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High quality is the premise for the implementation of high quality and good price for decoction pieces, and grade is the most direct manifestation of high quality of decoction pieces. However, there is still a lack of scientific and reasonable methods for evaluating the grade of decoction pieces, and it is urgent to establish a widely recognized and unified standard for the grade of decoction pieces to ensure the quality of the decoction pieces and guarantee the safety and efficacy of clinical use. Based on this, this paper focused on analyzing the problems of the current grade evaluation methods, such as unclear distinction between quality standards and grade standards, unreasonable selection of grade evaluation indicators, and inaccurate application of mathematical statistical methods. Based on the analysis of the grade evaluation of decoction pieces, this paper proposed four criteria for establishing the grade evaluation method of decoction pieces, namely universality, comprehensiveness, reliability and convenience, in order to establish a more reasonable and unified grade standard for decoction pieces and promote the quality improvement of decoction pieces and the development of the industry.
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In order to standardize the quality control of traditional Chinese medicine(TCM) dispensing granules, the Chinese Pharmacopoeia Commission has promulgated and implemented 200 national drug standards for TCM dispensing granules, but there are still varieties of TCM dispensing granules without unified standards. Many provinces have actively invested in the formulation of provincial standards for TCM dispensing granules to make up for the gaps in standards for varieties of traditional Chinese medicine dispensing granules other than the national standards. By the end of July 2022, 29 provincial-level administrative regions have successively promulgated and implemented a total of 5 602 provincial standards for TCM dispensing granules, involving more than 400 varieties. In order to better understand the formulation and characteristics of provincial standards, this study took 105 provincial standards that have been promulgated and implemented in Henan province as an example, and comprehensively analyzed the formulation and characteristics through quality control indicators such as dry extract rate of raw materials, contents of index components and their transfer rates, specifications and so on. The formulation and characteristics of the same TCM dispensing granules in the provincial standards of different provinces were further analyzed, in order to provide reference for the formulation of provincial standards of TCM dispensing granules and the implementation of national standards.
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Objective::To establish an ultra-high-performance liquid chromatography (UHPLC) method for simultaneous determination of seven components(chlorogenic acid, 3, 5-dicaffeoylquinic acid, 1, 5-dicaffeoylquinic acid, kaempferol-3-O-rutinoside, quercetin, kaempferol and thymol) in blossoms of Inula nervosa, and provide references for its quality control. Method::The separation was performed on an Agilent Poroshell 120 C18 column (3.0 mm×100 mm, 2.7 μm) with 0.1% formic acid(A) and methyl (B)as mobile phase for gradient elution(0-4 min, 2%B; 4-6 min, 2%-5%B; 6-10 min, 5%-10%B; 10-20 min, 10%-20%B; 20-30 min, 20%-27%B; 30-37 min, 27%-25%B, 37-45 min, 25%-32%B; 45-68 min, 32%-58%B; 68-75 min, 58%-25%B; 75-82 min, 25%-2%B; 82-90 min, 2%B). The flow rate was 0.3 mL·min-1 and the detection wavelength was 254 nm. Result::There was a good linear relationship between the concentration and peak area of all the seven components in the investigated concentration range (r>0.999). The average recoveries ranged from 97.80% to 101.28% with RSD≤3.0%. Cluster analysis of SPSS software and principal component analysis of SIMCA software can be used to intuitively classify samples from four different origins. Conclusion::The established method is simple and fast with high precision, which can be used to compare the differences of blossoms of Inula nervosa from different origins and efficiently control its quality.
