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AIM To establish a quantitative analysis of multi-components by single-marker(QAMS)method for the simultaneous content determination of gastrodin,parishin E,syringin,parishin B,parishin C,ferulic acid,parishin A,buddleoside,harpagoside and cinnamic acid in Tianma Toufengling Capsules.METHODS The analysis was performed on a 30℃thermostatic GL Science InertsilTM ODS-3 column(150 mm×4.6 mm,5 μm),with the mobile phase comprising of acetonitrile-0.1%phosphoric acid flowing at 1.0 mL/min in a gradient elution manner,and the detection wavelengths were set at 220,280 nm.Syringin was used as an internal standard to calculate the relative correction factors of the other nine constituents,after which the content determination was made.RESULTS Ten constituents showed good linear relationships within their own ranges(r≥0.999 7),whose average recoveries were 98.53%-102.22%with the RSDs of 1.26%-2.68%.The result obtained by QAMS approximated those obtained by external standard method.CONCLUSION This accurate and specific method can be used for the quality control of Tianma Toufengling Capsules.
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ObjectiveTo investigate the influence of concentration ratio(CR) between the internal reference and target components on the quantitative accuracy of quantitative analysis of multi-components by single marker(QAMS) by taking ginsenosides as an example. MethodUltra performance liquid chromatography(UPLC) was employed, the contents of nine components in Ginseng Radix et Rhizoma(ginsenosides Rg1, Re, Rf, Rh1, Rb1, Rc, Rb2, Rb3, Rd) were determined by external standard method(ES). Using ginsenoside Rg1 as the internal reference, the contents of the remaining 8 ginsenosides were determined by QAMS, and the quantitative results were compared with those of ES to evaluate the quantitative accuracy of the established QAMS. According to the contents of these 9 ginsenosides, the simulated sample solutions with different CRs of ginsenoside Rg1 to ginsenosides Rf, Rb2, Rd were prepared with the reference substance(CR=100∶1, 10∶1, 5∶1, 2∶1, 1∶1, 0.5∶1, 0.25∶1), in order to validate the effect of the CRs between the internal reference and other components on the quantitative accuracy of the QAMS. ResultThe results of ginsenosides Re, Rf, Rb1, Rc, Rb2 calculated by the two methods were the same with the relative standard deviation(RSD)<3%, however, the results of ginsenosides Rh1, Rb3 and Rd calculated by the two methods were different with RSDs of 7.06%-9.61%. According to the result of the simulated sample solution, the difference between the calculated results of ES and QAMS was large when the CR between the internal reference(ginsenoside Rg1) and other components was 5 or 10 or even higher. ConclusionThe quantitative error of QAMS will increase when the CR between the quantitative component and the internal reference is too large, so it is suggested that when establishing the QAMS, the components with close concentration to the internal reference should be selected for quantification.
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OBJECTIVE To establish a method for the content determination of 11 components such as protodioscin in Guge fengtong tablets, and to evaluate the comprehensive quality of Guge fengtong tablets by combining with chemometric analysis and entropy weight-technique for order preference by similarity to ideal solution (EW-TOPSIS) method. METHODS HPLC method was adopted. The determination was performed on Agilent Eclipse Plus C18 column with a mobile phase consisted of acetonitrile- 0.2% phosphoric acid solution at the flow rate of 1.0 mL/min by gradient elution. The column temperature was set at 30 ℃ . The detection wavelengths were set at 203 nm (0-28 min, protodioscin, methyl protodioscin, pseudoprotodioscin, dioscin) and 280 nm (28-60 min, catechin, epicatechin, liquiritigenin, medicarpin, 6-gingerol, 8-gingerol, 10-gingerol); the sample size was 10 μL. Using epicatechin as the internal reference, quantitative analysis of multi-components by single marker (QAMS) method was used to determine the contents of protodioscin, methyl protodioscin, pseudoprotodioscin, dioscin, catechin, liquiritigenin, medicarpin, 6-gingerol, 8-gingerol and 10-gingerol, which were compared with the results of the external standard method. SPSS 26.0 software and SIMCA 14.1 software were used for principal component analysis and orthogonal partial least squares-discriminant analysis, with variable importance in projection (VIP) value greater than 1 as the standard, to screen for differential markers that affect the quality; the EW-TOPSIS method was adopted to evaluate the quality of 15 batches of samples comprehensively.RESULTS The contents of protodioscin, methyl protodioscin, pseudoprotodioscin, dioscin, catechin, liquiritigenin, medi-carpin, 6-gingerol, 8-gingerol and 10-gingerol determined by HPLC combined with QAMS were 6.330-10.863, 1.150-2.274, 0.431- 0.740, 2.818-4.823, 0.826-1.510, 0.043-0.094, 0.079-0.231, 0.479-1.020, 0.146-0.288, 0.118-0.318 mg/g, respectively; there were no statistical significances, compared with the external standard method (P>0.05). A total of 15 batches of samples were clustered into 3 groups, with S1-S6, S7-S10, and S11-S15 clustered into one group, respectively. The VIP values of protodioscin, epicatechin, dioscin and 6-gingerol were greater than 1. Euclidean closeness values of the optimal solution (C)i for 15 batches of samples were 0.163 5 to 0.703 7, and Ci values of S11-S15 were all higher than 0.6. CONCLUSIONS The established QAMS method is accurate and simple, and can be used for comprehensive quality evaluation of Guge fengtong tablets, by combining with chemometric analysis and EW-TOPSIS method. Protodioscin, epicatechin, dioscin and 6-gingerol are the differential markers that affect the quality of Guge fengtong tablets. Samples S11-S15 have better quality.
