集成膜技术在中药制药工业中的应用研究进展

王玺, 仇萍, 彭晓珊, 李正, 李文龙

中国药学杂志 ›› 2020, Vol. 55 ›› Issue (22) : 1836-1841.

PDF(1021 KB)
中国药学杂志
PDF(1021 KB)
中国药学杂志 ›› 2020, Vol. 55 ›› Issue (22) : 1836-1841. DOI: 10.11669/cpj.2020.22.002
综述

集成膜技术在中药制药工业中的应用研究进展

  • 王玺1, 仇萍2, 彭晓珊2, 李正1, 李文龙1,2*
作者信息 +

Applications of Integrated Membrane Technology in Pharmaceutical Industry of Traditional Chinese Medicine

  • WANG Xi1, QIU Ping2, PENG Xiao-shan2, LI Zheng1, LI Wen-long1,2*
Author information +
文章历史 +

摘要

传统中药提取、分离技术步骤复杂、能耗高、污染大,已成为中药工业生产面临的主要问题。膜分离技术因具有无需有机溶剂、分离效率高、操作温度低、适用范围广等优点,符合制药行业绿色环保和智能制造的理念,近年来在中药领域得到了推广应用。笔者对膜技术的分类,特点及原理进行介绍,对膜分离技术在中药有效成分提取分离中的应用进行综述,对膜分离技术存在的问题进行分析,并对其发展前景进行展望。

Abstract

The traditional extraction and separation technology of traditional Chinese medicine has become a major problem in the production of traditional Chinese medicine due to its complex steps, high energy consumption and serious pollution. Membrane technology has been widely applied in the field of traditional Chinese medicine because of its advantages of no need of organic solvent, high separation efficiency, low operating temperature and wide application range, which is consistent with the concept of green environmental protection and intelligent manufacturing in the pharmaceutical industry. This paper introduces the classification, characteristics and principle of membrane technology, summarizes the application of membrane separation technology in the extraction and separation of effective components of traditional Chinese medicine, analyzes the existing problems of membrane separation technology, and prospects its development.

关键词

膜分离技术 / 中医药 / 绿色环保 / 智能制造 / 中药活性成分

Key words

membrane separation technology / traditional Chinese medicine / green environmental protection / intelligent manufacturing / Chinese medicine active component

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用
王玺, 仇萍, 彭晓珊, 李正, 李文龙. 集成膜技术在中药制药工业中的应用研究进展[J]. 中国药学杂志, 2020, 55(22): 1836-1841 https://doi.org/10.11669/cpj.2020.22.002
WANG Xi, QIU Ping, PENG Xiao-shan, LI Zheng, LI Wen-long. Applications of Integrated Membrane Technology in Pharmaceutical Industry of Traditional Chinese Medicine[J]. Chinese Pharmaceutical Journal, 2020, 55(22): 1836-1841 https://doi.org/10.11669/cpj.2020.22.002
中图分类号: R284.2   

