A new simple and reliable high-performance liquid chromatography-diode array detection method for the simultaneous quantitative and fingerprint analyses of Salvia przewalskii

doi:10.5246/jcps.2019.05.034

Abstract

Abstract:

In the present study, we developed a novel high-performance liquid chromatography-diode array detection (HPLC-DAD) method for the simultaneous determination and fingerprinting of 15 components in Salvia przewalskii. The method had good linearity, precision, stability and recovery. Chromatographic fingerprints were determined by HPLC-DAD using rosmarinic acid peaks as references, and 17 common peaks were selected. The similarity indexes calculated based on similarity system theory of the 10 samples were higher than 0.948, indicating good correlation among the common peaks. The chromatograms distinguished S. przewalskii from Salvia miltiorrhiza and identified the origins of S. przewalskii. These results suggested that the proposed method was suitable for S. przewalskii quality control.

Key words: Salvia przewalskii, Phenolic acid, Tanshinone, Quantitative analysis, Fingerprints

CLC Number:

R917

Supporting:

Yuanyuan Jiang, Tao Wang, Hui Zhang, Huan Chen, Long Wang, Li Zhang, Yonghong Zhou. A new simple and reliable high-performance liquid chromatography-diode array detection method for the simultaneous quantitative and fingerprint analyses of Salvia przewalskii[J]. Journal of Chinese Pharmaceutical Sciences, 2019, 28(5): 348-359.

References

[1] Jing, J.; Parekh, H.S.; Wei, M.; Ren, W.C.; Chen, S.B. Advances in analytical technologies to evaluate the quality of traditional Chinese medicines. Trac. Trends. Anal. Chem. 2013, 44, 39-45.

[2] Walker, J.B.; Sytsma, K.J.; Treutlein, J.; Wink, M. Salvia (Lamiaceae) is not monophyletic: implications for the systematics, radiation, and ecological specializations of Salvia and tribe Mentheae. Am. J. Bot. 2004, 91, 1115-1125.

[3] Flora of China Editorial Committee. Flora of China. Vol 66. Beijing: Science Press. 1977, 86-89.

[4] Wang, T.; Zhang, H.; Wang, L.; Jiang, Y.; Zhang, L.; Zhou, Y.; Yang, R.; Ding, C.; Wang, X. A simple and reliable method for distinguishing danshen in salvia: simultaneous quantification of six active compositions by HPLC. J. Chromatogr. Sci. 2014, 52, 992-998.

[5] Wang, T.; Wang, L.; Yang, Z.J.; Zhang, L. Investigation and introduction of ornamental resources of Salvia in West Sichuan province. Acta Hortic. Sin. 2012, 12, 2507-2514.

[6] Gao, Y.G.; Song, Y.M.; Yang, Y.Y.; Tang, J.X.; Liu, W.F. Pharmacology of tanshinone. Acta Pharm. Sin. 1979, 2, 75-82.

[7] Lin, R.; Wang, W.R.; Liu, J.T.; Yang, G.D.; Han, C.J. Protective effect of tanshinone IIA on human umbilical vein endothelial cell injured by hydrogen peroxide and its mechanism. J. Ethnopharmacol. 2006, 108, 217-222.

[8] Xiang, C.; Li, F.; Zhang, L.D.; Li, B.C.; He, J. Determination of Radical Scavengers from Salvia Plants by HPLC. Anal. Lett. 2014, 1, 1-13.

[9] Ohsaki, A.; Kawamata, S.; Ozawa, M.; Kishida, A.; Gong, X.; Kuroda, C. Salviskinone A, a diterpene with a new skeleton from Salvia przewalskii. Tetrahedron Lett. 2011, 52, 1375-1377.

[10] Jiang, H.L.; Wang, X.Z.; Xiao, J.; Luo, X.H.; Yao, X.J.; Zhao, Y.Y.; Chen, Y.J.; Crews, P.; Wu, Q.X. New abietane diterpenoids from the roots of Salvia przewalskii. Tetrahedron. 2013, 69, 6687-6692.

[11] Yang, L.X.; Li, X.C.; Liu, C.; Xiao, L.; Qin, D.H.; Chen, R.Y. Chemical constituents from Salvia przewalskii maxim. Acta Pharm. Sin. 2011, 7, 818-821.

[12] Bao, L.Y.; Yang, X.M.; Liu, Y.J. Study of the Study of the localization technology of the wild Tibetan indigenous medicinal herbs. For. Prod. Speciality China. 2008, 1, 22-25.

[13] Yan, S.K.; Zhang, W.D.; Liu, R.H.; Zhan, Y.C. Chemical fingerprinting of Shexiang Baoxin Pill and simultaneous determination of its major constituents by HPLC with evaporative light scattering detection and electrospray mass spectrometric detection. Chem. Pharm. Bull. 2006, 54, 1058-1062.

