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ObjectiveTo establish the quality standard for Fraxini Cortex(Fraxinus chinensis) dispensing granules based on standard decoction, and to provide a basis for the quality control of this dispensing granules. MethodHigh performance liquid chromatography(HPLC) specific chromatograms of 15 batches of Fraxini Cortex(F. chinensis) standard decoctions and 3 batches of Fraxini Cortex(F. chinensis) dispensing granules were established with the mobile phase of 0.1% phosphoric acid aqueous solution(A)-acetonitrile(B) for gradient elution(0-10 min, 12%-15%B; 10-30 min, 15%-32%B) and the detection wavelength of 220 nm. And similarity evaluation, cluster analysis and principal component analysis(PCA) were also carried out. HPLC quantitative analysis of multi-components by single marker(QAMS) was established to determine the contents of the main components in the standard decoctions and dispensing granules. The contents of the corresponding components in Fraxini Cortex(F. chinensis) decoction pieces were also detected, and the transfer rates from decoction pieces to standard decoctions and dispensing granules were calculated. ResultThe similarities between specific chromatograms of 15 batches of Fraxini Cortex(F. chinensis) standard decoctions and 3 batches of Fraxini Cortex(F. chinensis) dispensing granules were all>0.9, and 7 common peaks were identified. The results of cluster analysis and PCA showed that there was some differences in the composition of different batches of standard decoctions, but did not show aggregation of origin. As the standard decoctions, the extract rate was 6.18%-11.62%, the contents of esculin, syringin, fraxin, esculetin, fraxetin, calceolarioside B were 44.92-103.51, 1.36-11.87, 33.26-90.73, 4.63-29.75, 2.40-16.86, 2.49-17.35 mg·g-1, and the transfer rates from decoction pieces to standard decoction were 25.21%-42.54%, 52.57%-88.84%, 43.43%-79.45%, 49.15%-88.27%, 49.22%-72.69%, 27.66%-47.67%, respectively. The extract rates of Fraxini Cortex(F. chinensis) dispensing granules were 10.4%-10.7%, the transfer rates of the above six components from decoction pieces to dispensing granules were 42.76%-43.17%, 80.01%-80.90%, 59.59%-59.88%, 51.35%-52.67%, 60.50%-60.93%, 37.98%-38.37%, respectively, which were generally consistent with the transfer rates from decoction pieces to standard decoctions. ConclusionThe established quality control standard of Fraxini Cortex(F. chinensis) dispensing granules based on standard decoctions is reasonable and reliable, which can provide reference for the quality control and process research of this dispensing granules.
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ObjectiveTo study the differences in volatile oil content of bran-processed Atractylodes lancea and its standard decoction concentrate and freeze-dried powder, as well as the differences in the types and contents of chemical components in volatile oil, and to clarify the quality value transmitting. MethodTen batches of A. lancea rhizoma were collected and prepared into raw products and bran-processed products of A. lancea, standard decoction concentrate and freeze-dried powder of bran-processed A. lancea in order to extract the volatile oil, and the transfer rate of volatile oil in each sample was calculated. Quantitative analysis of the main chemical components(β-eudesmol, atractylon, atractylodin) in each volatile oil was performed by gas chromatography(GC) on the HP-5 quartz capillary column(0.32 mm×30 m, 0.25 μm) with a flame ionization detector(FID), a split ratio of 10∶1 and a temperature program(initial temperature at 80 ℃, hold for 1 min, rise to 150 ℃ at 10 ℃·min-1, hold for 10 min, rise to 155 ℃ at 0.5 ℃·min-1, hold for 5 min, rise to 240 ℃ at 8.5 ℃·min-1, hold for 8 min). Cluster analysis and principal component analysis(PCA) were used to explore the overall differences in types and contents of chemical components between the standard decoction concentrate and freeze-dried powder. ResultThe transfer rates of volatile oil in the bran-processed products, standard decoction concentrate and freeze-dried powder were 70.51%, 1.57% and 40.90%, respectively. The average transfer rates of β-eudesmol, atractylon and atractylodin in the volatile oil of bran-processed A. lancea were 58.45%, 48.49% and 55.64%, respectively. In the standard decoction concentrate, only β-eudesmol and atractylodin were detected, and their average transfer rates were 0.22% and 0.10%, respectively. And only β-eudesmol was detected in the freeze-dried powder with the average transfer rate of 8.37%. The results of cluster analysis and PCA showed that there are obvious differences in the types and contents of chemical components between the standard decoction concentrate and freeze-dried powder. ConclusionThe quality value transmitting between bran-processed A. lancea and its standard decoction concentrate and freeze-dried powder is stable, and if the freeze-dried powder is selected as the reference material of dispensing granules, appropriate amount of volatile oil should be added back to make it consistent with the quality of the standard decoction concentrate.