参考文献

[1] ZHOU J. Traditional Chinese medicine compound: natural combinatorial chemical library and mechanism of multiple targets[J]. Chin J Integr Tradit West Med(中国中西医结合杂志),1998,18 (2):67.
[2] GUO L W. Pharmaceutical Separation Engineering (制药分离工程)[M]. Beijing: People′s Health Press, 2014.
[3] GUO L W, XING W H, ZHU H X, et al. “Green manufacture”characteristics and national strategic demand of Chinese materia medica membrane technology and its key scientific problems and countermeasures[J]. Chin Tradit Herb Drugs(中草药), 2017, 48 (16):3267-3279.
[4] CAI M, CHEN S, LUO S L, et al. Comparison of membrane separation and alcohol precipitation for the separation of crude polysaccharides from Hericium Erinaceus[J]. Food Sci(食品科学), 2019,40 (9):83-90.
[5] JINAG H B, LIU L S, ZHANG Q, et al. Separation and purifying of phenylethanoid glycosides and polysaccharides from Cistanche Tubulosa by membrane technology[J]. Food Sci Tech(食品科技), 2019, 44 (7):229-234.
[6] ZHANG G. Research on lycium barbarum polysaccharides extration bymembrane separation[J]. Food Eng(食品工程), 2008 (4):23-25, 31.
[7] YUAN L, ZHOU X H, XIAO K J, et al. Concentration of baicalin extracts using multistage membranes[J]. Mod Food Sci Tech(现代食品科技), 2008,24(3):237-240.
[8] GAO F, XU L P. Application of membrane technology in the separation and purification of flavonoids from Lotus leaves[J]. Liaoning Chem Ind(辽宁化工), 2012, 41(9):875-877.
[9] YI K C, ZENG Q L, LI H. Study of purification of chrysanthemum flavonoids by membrane technology[J]. Nat Prod Res Dev(天然产物研究与开发), 2012, 24(10):1449-1453.
[10] ZHAO W F, LI H, PAN S Y, et al. Effect of membrane combination on the separation of active components in water extract of Lotus seed heart[J]. J Chin Inst Food Sci Tech(中国食品学报), 2017, 17(8):165-169.
[11] WANG W Y, LONG H P, TANG S Y. Extraction of flavonoids from bamboo leaves by membrane coupled cellulase[J]. China Brewing(中国酿造), 2011,232(7):74-77.
[12] GAO H N, JIN W Q, GUO L W. Research on refining of radix sophorae flavescentis decoction by microfiltration-ultrafiltration technology[J]. Tradit Chin Drug Res Clin Pharm(中药新药与临床药理), 2009,20(6):571-573.
[13] SHEN R M, HU B, ZHANG Y, et al. Application of membrane separation technology in ephedrine production[J]. Chem Bioeng(化学与生物工程), 2008,(7):58-60.
[14] CAO Y T, PAN L M, ZHU H X, et al. The research of different molecular membrane gradient purificate Qingluotongbi decoction[J]. World Sci Tech RD(世界科技研究与发展), 2009, 31(6):1000-1002.
[15] YAO X S. Thoughts on the strategy of modernization, standardization and internationalization of traditional Chinese medicine compound drugs[J]. Nanjing Univ Tradit Chin Med(南京中医药大学学报), 2019, 35(5):481-483.
[16] LUO J, ZHONG M H, XIAO K J, et al. Research on the concentration of Biyankang extract by multi-stage membrane [J]. China J Chin Mater Med(中国中药杂志), 2008,33(17):2108-2112.
[17] YE Y, ZHANG Y B. Research on separation condition and energy efficiency of membrane technology in complex Chinese medicine[J]. Lishizhen Med Mater Med Res(时珍国医国药), 2008,19(8):1884-1885.
[18] ZHAO S M, PENG W B, ZHANG J S, et al. The application of membrane integrated technology in the purification of water extract of Senecio[J]. Memb Sci Tech(膜科学与技术), 2018,38(4):120-126.
[19] ZHANG S N, LI L F, CHEN Y Y. Research of separation and concentration of roselle anthocyanins by ultrafiltration-nanofiltration membrane[J]. Sci Tech Food Ind(食品工业科技), 2015, 36 (23):143-147, 151.
[20] HUANG J, CHEN N, WEN T Y. Research on organic membrane filtration process of L-threonine fermentation broth [J]. Food Fermen Ind(食品与发酵工业), 2009,35 (2):87-90.
[21] ZHU H X, TANG Z S, PAN L M, et al. Design, integration, and application of special membrane materials and equipment for new separation process in Chinese materia medica industry[J]. Chin Tradit Herb Drugs(中草药), 2019, 50(8):1776-1784.
[22] GUO L W. Thoughts on the systematic research of "separation principle and technology of traditional Chinese medicine"-modern separation science and separation of traditional Chinese medicine[J]. World Sci Tech: Mod Tradit Chin Med(世界科学技术:中医药现代化), 2005,(4):61-66, 87-88.
[23] WANG Q, GUO L W. Refinement of Tongan water extract by flocculation combined with membrane separation[J]. Res Pract Chin Med(现代中药研究与实践), 2008,22(1):51-53.
[24] FAN W L, GUO L W, LIN Y. Research on the effect of different pretreatment methods on the water extraction process of Chinese herbal medicine by ceramic membrane clarification[J]. Chin Tradit Pat Med(中成药), 2008,(11):1709-1710.