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The Compound Cheqian Tablets are derived from Cheqian Power in Comprehensive Recording of Divine Assistance, and they are made by modern technology with the combination of Plantago asiatica and Coptis chinensis. To investigate the material basis of Compound Cheqian Tablets in the treatment of diabetic nephropathy, in this study, the chemical components of Compound Cheqian Tablets were characterized and analyzed by UPLC-Q-TOF-MS/MS, and a total of 48 chemical components were identified. The identified chemical compounds were analyzed by network pharmacology. By validating with previous literature, six bioactive compounds including acteoside, isoacteoside, coptisine, magnoflorine, palmatine, and berberine were confirmed as the index components for qua-lity evaluation. Furthermore, the content of the six components in the Compound Cheqian Tablets was determined by the "double external standards" quantitative analysis of multi-components by single marker(QAMS), and the relative correction factor of isoacteoside was calculated as 1.118 by using acteoside as the control; the relative correction factors of magnoflorine, palmatine, and berberine were calculated as 0.729, 1.065, and 1.126, respectively, by using coptisine as the control, indicating that the established method had excellent stability under different conditions. The results obtained by the "double external standards" QAMS approximated those obtained by the external standard method. This study qualitatively characterized the chemical components in the Compound Cheqian Tablets by applying UPLC-Q-TOF-MS/MS and screened the pharmacodynamic substance basis for the treatment of diabetic nephropathy via network pharmacology, and primary pharmacodynamic substance groups were quantitatively analyzed by the "double external stan-dards" QAMS method, which provided a scientific basis for clarifying the pharmacodynamic substance basis and quality control of Compound Cheqian Tablets.
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Humanos , Espectrometria de Massas em Tandem , Berberina/farmacologia , Cromatografia Líquida de Alta Pressão/métodos , Farmacologia em Rede , Nefropatias Diabéticas , Medicamentos de Ervas Chinesas/química , Controle de Qualidade , ComprimidosRESUMO
Objective To determine 10 components in Shiliang tea by high performance liquid chromatography-quantitative analysis of multi-components with a single-marker(HPLC-QAMS),and to evaluate its comprehensive quality by multivariate statistical analysis and entropy-technique for order preference by similarity to ideal solution(E-TOPSIS).Methods The determination was performed on COSMOSIL ?5 C18-MS-Ⅱ column(250 mm×4.6 mm,5 μm)with mobile phase consisted of acetonitrile-0.1% phosphoric acid solution and gradient elution at the flow rate of 1.0 mL·min-1,and the detection wavelength was set at 360 nm and 222 nm.The contents of scopolin,scopoletin,isofraxidin,rutoside,kaempferol-3-O-rutinoside,astragalin,scoparone,quercetin,kaempferol and mcalycanthine in 18 batches of Shiliang tea were calculated according to QAMS using rutoside as internal reference.The content data of 18 batches of Shiliang tea were analyzed chemometrically using statistical software;the quality of Shiliang tea was evaluated comprehensively using E-TOPSIS method.Results Good separation was obtained for all 10 components and showed good linearity with peak area in their respective scopes(r>0.999 0).The average recovery rates were 96.98% -100.12% (RSD<2.0% ,n=9).The average relative correction factors for rutoside and the other 9 components were 2.115 7,2.592 4,0.553 1,0.897 6,0.780 7,1.159 3,0.693 6,1.458 3 and 0.6017(RSD<2.0% ,n=6),and there was no significant difference between the contents obtained by QAMS and external standard method for each component.The results of multivariate statistical analysis showed that the cumulative variance contribution rate of the 2 principal components was 83.886% ,and the variable importance in the projection value greater than 1 were kaempferol-3-O-rutinoside,rutoside and astragalin.The results of E-TOPSIS showed that the euclidean closeness of the optimal solution was between 0.180 4 and 0.739 4.Conclusion The method established is simple,accurate,economical and practical,which can fully reflect the quality difference of Shiliang tea and better control the quality of this variety.