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Objective:To establish the quality evaluation method of Perillae caulis formula granules based on the three kind of quality indexes of standard decoction. Methods:Eighteen batches of Perillae caulis were collected from different habitats according to different technical requirements, eighteen batches of standard decoction and three batches of formula granules were prepared and the paste-forming rates were calculated. The content of Caffeic acid and Rosmarinic acid were determined and calculated by Ultra High Performance Liquid Chromatography (UPLC). Then the fingerprints of standard decoction of and formula granules of Perillae caulis were established by UPLC . The similarity values of fingerprints between formula granules and standard decoction were calculated. Results:The average paste-forming rate of standard decoction was (7.16±1.97)%. The paste-forming rates of three batches of formula granules were 5.52%, 5.25% and 5.34%, respectively. The average content of Caffeic acid and Rosmarinic acid in standard decoction was (12.06±3.37)mg/g. The contents of three batches of formula granules were 5.52, 5.82, 5.77 mg/g, respectively. Seven common fingerprint peaks were identified in the fingerprints of standard decoction and formula granules, three of which were identified as Caffeic acid, N-Feruloyl Octopus amine and Rosmarinic acid by comparison of reference substance. The fingerprints similarity of Perillae caulis dispensing granules and standard decoction were 1.000, 0.995 and 0.997, respectively. Conclusions:The quality indexes of three batches of formulation granules are consistent with standard decoction. This method can provide basis for the establishment of quality standard of Perillae caulis dispensing granules.
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Since 2016, a number of studies have been published on standard decoctions used in Chinese medicine. However, there is little research on statistical issues related to establishing the quality standards for standard decoctions. In view of the currently established quality standard methods for standard decoctions, an improvement scheme is proposed from a statistical perspective. This review explores the requirements for dry matter yield rate data and index component transfer data for the application of two methods specified in “Technical Requirements for Quality Control and Standard Establishment of Chinese Medicine Formula Granules,” which include the average value plus or minus three times the standard deviation (X-±3SD) or 70% to 130% of the average value (X-±30%X-). The square-root arcsine transformation method is used as an approach to solve the problem of unreasonable standard ranges of standard decoctions. This review also proposes the use of merged data to establish a standard. A method to judge whether multiple sets of standard decoction data can be merged is also provided. When multiple sets of data have a similar central tendency and a similar discrete tendency, they can be merged to establish a more reliable quality standard. Assuming that the dry matter yield rate and transfer rate conform to a binomial distribution, the number of batches of prepared slices that are needed to establish the standard decoction quality standard is estimated. It is recommended that no less than 30 batches of prepared slices should be used for the establishment of standard decoction quality standards.
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OBJECTIVE To establish HPLC characteristic chro matogram of Jianpi yifei biyan prescription standard decoction , to select the quality control index components and determine their contents. METHODS HPLC method combined with Similarity Evaluation System of TCM Chromatographic Fingerprint (2004 edition)were used to establish the characteristic chromatogram of 10 batches of Jianpi yifei biyan prescription standard decoction ;the similarity evaluation and common peaks identification were also carried out. Using common peak area of characteristic chromatogram as variables ,SPSS 26.0 software and SIMCA 14.1 software were used to perfor m cluster analysis (CA),principal component analysis (PCA) and orthogonal partial least squares-discriminant analysis (OPLS-DA);differential components with variable important i n pro jection(VIP)value greater than 1.5 were screened;the contents of cimifugin and differential components were determined by the same method. RESULTS A total of 24 common characteristic peaks were identified , and the similarities of 10 batches of samples were higher than 0.960;eight characteristic peaks were identified by comparison with reference substance. CA and PCA results revealed that the samples were classified into 3 categories.OPLS-DA analysis showed that 3 components with VIP value greater than 1.5, which were prim-O-glucosylcimifugin (peak 2),calycosin 7-O-β-D-glucopyranoside (peak 4) and 5-O-methylvisammioside (peak 6) in descending order. The linear ranges of prim- O- glucosylcimifugin,calycosin 7-O-β-D-glucopyranoside,cimifugin and 5-O-methylvisammioside were 0.010 7-0.213 0,0.007 8- 0.156 0,0.008 0-0.160 0,0.009 8-0.195 0 μg(r>0.999),respectively. RSD values of precision ,repeatability and stability tests (24 h) were all less than 2%. Average recoveries were 105.98%(RSD=1.75%,n=6),98.06%(RSD=3.87%,n=6),96.38%(RSD= 4.03% ,n=6) and 104.17%(RSD=1.27% ,n=6). The contents of the above 4 components in 10 batches of samples were 12.12-18.87,3.86-6.40,3.10-4.27 and 11.17-15.79 μ g/mL,respectively. CONCLUSIONS The established HPLC characteristic chromatographic method is stable and feasible ,it can be used for the quality control of Jianpi yifei biyan prescription standard decoction. Prim- O-glucosylcimifugin,calycosin 7-O-β-D-glucopyranoside,cimifugin and 5-O-methylvisammioside can be used as the index components for quality control of the standard decoction.