[25] HUANG M Y, PAN L M, GUO L W. Study on the optimization of Refifining Zengye compounded liquid-water by inorganic ceramic membrane[J]. Res Pract Chin Med(现代中药研究与实践), 2009,23(6):38-40.
[26] NIE L F, HUANG J Y, HE C H, et al. Membrane technology for optimizing process optimization of small bioactive compounds in Mailuoning Injection factory effluene[J]. Chin Tradit Herb Drugs(中草药), 2019, 50(8):1804-1810, 1817.
[27] WANG Y X, LIU T, WANG Z Z, et al. Fouling and cleaning of Huoxuetongluo Injection with ultrafiltration[J]. Chin Tradit Herb Drugs(中草药), 2011,42(5):913-915.
[28] ZHAO P. Cleaning of ultrafiltration membrane and prevention of membrane fouling[J]. Environ Prot Chem Ind(化工环保), 2018, 38(3):333-337.
[29] ZHANG L H, QIAN Y Y, LIU J, et al. Feasibility analysis for integrated technology of ultrafiltration and reverse osmosis for concentration of scutellariae radix decoctions[J]. Chin J Exp Tradit Med Form(中国实验方剂学杂志), 2014,20(23):1-5.
[30] LIU Y, GUO L W. Application of coupling technology in refinement and separation of Chinese material medicine[J]. Chin Tradit Herb Drugs(中草药), 2006,9:1289-1292.
[31] ZHOU R J, NING Z X, CHEN S. Membrane technology and processes coupling[J]. Mod Chem Ind(现代化工), 2001, 21(8):20-24.
[32] LIU J C, HAI R T, YANG X J, et al. Inhibition of mass transfer of associated water in the process of separation of HCl by membrane distillation and osmotic distillation[J]. J Beijing Univ Chem Tech(北京化工大学学报),2011,38(04):17-21.
[33] HAN X, CHEN Y, XIA Y, et al. Study on extraction of tannin from acorn by ultrasonic coupling membrane technology[J]. Chem Bioeng(化学与生物工程), 2008,25(10):52-53.
[34] LIAN Z Q, WANG J, REN T, et al. Study on the preparation of fish scale collagen oligopeptide by enzyme coupling membrane technology[J]. Chem Bioeng(化学与生物工程), 2009,26 (8):64-66.
[35] CHEN Y N. Analysis of the current situation of standardization of China′s membrane industry: CESS 2014(Chapter 12):China Environmental Science Society. Annual meeting of China Environmental Science Society[C]. Beijing:China Environmental Science Society, 2014: 8.
[36] GUO L W. Significant demand and key problems of membrane science and technology applying to pharmaceutical industry of Chinese material medica[J]. Chin Tradit Herb Drugs(中草药), 2009,40(12):1849-1855.
[37] GUO L W, DONG J, FAN W L, et al. Data mining method applied to the optimization of membrane process of Chinese medicine water extraction [J]. World Sci Tech(世界科学技术), 2005,7(3):42-47, 88.
[38] LI L J, GUO L W. Forecasting system of Chinese medicine′s water extract in membrane separation process based on feature selection[J]. Comput Eng Desig(计算机工程与设计), 2010,31(9):2023-2026.
[39] LI L J, ZHAI S C, GUO L W, et al. Prediction of membrane separation process of Chinese medicine by support vector machine [J]. Comput App Chem(计算机与应用化学), 2010, 27 (2):149-154.
[40] LI B, PENG J, GUO L W, et al. Fouling mechanism study of tannins simulated solution membrane process based on Hermia model[J]. Chin Tradit Herb Drugs(中草药), 2019, 50(8):1811-1817.
[41] PAN L M, LI B, GUO L W, et al. Research progress, key scientific problems and countermeasures of “green concentration” technology based on membrane and its integration process[J]. Chin Tradit Herb Drugs(中草药), 2019, 50(8):1768-1775.
[42] SHENG P P, LUO S Q, YIN L H. Application of process analysis technology in pharmaceutical production process[J]. Chin J Pharm Anal(药物分析杂志), 2018, 38(5):748-757.
[43] ZHU H X, GUO L W, LI B, et al. Membrane process research mode and optimization strategy and method based on the academic thought of “solution environment of traditional Chinese medicine”[J]. Memb Sci Tech(膜科学与技术), 2015,35(5):127-133.
[44] GANDER M, JEFFERSON B, JUDD S. Aerobic MBRs for domestic wastewater treatment: a review with cost considerations[J]. Sep Purif Technol, 2000, 18(2):199-130.
[45] ZHENG X, ZHOU Y F, CHEN S, et al. Survey of MBR market: trends and perspective in China[J]. Desalination, 2010, 250(2):609-621.
[46] YE L. Performance of MBR process in pharmaceutical wastewater treatment and mechanism of membrane pollution control[D]. Hangzhou: Zhejiang University, 2019.
[47] YANG M, WU Z F, LIN H Y, et al. Problems, models, and strategies of preparation process of Chinese materia medica compound formulations[J]. Chin Tradit Herb Drugs(中草药), 2018,49(12):2735-2741.

基金

国家“重大新药创制”科技重大专项资助(2018ZX09201011)
PDF(1021 KB)

Accesses

Citation

Detail
段落导航
相关文章

/