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Progress in Chemistry 2006, Vol. 18 Issue (0203): 330-336 Previous Articles   Next Articles

• Review •

Chinese Herb Medicines Analyses by Capillary Electrophoresis with Amperometric Detection

Xiaoguang Zhou;Tianyan You*;Erkang Wang *   

  1. State Key Laboratory of Electroanalytical Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences , Changchun 130022, China
  • Received: Revised: Online: Published:
  • Contact: Tianyan You;Erkang Wang
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Capillary electrophoresis (CE) with amperometric detection (AD) has been widely used in various fields of analytical science, especially in the pharmaceutical industry recently due to its high separation efficiency and low detection limit.The determination of active ingredients in Chinese herb medicines by CE-AD is of great importance in developing the researches on pharmacology of herbs, quantitative analysis and quality control. Analyses of the effective components in Chinese herb medicines and compound Chinese herb medicine by CE-AD are reviewed in this paper. In contrast with other analysis methods, the advantage of CE-AD is discussed. The development in analyses of traditional Chinese medicine (TCM) by CE-AD in future is mentioned.
Key words: capillary electrophoresis, amperometric detection, Chinese herb medicines

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[ 1 ] 罗国安(Luo G A) , 王义明(Wang Y M) . 21 世纪的分析化学(Analytical Chemistry in 21st Century) . 北京: 科学出版社(Beijing : Science Press) , 1999. 102 —111
[ 2 ] Kappes T, Hauser P C. J . Chromatogr. A , 1999 , 834 : 89 —101
[ 3 ] Jin W R , Chen H F. J . Electroanal . Chem. , 1997 , 425 : 155 —160
[ 4 ] Jin W R , Chen H F. J . Chromatogr. A , 1997 , 765 : 307 —314
[ 5 ] Chicharro M, Zapardiel A , Bermejo E , et al . Electroanalysis ,2004 , 16 (4) : 311 —318
[ 6 ] 张玉忠(Zhang Y Z) , 赵红(Zhao H) , 袁倬斌( Yuan Z B) .分析化学(Chinese J . Anal . Chem. ) , 2003 , 31 (11) : 1380 —1384
[ 7 ] Zhang L Y, Qv S F , Wang ZL , et al . J . Chromatogr. B , 2003 ,792 (2) : 381 —385
[ 8 ] 王瑞(Wang R) , 梁生旺(Liang SW) , 卫军波(Wei J B) 等.中国实验方剂学杂志( Chinese J . Experimental Traditional Medical Formulae) , 2004 , 10 (1) : 61 —65
[ 9 ] Jin W R , Jiang L. Anal . Chim. Acta , 2002 , 461 : 117 —121
[10] Zhou T S , Yu H , Hu Q , et al . J . Pharma. Biomed. Anal . ,2002 , 30 : 13 —19
[11] Liu Y M, Sheu S J . J . Chromatogr. A , 1993 , 634 : 329 —333
[12] Chen G, Zhang H W, Ye J N. Anal . Chim. Acta , 2000 , 423 :69 —76
[13] Chen G, Ying X Y, Ye J N. Analyst , 2000 , 125 : 815 —818
[14] Chen G, Zhang J X, Ye J N. J . Chromatogr. A , 2001 , 923 :255 —262
[15] Peng Y Y, Liu F H , Ye J N. Chromatographia , 2004 , 60 (9/10) : 597 —602
[16] Peng Y Y, Chu Q C , Liu F H , et al . Food Chem. , 2004 , 87 :135 —139
[17] Chu Q C , Wu T, Fu L , et al . Microchim. Acta , 2004 , 148 (3/4) : 311 —315