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A UHPLC-Q Exactive Orbitrap MS method was used to analyze the chemical constituents of the classical prescription Qianghuo Shengshi Standard Decoction(QHSS). UHPL conditions were as follows: Waters~(TM) UPLC~(TM) HSS T3 C_(18) column(2.1 mm×100 mm, 1.7 μm) and mobile phase of acetonitrile-0.1% formic acid aqueous solution. Mass spectrometry data of QHSS, each herb extract, and negative sample were collected in both positive and negative ion modes. The chemical constituents of QHSS were identified or tentatively identified based on the accurate molecular weight, retention time, MS fragmentation, comparison with reference substances, and literature reports. A total of 141 compounds were identified, including 18 amino acids, oligosaccharides, oligopeptides, and their derivatives, 19 phenolic acids, 44 coumarins, 18 flavonoids and chromones, 13 saponins, 17 phthalides, and 12 other components. This study comprehensively characterized the chemical constituents of QHSS, laying an experimental basis for the in-depth research on the material basis and quality control of QHSS.
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Chromatography, High Pressure Liquid , Drugs, Chinese Herbal/chemistry , Gas Chromatography-Mass Spectrometry , Mass Spectrometry , Quality ControlABSTRACT
OBJECTIVE To determi ne the contents of total fla vonoids i n Scutellaria barbata standard decoction ,evaluate in vitro antioxidant activity ,establish the fingerprint and conduct chemical pattern recognition analysis. METHODS The contents of total flavonoids in S. barbata standard decoction (calculated by scutellarein )were determined by ultraviet-visible spectrophotometry. In vitro antioxidant activity of S. barbata standard decoction was investigated by free radical scavenging tests of 1,1-diphenyl- 2-trinitrophenylhydrazine(DPPH)and 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid )ammonium salt (ABTS);HPLC method was adopted. Using scutellarin as reference ,the fingerprints of 16 batches of S. barbata standard decoction were drawn and evaluated by Similarity Evaluation System of TCM Chromatogram Fingerprint (2004 A edition ),and the common peaks were determined;Pearson correlation analysis was carried out by using SPSS 24.0 software to screen substances with in vitro antioxidant activity. Taking them as variables ,cluster analysis and principal component analysis were carried out by using SPSS 24.0 and SIMCA 14.1 software. RESULTS The linear range of total flavonoids were 2.106-21.06 μg/mL(R2=0.999 3);RSDs of precision , reproducibility and stability tests (120 min)were all lower than 2%;the recovery was 100.62%(RSD=0.55%,n=6);the contents of total flavonoids were 0.634-1.053 mg/mL. Median inhibitory concentration (IC50) of DPPH radical scavenging experiment ranged 1.120-3.602 mg/mL,and IC 50 of ABTS radical scavenging e xperiment range d 0.684-1.327 mg/mL. The results of correlation analysis showed that the content of total flavonoids Δ 基金项目 :河北省高校省级重点学科建设项目 (No.冀教 in S. barbata standard decoction was negatively correlated 高〔2013〕4号);承德医学院自然科学研究计划项目(No.201824) *讲师,硕士。研究方向:中药质量控制 。电话:0314-2291186。 with the IC 50 of DPPH free radical and ABTS free radical E-mail:duyilongww@sina.com scavenging experiment ,and the correlation coefficients were # 通信作者 :教授,硕士。研究方向 :中药质量控制 。电话: -0.976 and -0.940 respectively(P<0.01). There were 18 0314-2291186。E-mail:phf2301@163.com common peaks in the fin gerprints of 16 batches of S. barbata 中国药房 2022年第33卷第4期 China Pharmacy 2022Vol. 33 No. 4 ·425· standard decoction ;the s imilarities were 0.964-0.997. A total of 4 common peaks were identified ,such as scutellarin (peak 8), scutellarein(peak 14),luteolin(peak 15),apigenin(peak 17).In the HPLC fingerprints of S. barbata standard decoction ,the peak areas of peak 3-4,8-9,12-15 and 17 were significantly negatively correlated with the IC 50 of DPPH free radical and ABTS free radical scavenging experiment (P<0.05). The results of cluster analysis showed that 16 batches of S. barbata standard decoction could be clustered into two categories ,of which S 2,S7-S8 and S 14-S16 were clustered into one category ,S1,S3-S6 