摘要
The traditional Chinese medicine of Radix Hedysari plays an important role in invigorating gas for ascending, benefiting blood for promoting production of fluid, and promoting circulation for removing obstruction in collaterals, which is consistent with the principle of treatment for osteoporosis. This study is designed to investigate the bioactive components on increasing peak bone mass (PBM) by exploring the spectrum-effect relationship between chromatography fingerprints and effect. Multiple indicators are selected to evaluate the pharmacological activity. In fingerprints, 21 common peaks are obtained, five of which are identified. Furthermore, gray relational analysis (GRA) is a quantitative method of gray system theory and is used to describe the correlation degree of common peaks and pharmacological activities with relational value. 21 components are then divided into three different regions, of which ononin and calycosin play an extremely significant role in increasing PBM. In addition, factor analysis and hierarchical cluster analysis (HCA) are used to screen the optimal producing area for Radix Hedysari. This provides a comprehensive and efficient method to improve the quality evaluation of Radix Hedysari, confirming the bioactive components for PBM-enhancement and further develop its medicinal value.
The traditional Chinese medicine of Radix Hedysari plays an important role in invigorating gas for ascending,benefiting blood for promoting production of fluid,and promoting circulation for removing obstruction in collaterals,which is consistent with the principle of treatment for osteoporosis.This study is designed to investigate the bioactive components on increasing peak bone mass(PBM)by exploring the spectrum-effect relationship between chromatography fingerprints and effect.Multiple indicators are selected to evaluate the pharmacological activity.In fingerprints,21 common peaks are obtained,five of which are identified.Furthermore,gray relational analysis(GRA)is a quantitative method of gray system theory and is used to describe the correlation degree of common peaks and pharmacological activities with relational value.21 components are then divided into three different regions,of which ononin and calycosin play an extremely significant role in increasing PBM.In addition,factor analysis and hierarchical cluster analysis(HCA)are used to screen the optimal producing area for Radix Hedysari.This provides a comprehensive and efficient method to improve the quality evaluation of Radix Hedysari,confirming the bioactive components for PBM-enhancement and further develop its medicinal value.
基金
supported by the National Natural Science Funds of China(Grant No.81703664)
Science and Technology Funds of Lanzhou,China(Grant No.201603111)