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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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OBJECTIVE To establish a method for simultaneous determi nation of six components in Melastoma dodecandrum and investigate its correlation with antioxidant activity. METHODS Ultra high-performance liquid chromatography (UPLC)method was adopted. The contents of gallic acid ,protocatechuic acid ,isovitexin,rutin and ellagic acid in 23 batches of M. dodecandrum were determined by quantitative analysis of multi-components by single-marker (QAMS)method,using vitexin as the internal reference. Then 1,1-diphenyl-2-picrylhydrazyl(DPPH)free radical method ,2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid ) diammonium salt (ABTS)method and ferric ion reduction/antioxidant power (FRAP)method were applied to determine the antioxidant activity of 23 batches of M. dodecandrum . Grey correlation analysis and bivariate correlation analysis were used to evaluate the correlation between six components and antioxidant activity. RESULTS The content of vitexin were 0.021%-0.182%. The contents of gallic acid ,protocatechuic acid ,isovitexin,rutin and ellagic acid by QAMS method were 0.008%-0.042%, 0.003%-0.023%,0.071%-0.283%,0.013%-0.140% and 0.006%-0.021%,respectively. Compared with the results of external standard method ,P was greater than 0.05. Grey correlation analysis showed that the grey correlation coefficients between the contents of six components an d antioxidant activity was 0.727 6- 0.866 9. Bivariate correlation analysis showed that the contents of vitexin ,isovitexin and rutin were positively correlated with antioxidant activity (P<0.05 or P<0.01),the content of gallic acid and protocatechuic acid were negatively correlated with antioxidant activity (P<0.05). There was no significant correlation between ellagic acid and antioxidant activity.CONCLUSIONS QAMS method is successfully established for the simultaneous determination of six components in M. dodecandrum. The six components in M. dodecandrum are highly correlated with antioxidant activity.
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OBJECTIVE To establish a method for simultaneous determination of zeaxanthin ,β-carotene,β-cryptoxanthin palmitate and zeaxanthin dipalmitate in Lycium barbarum . METHODS L. barbarum was extracted with n-hexane-anhydrous ethanol-acetone-toluene(10∶6∶7∶7,V/V/V/V)by ultrasonic method. High performance liquid chromatography (HPLC)method was adopted. The determination was performed on YMC C 30 column with mobile phase A consisted of methanol-acetonitrile-water (81∶ 14 ∶ 5,V/V/V)and mobile phase B consisted of dichloromethane (gradient elution )at the flow rate of 1.0 mL/min. The column temperature was set at 20 ℃. The detection wavelength was set at 450 nm,and sample size was 20 μL. Using zeaxanthin as control,the relative correction factors (RCFs)of β-carotene,β-cryptoxanthin palmitate and zeaxanthin dipalmitate were calculated , and then the content of each component was calculated according to RCFs and compared with the results of external standard method(ESM). RESULTS The linear range of zeaxanthin ,β-carotene,β-cryptoxanthin palmitate and zeaxanthin dipalmitate were 0.119 4-2.983 8,0.121 7-1.521 6,0.285 9-5.718 8,8.460 5-211.513 3 μg/mL(all R2>0.999). RSDs of precision ,repeatability and stability(16 h)tests were all less than 4%. The average recoveries were 103.34%,107.37%,105.64%,96.16%(RSD<5%,n= 9). The average RCFs of β-carotene,β-cryptoxanthin palmitate and zeaxanthin dipalmitate were 1.109,1.390,1.158. The relative errors of the content determination results by quantitative analysis of multi-components by singer marker (QAMS)and ESM were within ±1%. CONCLUSIONS The established HPLC-QAMS method is accurate and stable ,which can be used for the content determination and quality control of 4 carotenoids in L. barbarum .