and S 9-S13 were clustered into one category. By principal component analysis ,16 batches of S. barbata standard decoction were divided into two categories ,of which S 2,S4,S7 and S 14-S16 were clustered into one category ,and S 1,S3,S5-S6 and S 8-S13 were clustered into one. The comprehensive scores were high in the samples of S 4,S13,S15. CONCLUSIONS Established HPLC fingerprint and chemical pattern recognition analysis method can be used to evaluate the quality of S. barbata standard decoction ; peak 3-4,8-9,12-15 and 17 and total flavonoids are the potential material basis for S. barbata standard decoction to scavenge DPPH free radical and ABTS free radical.
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Objective:To establish the quality evaluation method of Prunellae spica dispensing granules based on three quality indexes of standard decoction. Methods:Fourteen batches of Prunellae spica were collected from different habitats. According to technical requirements, fourteen batches of Prunellae spica standard decoction and three batches of formula granules were prepared and the paste-forming rates were calculated. The fingerprints of Prunellae spica standard decoction and formula granules were established by Ultra High Performance Liquid Chromatography (UPLC). The similarity values of fingerprints between dispensing granules and standard decoction were calculated. The content and transferring rate of Rosmarinic acid were determined and calculated. Results:The average paste-forming rate of Prunellae spica was (12.59±2.32)%. The paste-forming rates of the three batches were 11.14%, 10.78% and 10.39% respectively. The average content of Rosmarinic acid in standard decoction was (18.99±9.74)mg/g. The average transferring rate was (60.58±7.87)%. The contents of three batches were 7.40 mg/g, 7.49 mg/g and 7.09 mg/g. The transferring rates were 52.06%, 50.10% and 50.40% respectively. Nine common fingerprint peaks were identified in the fingerprints of standard decoction and formula granules, two of which were identified as Rosmarinic acid and Caffeic acid by comparison of reference substance. The fingerprints similarity of Prunellae spica dispensing granules and standard decoction were 0.954, 0.973 and 0.952, respectively. Conclusions:The quality indexes of three batches of formulation granules are consistent with standard decoction. This method could provide reference for the establishment of quality standard of Prunellae spica dispensing granules.
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The extract rates, multicomponent content and fingerprint were determined in this study to investigate the quality diffe-rence between standard decoction of raw Paeoniae Radix Alba and fried Paeoniae Radix Alba. UPLC fingerprint was established for 17 batches of standard decoction of raw and fried Paeoniae Radix Alba, and the contents of gallic acid, catechin, albiflorin, paeoniflorin and benzoyl paeoniflorin were determined. The peak areas of standard decoction were analyzed by the independent t-test and orthogonal partial least squares discriminant analysis. There was no significant difference in extract rates between the standard decoction of raw and fried Paeoniae Radix Alba. After fried processing, the content of albiflorin increased by 0.26%, while the contents of gallic acid, catechin, paeoniflorin and benzoyl paeoniflorin decreased by 13.04%, 27.97%, 10.30% and 18.79% respectively. There were 14 common peaks in the fingerprint of standard decoction of raw Paeoniae Radix Alba, and 16 common peaks in the fried Paeoniae Radix Alba. Peak 1 and peak 3 were new ones after processing, among which the peak 3 was 5-hydroxymethylfurfural. The results showed that peak 1, peak 3, peak 11 and peak 15 were the key compounds to distinguish standard decoction of raw and fried Paeoniae Radix Alba. In conclusion, this method is stable and can be used for the study of quantity transfer and quality control in the preparation process of standard decoction, granules and other dosage forms for raw and fried Paeoniae Radix Alba, providing reference for the identification of raw and fried Paeoniae Radix Alba and related preparations.
