Abstract
Gentiana rigescens is a precious herbal medicine in China because of its liver-protective and choleretic effects. A method for the qualitative identification and quantitative evaluation of G. rigescens from Yunnan Province, China, has been developed employing Fourier transform infrared (FT-IR) spectroscopy and high performance liquid chromatography (HPLC) with the aid of chemometrics such as partial least squares discriminant analysis (PLS-DA) and support vector machines (SVM) regression. Our results indicated that PLS-DA model could efficiently discriminate G. rigescens from different geographical origins. It was found that the samples which could not be determined accurately were in the margin or outside of the 95% confidence ellipses. Moreover, the result implied that geographical origins variation of root samples were more obvious than that of stems and leaves. The quantitative analysis was based on gentiopicroside content which was the main active constituent in G. rigescens. For the prediction of gentiopicroside, the performances of model based on the parameters selected through grid search algorithm (GS) with seven-fold cross validation were better than those based on genetic algorithm (GA) and particle swarm optimization algorithm (PSO). For the SVM-GS model, the result was satisfactory. FT-IR spectroscopy coupled with PLS-DA and SVM-GS can be an alternative strategy for qualitative identification and quantitative evaluation of G. rigescens.
Highlights
Herbal products, a complementary and alternative therapy, are increasingly gaining popularity in daily life and health care all over the world [1]
G. rigescens, and the results showed that Fourier transform infrared (FT-IR) spectroscopy was suitable to provide qualitative and quantitative analyses of G. rigescens [21,22]
root-mean-square error of estimation (RMSEE), root-mean-square error of cross validation (RMSECV) and root-mean-square error of prediction (RMSEP) were applied to evaluate the precision of model performance (Equations (2)–(4))
Summary
A complementary and alternative therapy, are increasingly gaining popularity in daily life and health care all over the world [1]. In the Western world, herbal medicine is mainly applied in promoting health and treatment of chronic diseases. It plays a crucial role in multi-component therapeutics [2]. With the increasing usages of herbal medicine, the need for quality control has increased. The regulations and pharmacovigilance about herbal medicines are still incomplete and need to be enhanced and improved [1,3]. The issues of quality control such as lack of safety and efficacy in herbal medicine are worthy of attention, because of the lack of reliable, fast and simple technical methods for the quality analysis of herbal medicines [4,5]
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