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OBJECTIVE To e stablish the fingerprint of Qings hen tiaozhi xiaoke tablets (QTXT)and carry out the analysis of chemical pattern recognition ,and determine the contents of seven active components simultaneously. METHODS Using coptisine hydrochloride as reference ,the Similarity Evaluation System for Chromatographic Fingerprint of TCM (2012 edition)was utilized to establish the HPLC fingerprints of 13 batches of QTXT and analyze their similarity. The common peaks were confirmed by comparing with the chromatogram of the mixed control ;the attribution of the common peak was determined by comparing the chromatograms of the sample solutions of single decoction pieces and negative sample solutions ;using SPSS 22.0 and SIMCA 14.1 software,cluster analysis (CA),principal component analysis (PCA)and orthogonal partial least squares-discriminant analysis (OPLS-DA)were carried out ,and the markers affecting the quality of QTXT were screened ,using the variable importance in projection(VIP)value greater than 1 as the standard. Using coptisine hydrochloride as internal reference ,the contents of naringin , hesperidin,neohesperidin,berberine hydrochloride ,palmatine hydrochloride and lovastatin were determined by quantitative analysis of multicomponents by single marker (QAMS),and then compared wi th the result s(except for coptisine hydrochloride ) of external standard method. RESULTS There were 17 Δ 基金项目:江苏省“双创团队”项目[No.(2018)2024号] *硕士研究生。研究方向:中药新药药学。E-mail:2769544062@ common peaks in 13 batches of QTXT ,and the similarity was qq.com 0.987-0.999. Seven chromatographic peaks were identified , # 通信作者:副研究员,硕士生导师,博士。研究方向:中药药剂 namely naringin (peak 4), hesperidin (peak 5), 学。E-mail:tsliur411@sina.com neohesperidin(peak 6),coptisine hydrochloride (peak 8), ·1204· China Pharmacy 2022Vol. 33 No. 10 中国药房 2022年第33卷第10期 palmatine hydrochloride (peak 9),berberine hydrochlo ride(peak 10),lovastatin(peak 14). Peaks 7-10 were the exclusive peaks of Coptis chinensis ;peaks 3-6 and 11-13 were the exclusive peaks of bran-fried Fructus aurantii ;peak 14 was the exclusive peak of Monascus purpureus ;peak 1 was the common peak of C. chinensis and M. purpureus . Peak 2 and 15 were the common peak of bran-fried F. aurantii and M. purpureus ;peaks 16 and 17 were the common peaks of 6 traditional Chinese medicines. The results of CA showed that 13 batches of QTXT could be divided into three categories ,S2 was clustered into one category ,S1,S9,S10 were clustered into one category ,S3-S8 and S 11-S13 were clustered into one category. The results of PCA showed that accumulative variance contribution of the first three principal components was 85.120%. Compared with CA ,S1 was further distinguished from S9 and S 10 by PCA. OPLS-DA showed that 7 common peaks with VIP value greater than 1(from large to small )were peak 10 (berberine hydrochloride ),peak 9(palmatine hydrochloride ),peak 5(hesperidin),peak 11 and peak 8(coptisine hydrochloride ), peak 12 and peak 6(neohesperidin). The contents of naringin ,hesperidin,neohesperidin,berberine hydrochloride ,palmatine hydrochloride and lovastatin measured by QAMS were 40.198-77.552,6.138-13.413,71.823-125.868,11.274-49.951,3.303- 5.367,1.821-3.185 mg/g,respectively. The contents of naringin ,hesperidin,neohesperidin,berberine hydrochloride ,coptisine hydrochloride,palmatine hydrochloride and lovastatin measured by external reference method were 41.454-79.976,6.404-13.993, 74.068-129.081,11.627-51.512,5.922-12.020,3.158-5.131 and 1.901-3.325 mg/g,respectively. The deviations of the two methods (except for coptisine hydrochloride )were all less than 3.00%. CONCLUSIONS The established HPLC fingerprint and the method of QAMS are simple ,accurate and reproducible. Combined with chemical pattern recognition analysis ,it can be used for the quality evaluation of QTXT. Berberine hydrochloride ,palmatine hydrochloride and other components may be the markers affecting the quality of the drug.