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Chromatography, High Pressure Liquid , Drugs, Chinese Herbal , Paeonia , Quality Control , Reference StandardsABSTRACT
OBJECTIVE: To prepare Cinnamomi Ramulus standard decoction according to the traditional decoction method, and study the preparation process and quality control of Cinnamomi Ramulus formula granules. METHODS: The standard decoctions of 16 batches of Cinnamomi Ramulus were prepared using decocting pot. The extracting rate, contents and transfer rates of cinnamic acid and cinnamaldehyde were calculated. The preparation process of Cinnamomi Ramulus dispensing granules was improved based on the parameters of standard decoction. The volatile oil was collected while extracting, and the β-cyclodextrin inclusion technology was applied in the granulation process. Based on the parameters of standard decoction, the quality standard of Cinnamomi Ramulus formula granules was established. RESULTS: The extracting rate of Cinnamomi Ramulus standard decoction was 3.58%-6.10%; the cinnamic acid content was 0.99%-2.59% and the transfer rate was 39.56%-62.28%; while the cinnamaldehyde content was 1.95%-4.69% and the transfer rate was 4.76%-7.85%. According to the standard decoction, 1 g of Cinnamomi Ramulus formula granules was equivalent to 14 g of pieces, containing cinnamic acid (0.50%-1.43%) and cinnamaldehyde (0.98%-3.50%). Six characteristic peaks in specific spectra were confirmed, including protocatechuic acid (1), coumarin (2), cinnamic acid (3), 2-methoxycinnamic acid (4), cinnamaldehyde (5) and 2-methoxycinnamaldehyde (6). CONCLUSION: In this study, the quality parameters of Cinnamomi Ramulus standard decoction are determined by traditional decocting pot. The strategy of establishing the preparation process and quality standard of Cinnamomi Ramulus formula granules based on standard decoction is proposed. It can provide reference for the research of Cinnamomi Ramulus dispensing granules and other Chinese medicine preparations containing volatile oil.
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This paper, taking the formulation of national drug standards for traditional Chinese medicine (TCM) dispensing granules as a case study, explores the improvement of the formation mechanism of national drug standards, and promotes the reform of streamline administration, delegate powers, and improve regulation and services of national standards management, so as to release the vitality of the research and development of standards of drug manufacturers. After nearly two decades of pilot production of TCM dispensing granules, a large number of researches and discussions have been conducted on the formulation of unified standards of TCM dispensing granules from manufacturing enterprises to national standard administration departments, it was found that this work was difficult on the basis of the original drug standard formation mechanism. The authors tried to improve and innovate the formation mechanism of national drug standards, to provide methods and ideas for the formulation and unification of national standards for TCM dispensing granules, and to provide references for the formulation of other national drug standards.
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Objective::To establish HPLC fingerprint spectra of the pieces, standard decoction, intermediates, dispensing granules of Rehmanniae Radix Praeparata, and assess the quality correlation among them, then to evaluate the scientificity and rationality of preparation process based on the yields of dry extract and the transfer rate of acteoside. Method::Fingerprints of several batches of the pieces, standard decoction, intermediates and dispensing granules of Rehmanniae Radix Praeparata were detected by HPLC, and the content of acteoside was determined according to the method of ChP 2015.The fingerprint chromatographic separation was carried out on Phenomenex Luna 100A C18(2) chromatographic column (4.6 mm×250 mm, 5 μm). The mobile phase was acetonitrile-0.1% phosphoric acid for gradient elution, with a flow rate of 1 mL·min-1, and the detection wavelength was 330 nm. At the same time, the correlation analysis of quality transmission during the preparation of dispensing granules was carried out based on the yields of dry extract and the transfer rates of acteoside. Result::The contents of acteoside pieces, standard decoction and intermediates were basically consistent. The yield of dry extracts of intermediates and dispensing granules, and the transmission rate of acteoside were all within the range of standard decoction, and basically consistent with standard decoction. There were 7 common peaks in all fingerprint spectra of 17 batches of pieces, 17 batches of standard decoction, 10 intermediates and 10 dispensing granules of Rehmanniae Radix Praeparata, with a good correlation. The 13 main chromatographic peaks in the dispensing granules were identified by UPLC-Q-TOF-MS analysis, and 4 of the 7 fingerprint common peaks were identified as 5-hydroxymethyl furfural, acteoside, isoacteoside and martynoside. Conclusion::The main chemical constituents of Rehmanniae Radix Praeparata pieces, standard decoction, intermediates and dispensing granules are basically identical. The established HPLC fingerprint method can be used for the quality control of preparation process of Rehmanniae Radix Praeparata dispensing granules.
