建立了二维液相色谱-质谱联用方法分离中药复方葛根芩连汤的成分.以CN柱作第一维色谱柱,水和甲醇梯度洗脱分离;以ODS柱作第二维色谱柱,20 mmol/L乙酸铵缓冲液和乙腈梯度洗脱分离;质谱检测采用电喷雾电离/大气压化学电离(ESI/APCI)复合离子源,正负离子扫描.实验结果表明搭建的二维液相色谱的峰容量显著高于一维色谱,分离效率得到了明显的提高.以第一维色谱的第3个流分为例,对其二维分离进行仔细分析,发现质谱比紫外光谱检测到的组分多,质谱中采用负离子模式比正离子模式检测到的组分多.表明搭建的二维液相色谱-质谱分离平台分离效果好,提高了液相色谱的峰容量和分离效率.该方法操作简便,可作为中药等复杂体系分离分析的有效手段.
参考文献
| [1] | Gray M J,Dennis G R,Slonecker P J,et al.J Chromatogr A,2004,1 041:101 |
| [2] | Giddings J C.Anal Chem,1984,56(10):1 258 |
| [3] | Hang G Z.Pharmacokinetics of Chinese traditional and herbal drugs.Beijing:Chinese Medicine Technology Press(韩国柱.中草药药代动力学.北京:中国医药科技出版社),1999:239 |
| [4] | Peng Y,Zheng Y,Jiang P,et al.Academic Journal of Second Military Medical University(彭艳,郑颖,蒋平,等.第二军医大学学报),2004,25(8):862 |
| [5] | Li Y M,Chen T X,Yang L P,et al.Journal of First Military Medical University(黎永明,陈腾祥,杨丽萍,等.第一军医大学学报),2005,25(9):1 152 |
| [6] | Zhang Y J,Cai Y,Wang J L,et al.Chinese Journal of Chromatography(张养军,蔡耘,王京兰,等.色谱),2003,21(1):20 |
| [7] | Stanley S M R,Foo H C.J Chromatogr B,2006,836:1 |
| [8] | Trathnigg B,Rappel C.J Chromatogr A,2002,952:149 |
| [9] | Lu H L,Zhao M Y,Liu H M,et al.Chinese Journal of Chromatography(鹿洪亮,赵明月,刘惠民,等.色谱).2007,25(1):30 |
| [10] | Chen X G,Kong L,Sheng L H,et al.Chinese Journal of Chromatography(陈学国,孔亮,盛亮洪,等.色谱),2005,23(1):46 |
| [11] | Hu L H,Chen X G,Kong L,et al.J Chromatogr A,2005,1 092:191 |
| [12] | Ma S,Chen L X,Luo G A,et al.J Chromatogr A,2006,1 127:207 |
| [13] | Ji Y B.Chemistry and pharmacology of traditional chinese compound medicine.Beijing:People's Medical Publishing House(季宇彬.中药复方化学与药理.北京:人民卫生出版社),2003:83 |
| [14] | Pan K Q,Han C,Liu H C,et al.Chinese New Drugs Journal(潘况锵,韩超,刘惠纯,等.中国新药杂志),2000,9(3):167 |
| [15] | Wang Z C,Zhang Q H,Zhang W B,et al.Chinese Journal of Analytical Chemistry(王智聪,张庆合,张维冰,等.分析化学),2005,33(4):437 |
| [16] | Chen X G,Kong L,Su X Y,et al.J Chromatogr A,2004,1 040:169 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%