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Objective: A network model of ulcerative colitis-associated colon cancer (UCRCC) and NF-κB signaling pathway was established, in order to predict the key inflammatory targets of UCRCC and identify the effect of GQD and composition of index components on these targets. Methods: HPLC method was used, the mobile phase was acetonitrile-0.2% phosphoric acid aqueous solution, and the gradient elution was carried out. The 10 indicators were determined. The literature of databases such as Pubmed and ScienceDirect were searched, the terms of the upstream and downstream proteins of UCRCC disease and NF-κB pathway were examined. The Cytoscape software was used to predict the key inflammatory targets of UCRCC. The UCRCC model was established by AOM/DSS method, and the effect of GQD and composition of index components on key inflammatory targets were identified by immunohistochemistry and ELISA. Results: The contents of puerarin, daidzin, glycyrrhizin, jatrorrhizine, baicalin, palmatine, berberine, baicalein, glycyrrhizic acid and wogonin in GQD were 1.677, 0.154, 0.159, 0.045, 0.448, 0.035, 0.095, 0.013, 0.111 and 0.006 μg/g, respectively. The top eight inflammatory factors of the key protein in the interaction network were NF-κBp65, iNOS, COX-2, Bcl-2, TNF-α, IL-1β, ICAM-1 and VCAM-1. Compared with the model group, the high-, medium- and low-dose groups of GQD, the composition of index components group and the 5-ASA group were able to down-regulate the relative expression levels of NF-κBp65, iNOS, Bcl-2, COX-2 in colonic tissues of UCRCC mice (P < 0.01), and down-regulate the expression levels of TNF-α, IL-1β, ICAM-1, VCAM-1 in serum of UCRCC mice (P < 0.05, 0.01). Conclusion: GQD and composition of index components can improve the pathological condition of colon tissue in UCRCC mice, down-regulate the expression of inflammatory factors in colon tissue of UCRCC mice, and have a certain intervention effect on UCRCC, which laid the foundation for determining the quality marker (Q-marker) of GQD.
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Objective:Through the analysis of the characteristics and main chemical components of Ginseng Radix et Rhizoma,the correlation between the characteristics and components of Ginseng Radix et Rhizoma was explored,and a new evaluation standard of Ginseng Radix et Rhizoma grade was established to provide a more comprehensive and scientific basis for the quality evaluation of Ginseng Radix et Rhizoma. Method:The appearance characteristics of 48 batches of Ginseng Radix et Rhizoma samples were quantitatively measured. The contents of 9 kinds of Ginseng Radix et Rhizoma were determined. The results of correlation analysis,principal component analysis and cluster analysis were used to classify ginseng medicinal materials according to the analysis results,and the grade evaluation criteria were constructed. Result:First-class ginseng medicinal materials:diameter of main root>1.72 cm,length of reed head>2.61 cm,weight of single branch>14.15 g,content of ginsenoside Rb1>0.612 1%,content of ginsenoside Re>0.385 8%,content of ginsenoside Rg1>0.320 8%,no scar,impurities,moth,mildew. Second-class ginseng medicinal materials:the diameter of main root is 1.55-1.72 cm,the length of reed head is 1.74-2.61 cm,the weight of single branch is 10.24-14.15 g,the content of ginsenoside Rb1 is 0.496 8%-0.612 1%,the content of ginsenoside Re is 0.323 3%-0.385 8%,the content of ginsenoside Rg1 is 0.263 6%-0.320 8%,and there are no scars,impurities,worms and mildew. Third-class ginseng medicinal materials:main root diameter 1.29-1.55 cm,reed head length 1.34-1.74 cm,single branch weight 6.90-10.24 g,ginsenoside Rb1 content 0.389 5%-0.496 8%,ginsenoside Re content 0.235 2%-0.323 3%,ginsenoside Rg1 content 0.217 1%-0.263 6%,no impurities,worms,mildew. Fourth-class ginseng medicinal materials:diameter of main root11Conclusion:The appearance indexes of ginseng medicinal materials were divided according to the standards of taproot diameter,reed head length and single ginseng weight,and the content of ginsenoside Rg1,Re,Rb1 was used as the internal quality evaluation index. Ginseng commercial specifications were divided into four grades,which integrated the appearance and internal indicators,and had more scientific and comprehensive characteristics,which could be used as the basis for the classification of Ginseng Radix et Rhizoma medicinal materials.