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Objective:There were 92 kinds of compound preparations containing Ophiopogonis Radix in the 2015 edition of Chinese Pharmacopoeia, but there was no effective method to identify these compound preparations. Because Ophiopogonis Radix and Liriopes Radix are similar in appearance, it is easy to be confused in application. The aim of this study was to set up a thin layer chromatography (TLC) to identify compound preparations containing Ophiopogonis Radix and distinguish Ophiopogonis Radix and Liriopes Radix in the forms of decoction pieces and standard decoction. Method:In this study, decoction pieces of Ophiopogonis Radix and Liriopes Radix were collected and separately prepared as standard decoction. TLC was used to qualitatively identify decoction pieces and standard decoction of Ophiopogonis Radix and Liriopes Radix, and compound preparations containing Ophiopogonis Radix. In the TLC, the lower solution of chloroform-methanol-water (65∶35∶10) was selected as the developing agent and 10% sulfuric acid ethanol solution as the chromogenic agent. Result:The resolution of this TLC was good. Decoction pieces, standard decoction and preparations of Ophiopogonis Radix had the same characteristic strips, which were two bright white fluorescent strips under ultraviolet lamp (365 nm). But these two characteristic strips were not existed in the TLC of decoction pieces and standard decoction of Liriopes Radix. The corresponding components of both of these two strips were identified as mixture containing saponins by LC-MSn, including ophiopogonin Ra, Tb, ophiopogonin D', borneol glycoside, ophiopogonin C and Liriope muscari baily saponins C. Conclusion:The established TLC method, which has significant advantages such as high specificity and sensitivity, can be applied to the characteristic identification of decoction pieces and standard decoction of Ophiopogonis Radix, the identification of compound preparations containing Ophiopogonis Radix, and the distinction of Ophiopogonis Radix and Liriopes Radix, thus serving as an effective method to qualitatively identify Ophiopogonis Radix and its compound preparations.
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Objective:To establish the quality evaluation methods of Asparagi Radix decoction pieces and its standard decoction. Method:Ten batches of Asparagi Radix standard decoction were prepared. High performance liquid chromatography-evaporative light scattering detection method (HPLC-ELSD) was established for the determination of protodioscin and protoneodioscin in Asparagi Radix decoction pieces and its standard decoction, and the fingerprint detection of Asparagi Radix decoction pieces with acetonitrile-water as mobile phase for gradient elution. UHPLC-LTQ-Orbitrap-MS/MS was used to identify ten main common peaks in the fingerprint with acetonitrile-0.1% formic acid solution as mobile phase for gradient elution, electrospray ionization (ESI) and positive and negative ion mode scanning were employed, the detection range was m/z 100-1 400. Result:The total content of protodioscin and protoneodioscin in Asparagi Radix decoction pieces was 0.41%-0.72%, and their total content in Asparagi Radix standard decoction was 0.33%-0.59%, the transfer rate of these two components was 73.6%-98.3%. The dry extract yield of the standard decoction was 59.0%-73.0%, and its pH was 4.9-5.6. There were 10 common peaks in the fingerprint, and all of them were saponins, including protoneodioscin, protodioscin, aspacochioside A and its isomer, methyl protodioscin, asparagoside F, (25R)-26-O-β-D-glucopyranosyl-furostan-5, 20-diene-3β, 26-diol-3-O-[α-L-rhamnopyranosyl (1→2)]-[β-D-glucopyranosyl (1→4)-α-L-rhamnopyranosyl (1→4)]-β-D-glucopyranoside, 26-O-β-D-glucopyranosyl-furostan-20 (22)-ene-3β, 26-diol-3-O-[α-L-rhamnopyranosyl (1→2)]-[α-L-rhamnopyranosyl (1→4)]-β-D-glucopyranoside, pseudodiosgenin, aspacochioside C. Conclusion:In this paper, the quality evaluation methods of Asparagi Radix decoction pieces and its standard decoction are established, and these methods are stable and feasible, which can provide reference for the quality control of pharmaceutical preparations containing Asparagi Radix.
