天然产物研究与开发 ›› 2018, Vol. 30 ›› Issue (5): 882-887.doi: 10.16333/j.1001-6880.2018.5.024

• 开发研究 • 上一篇    下一篇

响应面法优化膜分离穿山龙薯蓣皂苷工艺研究

宋逍*,张新博,焦莹,唐志书   

  1. 陕西中医药大学药学院,咸阳 712046
  • 出版日期:2018-06-04 发布日期:2018-06-04
  • 基金资助:

    国家自然科学基金(81373944,81373978);陕西省科学技术厅课题 (2012KTCQ03-13)

Optimization of Membrane Separation of Dioscin from Dioscorea nipponica Using Response Surface Methodology  

SONG Xiao*, ZHANG Xin-bo, JIAO Ying, TANG Zhi-shu   

  1. School of Pharmacy,Shaanxi University of Chinese Medicine,Xianyang 712046,China
  • Online:2018-06-04 Published:2018-06-04

摘要: 本文通过响应面法优选陶瓷膜分离穿山龙薯蓣皂苷的工艺条件。以指标成分转移率为评价,采用单因素方法选取过膜温度( ℃)、过膜浓度(g/L)、过膜压力(MPa)三种因素水平。根据Box-Behnken的中心组合实验设计原理,利用Design-Expert软件对数据进行回归分析,得到最佳分离条件。陶瓷膜分离穿山龙薯蓣皂苷的优化条件为:过膜温度30 ℃、过膜浓度2 g/L、过膜压力0.8 MPa,在此工艺条件下,指标成分转移平均为44.88%。经过响应面优化陶瓷膜分离穿山龙薯蓣皂苷的条件能克服传统水提醇沉工艺导致有效成分损失较大、用醇量大、生产周期长等缺点,具有可操作性,可用于穿山龙薯蓣皂苷的分离。

关键词: 穿山龙, 薯蓣皂苷, 响应面法, 无机陶瓷膜

Abstract: The membrane separation conditions for dioscin from Dioscorea nipponica Makino were optimized by response surface methodology.The index component transfer rate as evaluation index,according to experiment of the single factor,three levels of membrane temperature ( ℃),membrane concentration (g/L) and membrane pressure (MPa) were selected.According to the Box-Behnken experimental design,Expert-Design software was used to analysis the date and get the optimal membrane separation condition.Results showed that the membrane separation condition:membrane temperature of 30 ℃,transmembrane concentration of 2 g/L,transmembrane pressure of 0.8 MPa,under these conditions,an average of transfer index component was 44.88%.Optimization of inorganic ceramic membrane separation of dioscin by response surface methodology,which can overcome the disadvantages of traditional water extraction and alcohol precipitation process leads to the loss of active ingredients,serious disadvantages of alcohol in large quantity and long production cycle.The developed method was practical and can be used for separation of dioscin.

Key words: Dioscorea nipponica, dioscin, response surface methodology, inorganic ceramic membrane

中图分类号: 

R284.2