光谱学与光谱分析 |
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Infrared Spectrum Analysis of Admixture Decoction of Herba Ephedrae with Semen Armeniacae Amarum |
LIN Wen-shuo1,2, CHEN Rong1*, GUO Shao-zhong2,LIN Ju-qiang1,FENG Shang-yuan1, LI Yong-zeng1, HUANG Zu-fang1,CAI Yu-hui1 |
1. Key Laboratory of Optoelectronic Science and Technology for Medicine, Ministry of Education, Fujian Normal University, Fuzhou 350007, China 2. Department of Mathematics and Physics,Fujian University of Technology, Fuzhou 350108, China |
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Abstract The infrared spectra of decoction of herba ephedra and semen armeniacae amarum and the mixed decoction of herba ephedra + semen armeniacae amarum were tested. The change in the the mixed decoction was discussed to study the relationship between herba ephedra and semen armeniacae amarum after decoction. The results showed that some absorption peaks of herba ephedra and semen armeniacae amarum were retained in the mixed decoction of herba ephedra + semen armeniacae amarum, such as 1 402 and 1 076 cm-1, but some absorption peaks that never appear in the two ingredient spectra increased such as 1 394 and 682 cm-1. New absorption peaks were generated in the mixed decoction of herba ephedra + semen armeniacae amarum,such as 688 and 1 187 cm-1. It can be showed that there were differences in the chemistry environment of the various chemical groups in the three decoctions introduced above, with the variation in absorption peak position, and the biochemical structure of the material changed, possibly with some new chemical compositions created. Medical ingredients in the mixed decoction of herba ephedra + semen armeniacae amarum were not simply the addition of herba ephedra and semen armeniacae amarum.based on studies of infrared spectrum of decoction, and the new notion of prescription spectroscopy was proposed.
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Received: 2007-09-08
Accepted: 2007-12-18
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Corresponding Authors:
CHEN Rong
E-mail: chenr@fjnu.edu.cn
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[1] WANG Yi-tao(王一涛). World Science and Technology(世界科学技术), 1999, 1(2): 16. [2] LOU Yi-ceng,WU Zhu,LIU Yan-wen, et al(楼一层, 吴 祝, 刘焱文, 等). Journal of Hubei College of Traditional Chinese Medicine (湖北中医学院学报), 2005, 7(4): 24. [3] CHEN Jian-nan, LAI Xiao-ping, ZHOU Hua(陈建南, 赖小平, 周 华). World Sciense and Technology(世界科学技术), 2001,3(3): 35. [4] ZHAO Jian-rong, LI Xiao-mei(赵建荣, 李晓玫). Chinese Traditional and Herbal Drugs(中草药), 2003, 34(11): 963. [5] The State Natural Science Fund Committee(国家自然科学基金委员会). Nation Significance Effort “Modern Studie of Several Key Scientific Task in Chinese Materia Medica” 2007 Year Fund Item Application Guide(《中医药学几个关键科学问题的现代研究》重大研究计划2007年度基金项目申请指南), 2007. [6] CAO Hong-xin(曹洪欣). The Foundation Theory in Traditional Chinese Medicine(中医理论基础). Beijing: Traditional Chinese Medicine Press(北京: 中国中医出版社),2004. 8. [7] Sielsler H W,Ozaki Y,Kawata S,et al. Near Infrared Spectroscopy:Principles, Instruments, Applications. West Sussex:NIR Publications,2002. [8] Ciurczak E W,Drennen J K. Pharmaceutical and Medical Applications of Near Infrared Spectroscopy. New York:Arce1 Dekker Inc,2002. [9] CHEN Hua-cai, CHEN Xing-dan(陈华才, 陈星旦). Journal of China Jiliang University(中国计量学院学报), 2003, 14(4):261. [10] CHU Xiao-li, YUAN Hong-fu, LU Wan-zhen(褚小立, 袁洪福, 陆婉珍). Analytical Instrumentation(分析仪器), 2006, (2): 1. [11] LI Yan, WU Ran-ran, YU Bai-hua,et al(李 燕, 吴然然, 于佰华, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(10): 1846. |
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