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The inheritance of traditional clinical value of famous classical formulae is an important direction for the development of traditional Chinese medicine industry.Compared with the previous research and development of new drugs, the management requirement of " material reference" was introduced into the famous classical formulae research, which is used as the reference of process optimization and quality control.The characteristics of compound preparation of famous classical formulae are also reflected in the core concept of " quality inheritance of classics" in the road of industrial development.How to implement the above requirements and concepts into product development and industrial production? There are many specific common problems to be solved in practical research.How to effectively establish the " material reference" of famous classical formulae of different dosage forms? How to use " material reference" to guide the process optimization of compound preparation of famous classical formulae? How to determine the daily dose of famous classical formulae? How to take effective measures in the selection of raw material to reduce quality fluctuation range? This paper discusses the key issues such as production process and quality evaluation from the following aspects.Firstly, the management regulations and research and development guidelines are analyzed, and the specific implementation methods are given.Then, the possible problems in the Requirements for Declaration Documents (Draft for Opinions) are pointed out, and relevant suggestions are given.Finally, based on the research experience of standard decoction and famous classical formulae in the laboratory, an example is given to provide reference for the development of compound preparation of famous classical formulae.
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UPLC-Q-TOF-MS technology was used to analyze the chemical constituents from classical prescription Huangqi Guizhi Wuwu Tang standard decoction. Acquity HSS T3 column(2.1 mm × 100 mm, 1.8 μm) was used as the chromatographic column, with 0.1% formic acid solution-0.1% formic acid acetonitrile as the mobile phase for gradient elution. The volume flow rate was 0.4 mL·min~(-1) and the column temperature was 40 ℃. Mass spectrometry data of Huangqi Guizhi Wuwu Tang standard decoction were collected in positive and negative ion modes. The chemical constituents from classical prescription Huangqi Guizhi Wuwu Tang standard decoction were analyzed and identified by Masslynx 4.1 software combined with SciFinder database, comparison with reference mate-rials, mass spectrometry data analysis and reference to relevant literature. A total of 110 compounds were analyzed and identified, including 33 flavonoids, 14 monoterpene glycosides, 8 triterpenoids, 8 gingerols, 17 phenylpropanoids, 12 organic acids, 7 amino acids and 11 other compounds. The results of this study provide an experimental basis for the further research on the substance basis and quality control of Huangqi Guizhi Wuwu Tang standard decoction.
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Chromatography, High Pressure Liquid , Drugs, Chinese Herbal , Flavonoids/analysis , Glycosides , Prescriptions , Reference StandardsABSTRACT
Objective To study the dry extract rate, determination and transfer rate of maker compounds, and fingerprint of standard decoction of ginger juice Magnoliae Officinalis Cortex (GJMOC) and provide a reference for the preparation and quality assessment of its dispensing granules by establishing 16 batches of standard decoction of GJMOC. Methods A total of 16 batches of GJMOC standard decoctions were prepared following literature requirements. The quantitative analysis method of magnolol and honokiol was according to Chinese Pharmacopoeia (2015 edition). The transfer rate of total magnolol and honokiol and extraction rate were calculated. the pH value was determined and HPLC fingerprint was established under a flow rate of 1 mL/min and eluted with a mobile phase of acetonitrile (A)-0.1% phosphoric acid solution (B) in a gradient mode (0-15 min, 12%-16% A; 15-30 min, 16%-28% A; 30-42 min, 28%-74% A; 42-55 min, 74%-80% A). The column temperature was set at 40℃ and the detection wavelength was 294 nm. Results By measuring the of 16 batches of standard decoction, the transfer rate of the sum of magnolol and honokiol ranged from 6.5% to 12.0%, the extraction rate was at a range of 3.41% to 7.14% and pH value was 4.63 to 5.43. The Similarity Evaluation System for Chromatographic Fingerprint of Traditional Chinese Medicine (2012A) was used to analyze and compare the fingerprints, and seven common peaks were determined and four were identified including magnoloside B (peak 1), magnoloside A (peak 2), honokiol (peak 6), and magnolol (peak 7). The similarity among 16 batches of standard decoction of GJMOC was evaluated, and the similarity was all greater than 0.69. Moreover, this study established an HPLC fingerprint analysis method of GJMOC standard decoction. Conclusion The preparation method established in this study is stable and feasible, and the analysis method shows good precision, stability, and repeatability in fingerprint analysis and it is suitable for evaluating the quality of standard decoction of GJMOC.