[14] Li, Y.; Wu, T.; Zhu, J.H.; Wan, L.L.; Yu, Q.; Li, X.X.; Cheng, Z.H.; Guo, C. Combinative method using HPLC fingerprint and quantitative analyses for quality consistency evaluation of an herbal medicinal preparation produced by different manufacturers. J. Pharm. Biomed. Anal. 2010, 52, 597-602.

[15] Wan, M.Q.; Zhang, Y.B.; Yang, Y.F.; Liu, X.Y.; Jia, L.Y.; Yang, X.W. Analysis of the chemical composition of Angelicae Pubescentis Radix by ultra-performance liquid chromatography and quadrupole time-of-flight tandem mass spectrometry. J. Chin. Pharm. Sci. 2019, 3, 145-159.

[16] Wu, W.Y.; Guo, D.A. Strategies for elaboration of comprehensive quality standard system on traditional Chinese medicine. China J. Chin. Mater. Med. 2014, 39, 351-356.

[17] Liang, Y.Z.; Yi, L.Z.; Xu, Q.S. Chemometrics and modernization of traditional Chinese medicine. Sci. China Ser. B Chem. 2008, 51, 718-728.

[18] Gong, F.; Liang, Y.Z.; Xie, P.S.; Chau, F.T. Information theory applied to chromatographic fingerprint of herbal medicine for quality control. J. Chromatogr. A. 2003, 1002, 25-40.

[19] Yudthavorasit, S.; Wongravee, K.; Leepipatpiboon, N. Characteristic fingerprint based on gingerol derivative analysis for discrimination of ginger (Zingiber officinale) according to geographical origin using HPLC-DAD combined with chemometrics. Food Chem. 2014, 158, 101-111.

[20] Zhai, H.L.; Li, B.Q.; Tian, Y.L.; Li, P.Z.; Zhang, X.Y. An application of wavelet moments to the similarity analysis of three-dimensional fingerprint spectra obtained by high-performance liquid chromatography coupled with diode array detector. Food Chem. 2014, 145, 625-631.

[21] Zhang, R.T.; Chen, J.H.; Shi, Q.; Li, Z.Y.; Peng, Z.Y.; Zheng, L.; Wang, X.R. Quality control method for commercially available wild Jujube leaf tea based on HPLC characteristic fingerprint analysis of flavonoid compounds. J. Sep. Sci. 2014, 37, 45-52.

[22] Zhou, L.; Chen, Y.L.; Du, J.; Bai, Z.L.; Peng, X.J.; Liang, H.; Tian, Z. Study on HPLC Fingerprint of Fructus Aurantii Processed. Mod. China. Medic. 2009, 12, 21-23, 35.

[23] Zhou, F.T.; Xu, S.Q.; Wang, Z.J.; Gong, F.; Chen, Z.B.; Huang, L.Q.; Liang, Y.Z. Chemometrics method is applied to fingerprints of chemical characteristics of traditional Chinese medicine. Chin. Drug Res. Clin. Pharm. 2001, 3, 164-169.

[24] Hayashi, Y.; Matsuda, R.; Nakamura, A. Quantity and Wavelength Optimization Based on Information Theory of Chromatography. J. Chromatogr. Sci. 1990, 12, 628-632.

[25] Matsuda, R.; Hayashi, Y.; Ishibashi, M.; Takeda, Y. An information theory of chromatography: I. Evaluation of analytical systems by means of FUMI. J. Chromatogr. A. 1989, 462, 13-21.

[26] Matsuda, R.; Hayashi, Y.; Ishibash, M.; Takeda, Y. An information theory of chromatography: II. Application of FUMI to the optimization of overlapped chromatograms. J. Chromatogr. A. 1989, 462, 23-30.

[27] Gong, F.; Liang, Y.Z.; Xie, P.S.; Chau, F.T. Information theory applied to chromatographic fingerprint of herbal medicine for quality control. J. Chromatogr. A. 2003, 1002, 25-40.

[28] Yang, L.W.; Wu, D.H.; Tang, X.; Peng, W.; Wang, X.R.; Ma, Y.; Su, W.W. Fingerprint quality control of Tianjihuang by high- performance liquid chromatography-photodiode array detection. J. Chromatogr. A. 2005, 1070, 35-42.

[29] Wang, T.; Zhang, H.; Liu, Q.; Zhang, L.; Jiang, Y.Y.; Wang, M.; Zhou, Y.H.; Yang, R.W.; Ding, C.B.; Wang, X.L. Simultaneous Determination of Three Major Active Components in Salvia miltiorrhiza and its Relative Species by HPLC. Asian J. Chem. 2013, 25, 7088-7092.

[30] Liu, A.H.; Li, L.; Xu, M.; Lin, Y.H.; Guo, H.Z.; Guo, D.A. Simultaneous quantification of six major phenolic acids in the roots of Salvia miltiorrhiza and four related traditional Chinese medicinal preparations by HPLC-DAD method. J. Pharm. Biomed. Anal. 2006, 41, 48-56.