Theory Analysis on Absorption of Exogenous Substances in Traditional Chinese Medicine

Xi-li Zhang; Yun-li Zhang; Hui-hui Liang; Wen Wen; Yan Mao; Ge YU; Guo-zuo Wang; Zhi-jun Liu; Fu-yuan HE; Wen-long Liu; Rui-lian Liu

Return

Theory Analysis on Absorption of Exogenous Substances in Traditional Chinese Medicine

VernacularTitle:中药材外源性物质吸收相关理论分析
Author: Xi-li ZHANG ¹ ; Yun-li ZHANG ² ; Hui-hui LIANG ¹ ; Wen WEN ¹ ; Yan MAO ¹ ; Ge YU ¹ ; Guo-zuo WANG ¹ ; Zhi-jun LIU ¹ ; Fu-yuan HE ¹ ; Wen-long LIU ¹ ; Rui-lian LIU ³
Author Information

1. Hunan University of Traditional Chinese Medicine(TCM), Changsha 410208, China
2. Changde Anxiang Schistosomiasis Control Station, Changde 415600, China
3. Hunan Academy of Chinese Medicine, Changsha 410006, China
Publication Type:Research Article
Keywords: heavy metal; agricultural residue; supramolecular theory; transport; Scrophulariae Radix; Lilii Bulbus
From: Chinese Journal of Experimental Traditional Medical Formulae 2020;26(10):192-196
CountryChina
Language:Chinese
Abstract: The safety of traditional Chinese medicine is affected by many factors, and the influence of exogenous harmful substances has been concerned and become a hot spot in recent years, especially heavy metals, pesticide residues and some other harmful substances. In order to explore the effects of non-soil and non-pesticide treatment on residues of these two harmful substances, the heavy metals and agricultural residues of Lilii Bulbus were detected, and the correlation of the data was analyzed. In this experiment, heavy metals and pesticide residues of Scrophulariae Radix were detected, and correlation analysis was conducted for their data. The mechanism of transport phase was interpreted with statistical moment similarity tool of total fingerprint by supramolecular chemistry theory. A large number of experimental data in this paper showed that heavy metals and pesticide contents in Lilii Bulbus basaltifolia had a positive correlation, which was closely related to supramolecular phenomena. Moreover, the similarity of fingerprints between Lilii Bulbus and Scrophulariae Radix suggested that Lilii Bulbus and Scrophulariae Radixa had a high selectivity in absorption of agricultural residues, which proved that the absorption of pesticides in Lilii Bulbus and Scrophulariae Radix from different habitats had the function of supramolecular imprinting template. It was considered that medicinal plant was a giant complex supramolecule with various levels of " imprinted template" . Heavy metals and agricultural residues were also involved in plant growth, forming an " imprinted template" for the formation of supramolecules between agricultural residues and heavy metals. After heavy metals and agricultural residues formed supramolecules, their liposolubility and permeability changed in varying degrees, and their transport in medicinal plants was promoted. Finally, the heavy metal supramolecules of pesticides were absorbed, distributed, aggregated and accumulated in plants. The purpose of the study was to reveal the mechanism of heavy metal and pesticide supramolecule transport, provide a new direction for the treatment of heavy metals and pesticide residues, and ensure the safety of traditional Chinese medicine.