[18] Chu Q C , Fu L , Wu T, et al . Biomed. Chromatogr. , 2005 , 19 :149 —154
[19] Cao Y H , Lou C G, Fang Y Z, et al . J . Chromatogr. A , 2001 ,943 : 153 —157
[20] Sun X H , Gao C L , Cao W D , et al . J . Chromatogr. A , 2002 ,962 : 117 —125
[21] Chen G, Zhang L Y, Zhao J Q , et al . Anal . Bioanal . Chem. ,2002 , 373 : 169 —173
[22] Chu Q C , Cao Y H , Peng Y Y, et al . Chromatographia , 2004 ,60 (1/2) : 125 —130
[23] Peng Y Y, Liu F H , Ye J N. Electroanalysis , 2005 , 17 (4) :356 —362
[24] Hu Q , Zhou T S , Hu G, et al . J . Pharm. Biomed. Anal . ,2002 , 30 : 1047 —1053
[25] Wang Q J , Yu H , Zong J , et al . J . Pharm. Biomed. Anal . ,2003 , 31 : 473 —480
[26] Wang Q J , Ding F , Zhu N N , et al . Biomed. Chromatogr. ,2003 , 17 : 483 —488
[27] You T Y, Yang X R , Wang E K. Anal . Chim. Acta , 1999 ,401 : 29 —34
[28] Chen G, Luo H F , Ye J N , et al . Talanta , 2001 , 54 : 1067 —1076
[29] Li H , Wang Q J . Anal . Bioanal . Chem. , 2004 , 378 : 1801 —1805
[30] Chen G, Zhang H W, Ye J N. Talanta , 2000 , 53 : 471 —479
[31] Cao Y H , Zhang X, Fang Y Z, et al . Mikrochim. Acta , 2001 ,137 : 57 —62
[32] Cao Y H , Zhang X, Fang Y Z, et al . Analyst , 2001 , 126 :1524 —1528
[33] Cao Y H , Lou C G, Zhang X, et al . Anal . Chim. Acta , 2002 ,452 : 123 —128
[34] Cao Y H , Chu Q C , Fang Y Z, et al . Anal . Bioanal . Chem. ,2002 , 374 : 294 —299
[35] Gao L Y, Chu Q C , Ye J N. Food Chem. , 2002 , 78 : 255 —260
[36] Cao Y H , Zhang X, Chu Q C , et al . Electroanalysis , 2003 , 15(10) : 898 —902
[37] Chu Q C , Qu W Q , Peng Y Y, et al . Chromatographia , 2003 , 58(1/2) : 67 —71
[38] Wang Q J , Ding F , Li H , et al . J . Pharm. Biomed. Anal . ,2003 , 30 : 1507 —1514
[39] Cao Y H , Wang Y, Ji C , et al . J . Chromatogr. A , 2004 , 1042 :203 —209
[40] Chu Q C , Peng Y Y, Ye J N. Electroanalysis , 2004 , 16 (17) :1434 —1438
[41] Wang A F , Zhou Y, Wu F , et al . J . Pharm. Biomed. Anal . ,2004 , 35 : 959 —964
[42] Cvaˇcka J , Quaiserová V , Park J W, et al . Anal . Chem. , 2003 ,75 : 2678 —2687
[43] Chicharro M, Zapardiel A , Bermejo E , et al . Electroanalysis ,2004 , 16 (4) : 311 —318
[44] Sun X M, Jin W R , Li D , et al . Electrophoresis , 2004 , 25 :1860 —1866
[45] Shin D C , Sarada B V , Tryk D A , et al . Anal . Chem. , 2003 ,75 : 530 —534
[46] Li Y Q , Cui S Y, Cheng Y Q , et al . Anal . Chem. Acta , 2004 ,508 : 17 —22
[47] Li Y Q , Qi S D , Chen X G, et al . Electrophoresis , 2004 , 25 :3003 —3009
[48] Ji S G, Chai Y F , Zhang G Q , et al . Electrophoresis , 1999 , 20 :1904 —1906
[49] Zhao S G, Pan Z W, Chen X G, et al . Biomed. Chromatogr. ,2004 , 18 : 381 —387
[50] Sahota R S , Khaledi M G. Anal . Chem. , 1994 , 66 : 1141 —1146
[51] Wright P B , Lister A S , Dorsey J G. Anal . Chem. , 1997 , 69 :3251 —3259
[52] Salimi-Moosavi H , Cassidy R M. Anal . Chem. , 1995 , 67 :1067 —1073
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