisted fractionation process. The duration of fractionation (5-30 minutes), the extract : n-hexane ratios (1:0.1 - 1:1.66 ml/ml), and the ultrasonic power (21-106 Wrms) were optimized to determine the optimal condition for each variable. These optimal variables were used for the production of HIF from the extract by using full factorial design in the ultrasonic-assisted fractionation process. The total alkaloid content was measured using spectrophotometry and was used as parameter for the optimization process. We found that the optimal condition for the fractionation process based on each single variable optimization were 5 minutes of the fractionation duration, 66-70Wrms of the ultrasonic power, and 1:0.7 - 1:0.8 of the extract : n-hexane ratio. By using these optimized variables, the ultrasonic-assisted fractionation using full factorial design yielded up to 0.035% total alkaloid content which is almost double from those in the extract (0.019%). This study provided a basic experimental model for the production of alkaloid-enriched HIF from F. septica leaves in the industrial or pilot scale, and might contribute to the development of Indonesian herbal medicine products from natural resources.

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全因子设计超声辅助分馏法生产富生物碱无花果叶提取物的应用

榕树。F (awwar -awar)是印度尼西亚的草药，传统上用于治疗各种疾病。以往的研究表明，黄芪叶中含有具有抗癌活性的非安特罗吲哚嗪类生物碱。用正己烷对败血菜叶乙醇提取物进行分馏，可分离出叶绿素和其他惰性非极性成分。超声波辅助分馏可优化分馏工艺，得到富含生物碱的正己烷不溶性馏分(HIF)。本研究以正己烷为溶剂，以全因子为实验设计，采用优化的超声辅助分馏工艺，以败血菜叶乙醇提取物为原料制备HIF。用60%乙醇浸泡无花果叶，提取液进行超声辅助分馏。对提取时间(5 ~ 30 min)、提取液与正己烷比(1:0.1 ~ 1:1.66 ml/ml)、超声功率(21 ~ 106 Wrms)进行优化，确定各参数的最优条件。在超声辅助分馏过程中，采用全因子设计，将这些优化变量用于提取物的HIF生产。采用分光光度法测定总生物碱含量，并以此为优化工艺参数。通过对各单变量的优化，优选出最佳分馏工艺条件为:分馏时间为5 min，超声功率为66 ~ 70wrms，正己烷比为1:0.7 ~ 1:0.8。采用全因子设计，超声辅助分馏得到的总生物碱含量可达0.035%，是提取液中总生物碱含量(0.019%)的近两倍。本研究为利用败腐菌叶在工业或中试规模上生产富含生物碱的药材提供了基础的实验模型，并可能为利用自然资源开发印尼草药产品提供参考。

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Journal of Food and Pharmaceutical Sciences

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