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OBJECTIVE To establish the method for simultaneous determination of 11 components as narirutin in Biantong capsules,to conduct chemical pattern recognition analysis and to screen differential markers affecting their quality . METHODS HPLC method was adopted . The separation was carried out on Venusil XBP C 18 column with mobile phase consisted of acetonitrile - 0.1% phosphoric acid solution with gradient elution at flow rate of 1.0 mL/min. The sample size was 10 µL,and column temperature was set at 30 ℃. The detection wavelengths were set at 283,330,520,220 nm,respectively. Using verbascoside as an internal standard ,the contents were determined by quantitative analysis of mult -components by single marker (QAMS),and the results were compared with those of external standard method . Cluster analysis ,principle component analysis and orthogonal partial least squares -discriminant analysis were performed with SPSS 26.0 and SIMCA 14.1 software. The differential markers affecting the quality of Biantong capsules were screened using the variable importance in projection (VIP)value greater than 1 as the standard . RESULTS The contents of narirutin ,naringin,neohesperidin,echinacoside,tubuloside A ,isoacteoside,cyanidin-3-O-glucoside, cyanidin-3-O-rutoside,atractylolide Ⅲand atractylolide Ⅰ were 0.739-1.265,1.134-2.158,1.407-2.359,1.368-2.502,0.304-0.522, 0.257-0.521,0.423-0.727,0.375-0.733,0.130-0.283 and 0.062-0.166 mg/g,respectively. The relative average deviation of them from the external standard method was less than 2%. The results of cluster analysis showed that 15 batches of samples could be grouped into three categories ,S1-S7 as a category ,S8-S10 as a category ,and S 11-S15 as a category ,which was consistent with the classification results of principal component analysis . The results of orthogonal partial least squares -discriminant analysis showed that the VIP values of cyanidin -3-O-rutoside,atractylolide Ⅲ, naringin,neohesperidin,echinacoside and verbascoside were all greater than 1. CONCLUSIONS The method for simultaneous determination of 11 components in Biantongcapsules, including narirutin , is successfully established . Combined with chemical pattern recognition analysis ,it can be used for the quality control of Biantong capsules . Six components such as cyanidin -3-O-rutoside may be the differential markers that affect the quality of Biantong capsules .
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OBJECTIVE To evaluate the qualit y of Xihuang pills ,and to screen the differential markers affecting its quality . METHODS Using muskone as internal reference ,the content of α-pinene and other 4 components were determined by quantitative analysis of multi -components by single marker (QAMS),and compared with the results of external standard method . The fingerprints of 13 batches of Xihuang pills were established by gas chromatography (GC)method. Cluster analysis (CA)and orthogonal partial least squares discriminant analysis (OPLS-DA) were performed by SPSS 25.0 software and SIMCA 14.1 software. The variable importance projection (VIP)value greater than 1 was used as the standard to screen differential markers affecting the quality of the samples . RESULTS The contents of α-pinene,octyl acetate and β-elemene measured by QAMS were 0- 0.628 4,0.378 0-2.679 4 and 0.320 9-0.815 4 mg/g,respectively. The contents of α-pinene,octyl acetate ,β-elemene and musk ketone measured by external standard method were 0.001 5-0.627 1,0.378 0-2.594 7,0.329 2-0.837 0 and 0.385 7-0.806 0 mg/g, respectively. The relative error of the content determination results of the two methods was less than 4%. There were 26 common peaks in 13 batches of Xihuang pills ,and 3 common peaks ,such as octyl acetate ,β-elemene and musk ketone ,were identified ; their similarities were 0.912-0.946. 13 batches of samples could be divided into two categories (S1-S2,S6-S10,S13 were clustered into one category and S 3-S5,S11-S12 were clustered into one category ). VIP values of peak 7,11,10,17 and 16 were all greater than 1. CONCLUSIONS The content of 4 components such as α-pinene in Xihuang pills combined with GC fingerprint and chemical pattern recognition analysis can be used to evaluate the quality of Xihuang pills . The components corresponding to 5 common peaks such as peak 7 may be differential markers affecting the quality of the samples .
