The Research on Active Constituent Distribution of Rhizoma Coptidis Pieces
ZHAO Jing1, PANG Qi-chang2*, MA Ji3*, HU Cui-ying2, WANG Nian-ping1, WANG Lin2, CUI Dai-jun2
1. College of Science, South China Agricultural University, Guangzhou 510640, China 2. Key Laboratory of Optoelectronic Information and Sensing Technologies, Jinan University, Guangzhou 510630, China 3. College of Traditional Chinese Medicine, Southern Medical University, Guangzhou 510515, China
Abstract:In order to test the distribution of active constituent of traditional Chinese medicine and to evaluate the quality of medicinal part effectively, spectral imaging analysis technology was used, and rhizoma coptidis pieces were tested as an example. First, the fluorescence spectral cube was taken, and the spectral curve of 3 different medicinal parts of the piece was obtained; second, spectral images were reconstructed by principal components analysis method, and the differences of 3 medicinal parts on the first few principal components were focused; third, the first component image was divided by the threshold method, then the distribution and relative content of 3 medicinal parts were obtained. The results show that spectral imaging analysis technology can provide the distribution of the active constituent, which can be used as the criterion of selecting medicinal parts. The testing course is nondestructive and rapid.
赵 静1,庞其昌2*,马 骥3*,胡翠英2,王念萍1,王 琳2,崔代军2 . 中药黄连饮片活性成分分布的检测研究[J]. 光谱学与光谱分析, 2011, 31(06): 1692-1696.
ZHAO Jing1, PANG Qi-chang2*, MA Ji3*, HU Cui-ying2, WANG Nian-ping1, WANG Lin2, CUI Dai-jun2 . The Research on Active Constituent Distribution of Rhizoma Coptidis Pieces . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(06): 1692-1696.
[1] DENG Shao-wei, HE Qiang(邓少伟, 贺 强). Chinese Pharmaceutical Affairs(中国药事), 2006, 20(9): 566. [2] LI Wei, XIAO Xiang-lin, GONG Ao-di(李 薇, 肖翔林, 龚奥娣). Journal of Chinese Medicinal Materials(中药材), 2003, 26(3): 222. [3] Gowena A A, O’Donnella C P, Cullen P J. Trends in Food Science & Technology, 2007, 18(12): 590. [4] Masoud Taghizadeh, Aoife Gowen, O’Donn C P. Sensing and Instrumentation for Food Quality and Safety, 2009, 3(4): 219. [5] Masry G E, Wang N, Sayed A E, et al. Food Science and Technology, 2008, 41(2): 337. [6] Wu Di, Yang Haiqing, Chen Xiaojing. Journal of Food Engineering, 2008, 88(3): 474. [7] Heia K, Sivertsen A, Stormo S, et al. Journal of Food Science, 2007, 72(1): E011. [8] Wu Di, Yang Haiqing, Chen Xiaojing. Journal of Food Engineering, 2008, 88(4): 474. [9] Sun S W, Tseng H M. Journal of Pharmaceutical and Biomedical Analysis, 2005, 37(1): 39. [10] Chen J, Zhao H, Wang X, et al. Electrophoresis, 2008, 29(10): 2135. [11] XIE Zong-wan (谢宗万). Discussion of Varieties of Traditional Chinese Medicine(中药材品种论述). Shanghai: Shanghai Science and Technology Press(上海: 上海科学技术出版社), 1999. [12] Yu Sen, Yu Yunli, Liu Li, et al. Planta Medica, 2010, 76(9): 876. [13] ZHAO Jing, PANG Qi-chang, MA Ji, et al(赵 静, 庞其昌, 马 骥,等). Acta Photonica Sinica(光子学报), 2008, 37(4): 758. [14] ZHAO Jing, PANG Qi-chang, MA Ji, et al(赵 静, 庞其昌, 马 骥, 等). Acta Optica Sinica(光学学报), 2008, 28(12): 2288.