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Objective:To explore the correlation between the characters and chemical constituents of Glycyrrhizae Radix et Rhizoma through the analysis of characters and main chemical constituents of Glycyrrhizae Radix et Rhizoma,and establish the grade evaluation criteria of Glycyrrhizae Radix et Rhizoma, so as to provide reference for the quality evaluation and quality control of Glycyrrhizae Radix et Rhizoma. Method:Correlation analysis,principal component analysis and cluster analysis were carried out for appearance and intrinsic indexes of Glycyrrhizae Radix et Rhizoma. Result:Class Ⅰ of Glycyrrhizae Radix et Rhizoma:the diameter of big end was more than 1.60 cm,middle circumference was more than 3.76 cm,inner core chromaticity b* was more than13.88,outer skin chromaticity a* was more than 37.61,glycyrrhizin content was more than 1.13%,with no worm,rot and impurity. Class Ⅱ of Glycyrrhizae Radix et Rhizoma:the diameter of big end was 1.39-1.60 cm,the middle circumference was 3.09-3.76 cm,the inner core chromaticity b* was 10.22-13.88,the skin chromaticity a* was 35.57-37.61,glycyrrhizin content was 0.69%-1.13%,with no worm,rot and impurity. Class Ⅲ of Glycyrrhizae Radix et Rhizoma:the diameter of the big end was 1.08-1.39 cm,the middle circumference was 2.41-3.09 cm,the inner core chromaticity b* was 5.16-10.22,the skin chromaticity a* was 29.19-35.57,glycyrrhizin content was 0.55%-0.69%,with no worm and rot. Substandard Glycyrrhizae Radix et Rhizoma:the diameter of the big end was lower than 1.08 cm,the central circumference was lower than 2.41 cm,the inner core color b* was lower than 5.16,the outer skin color a* was lower than 29.19, and glycyrrhizin content was lower than 0.55%. Conclusion:The grade evaluation standards established in this paper include appearance and intrinsic indexes, with scientific,comprehensive and practical characteristics. It can be used for the grade evaluation of Glycyrrhizae Radix et Rhizoma medicinal materials.
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Objective: In this study, the wild and cultivated licorice of Gansu representative regions (Hexi, Longzhong and Longdong) were measured and analyzed by multi-index components combined with chemometrics methods, which will provide scientific basis for the evaluation of the quality of licorice and the suitable producing areas in Gansu Province. Methods: Seven main bioactive components (glycyrrhizin, liquiritin, isoliquiritin, liquiritin apioside, isoliquiritin apioside, liquiritigenin and isoliquiritigenin) in 25 batches of licorice samples were simultaneously determined by HPLC-DAD to comprehensively evaluate the quality of licorice combined with factor analysis and cluster analysis. Results: Factor analysis showed that there was a strong correlation between the first common factor and glycyrrhizin, liquiritin and isoliquiritin; and between the second common factor and liquiritigenin, isoliquiritigenin. The variance contribution rate of two common factors was 84.28%, which reflected licorice quality overall. And cluster analysis showed that the quality of 3-year-old licorice (Glycyrrhizae Radix) cultivated in Hangjinqi of Inner Mongolia was the best, followed by that cultivated in Hexi and Longxi of Gansu Province. The quality of licorice in Longzhong of Gansu Province was worse. Conclusion: These results showed that it was more suitable to develop licorice planting in Longxi and Hexi area in Gansu Province. The overall evaluation of multi-index components and chemometrics has reference value for quality control of licorice and optimization its suitable planting areas.
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This study is to construct a rapid and effective method for identification of wild and cultivated Glycyrrhiza uralensis (hereinafter referred to as Glycyrrhizae Radix et Rhizoma) from Ningxia by comparison of the difference in chromatography identification based on index components and near-infrared spectroscopy identification. HPLC and UV methods were used to determine the content of liquiritin, glycyrrhizate and total flavonoids for 9 wild Glycyrrhizae Radix et Rhizoma and 14 cultivated Glycyrrhizae Radix et Rhizoma samples,and the near-infrared spectroscopy was also,collected. The results illustrated that the chromatography identification based on index components could not identify wild and cultivated Glycyrrhizae Radix et Rhizoma from Ningxia, while near-infrared spectroscopy could quickly and effectively achieve it. It provides an effective method for the growth pattern identification and application of Glycyrrhizae Radix et Rhizoma.
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Objective: To establish an HPLC fingerprint method of Verbenae officinalis L. and determine the contents of its main components. Methods: Many batches of Verbenae officinalis fingerprint and the contents of main components were determined by HPLC, and the similarity and cluster analysis of the fingerprints of each batch were compared and the contents of the main components were compared. Results: The results showed that the difference of the main content of medicinal materials and fingerprints were between each batch of Verbenae officinalis. Conclusion: The fingerprint and its main components determination method have been established to provide the scientific basis for the quality evaluation of Verbenae officinalis.