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Objective: To prepare standard decoction of Alismatis Rhizoma (AR) and establish its quality evaluation system, and provide reference for the development of dispensing granules of AR. Methods: A total of 18 batches of AR decoction pieces were collected to prepare standard decoction of AR according to the standard process. Quality evaluation system of standard decoction of AR was established with pH value, dry extract rate, fingerprint similarity and transfer rate of alisol B 23-acetate as indexes. Results: The mass fraction of alisol B 23-acetate in AR decoction pieces was 0.057%—0.267% with the average value of 0.156%, water content was 9.2%—12.8% with the average value of 10.44%; the pH value of standard decoction of AR was 4.11—5.60, dry extract rate was 10.25%—17.09%; transfer rate of alisol B 23-acetate from decoction pieces to standard decoction was 10.49%—17.49%. Conclusion: The established quality evaluation method is stable and feasible, which is suitable for the development and quality evaluation of standard decoction of AR, which can provide reference for the development of dispensing granules of AR and related classic formulas.
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The decoction of Chinese materia medica (CMM) is the most commonly used CMM compound dosage form by CMM doctors, and it is also the longest and most widely used preparation in the history of CMM. The medicinal materials are raw materials for decoction pieces. Decoction pieces are raw materials for preparing extracts and constituting CMM prescriptions and CMM prescription formulas. They also reflect the importance of inheriting and developing CMM. Based on the standard decoction of CMM decoction pieces, it is an important strategy for scientific development to scientifically understand the quality of decoction and improve the evaluation theory and method of decoction of pharmacopoeia and Chinese patent medicine. This article is to carry out the standard decoction of CMM decoction pieces under the guiding by the CMM theory and clinical application research. On the basis of the theory and method of CMM quality markers to study, we discuss the influences of decoction pieces and decoction process, form the marked quality evaluation system, not only to ensure the drug safety and efficacy of CMM prescription, but also to meet the standard of the quality and standard of “medicinal-materials” - “decoctions” - “Chinese patent drug”, and to understand their differences and value for promoting national supervision level on CMM decoction pieces and ensure people’s safety and effective. It is also helpful to understand the significance of standard decoction in the production of traditional Chinese medicine decoction pieces, the inheritance and research of traditional Chinese medicine formula granules and classic famous prescription.
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Objective: To establish the quality control methods for the standard decoction of Zingiberis Rhizoma. Method: DNA barcode primitives were identified for the medicinal materials from different origins; according to the standard of Chinese herbal medicine decoction preparation principle,the identified Zingiberis Rhizoma was prepared into standard decoction for analysis. Meanwhile, the extraction method and analysis method were validated from methodologies, and the transfer rate of 6-gingerol as well as the extraction rate of standard decoction of Zingiberis Rhizoma were calculated. In addition,the quality standard of standard decoction of Zingiberis Rhizoma was also established based. The structures of main chromatographic peaks were identified by ultra-performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF-MS) to clarify the main chemical constituents in the standard decoction of Zingiberis Rhizoma. Result: All the samples were identified as Zingiberis Rhizoma. Under the conditions established in this paper,the standard curve of 6-gingerol was Y=661.56X+2.493 3(r=0.999 3),and the RSD was 0.5%in precision test, indicating that the instrument precision was good. The repeatability test showed that the RSD was 0.3%, indicating that the method had good repeatability. The stability test showed that the RSD was 0.4%, indicating that the test solution had good stability within 24 h. The recovery rate was 97.2%and the RSD was 0.6%,indicating that the method was accurate and reliable. 6-gingerol's transfer rate ranged from 31.8%to 57.4%and the extraction rate was within the range of 9.6%-23.1%. The fingerprint similarity of 12 batches of Zingiberis Rhizoma standard decoction was>90%. Conclusion: The established quality control method for Zingiberis Rhizoma was stable and feasible; meanwhile, the standard preparation method for Zingiberis Rhizoma and its quality evaluation system were also established in this study.