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OBJECTIVE To establish quantitative analysis of multi -components by single marker (QAMS) method to simultaneously detect the contents of cinnamic acid ,cinnamaldehyde,plantamajoside,verbascoside,isoacteoside,calceolarioside B , psoralen,isopsoralen,neobavaisoflavone and bavachin in Gushen dingchuan pill ,and to perform quality evaluation of Gushen dingchuan pill by combining with chemical pattern recognition . METHODS High-performance liquid chromatography was adopted . Using psoralen as internal standard ,the relative correction factors of the other 9 components were established ,and the contents of each component were calculated and compared with those determined by external standard method . Cluster analysis ,principal component analysis and partial least squares discrimination analysis were performed by the results of QAMS method ,and the qualities of 15 batches of Gushen dingchuan pills were evaluated . RESULTS The above 10 components showed a good linear relationship in their respective ranges (r>0.999 0). RSDs of precision ,repeatability,stability and recovery tests were all lower than 2.00%. There was no significant difference between QAMS method and external standard method (P>0.05). The results of cluster analysis and principal component analysi showed that 15 batches of Gushen dingchuan pills could be clustered into 3 categories. The results of partial least squares discrimination analysis showed that psoralen ,verbascoside,cinnamaldehyde and isopsoralen were the main potential markers affecting the quality of Gushen dingchuan pills . CONCLUSIONS Established QAMS method for quantitative control of multi index components and chemical pattern recognition can be used for the quality evaluation of Gushen dingchuan pills .
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ObjectiveTo develop a quantitative analysis of multi-components by single marker (QAMS) for determination of bufalin, cinobufagin and resibufogenin in Shexiang Baoxin pills, and to provide a method for improving the national standard of the pills. MethodHigh performance liquid chromatography (HPLC) was developed for simultaneous determination of bufalin, cinobufagin and resibufogenin in Shexiang Baoxin pills and the methodology validation was carried out. The chromatographic separation was performed on a Nucleosil 100-5 C18 column (4.6 mm×250 mm, 5 μm) with the mobile phase of acetonitrile -0.1% potassium dihydrogen phosphate aqueous solution (pH adjusted to 3.2 with phosphoric acid) (48∶52), and the flow rate was 0.6 mL·min-1, the detection wavelength was set at 296 nm and the column temperature was 35 ℃. Taking cinobufagin as the internal standard, the relative correction factors (RCFs) of bufalin and resibufogenin were calculated, and the key influencing factors of RCFs were investigated. Relative retention time was used for the chromatographic peak location of the analyte, combining with the on-line ultraviolet spectroscopy and accurate relative molecular weight obtained by ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-QTOF/MS). The external standard method was used to verify the contents of three components obtained by QAMS. ResultQAMS was established for the determination of bufalin, cinobufagin and resibufogenin in the samples, and RCFs of cinobufagin to bufalin and resibufogenin were 0.922 and 1.01, respectively. The total content of the three marker compounds in 11 batches of Shexiang Baoxin pills was 33.7-36.0 µg per pill. There was no significant difference between the quantitative results of QAMS and external standard method. ConclusionThe established method can be used for the quality control of bufalin, cinobufagin and resibufogenin in Shexiang Baoxin pills. It is suggested that bufalin should be considered as one of three marker compounds, and the sum of bufalin, cinobufagin and resibufogenin should be used for the content limit of this preparation.
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OBJECTIVE:To establish a metho d for simultaneous determinat ion of α-pinene,β-pinene,myrcene,limonene, γ-terpinene and α-terpineol in volatile oil from Citrus medica . METHODS :GC-QAMS method was adopted. The determination was performed on Agilent DB- 17 capillary column. Flame ionization detector was adopted with nitrogen as carrier gas (purity 99.999%) at the flow rate of 0.5 mL/min. The flow rate of nitrogen (make-up gas )was 25 mL/min,the flow rate of hydrogen was 30 mL/min, and the flow rate of air was 400 mL/min. The inlet temperature was 250 ℃,and the detector temperature was 280 ℃(programmed temperature),and injection volume was 0.5 μL with split ratio of 35 ∶ 1. Using limonene as internal reference ,relative correction factors of α-pinene,β-pinene,myrcene and γ-terpinene were calculated. The contents of 4 components in the samples were calculated according to the relative correction factors. The results were compared between QAMS and internal standard method (ISM,using dodecane as internal substance ,6 components to be determined ). RESULTS :The linear range of α-pinene,β-pinene, myrcene,limonene,γ-terpinene and α-terpineol were 0.030 5-0.213 8,0.066 6-0.466 0,0.021 8-0.152 3,0.765 2-5.356 4,0.387 3- 2.710 8,0.034 2-0.239 6 mg/mL(all r>0.999). The limits of detection were 4.82,7.89,4.01,4.54,5.53,2.47 µg/mL,and the limits of quantification were 15.34,25.91,13.69,15.70,18.68,8.36 µg/mL,respectively. RSDs of precision ,repeatability and stability tests (24 h)were all less than 2%. The average recovery rates were 96.08%,97.48%,100.90%,101.22%,100.54%, 95.84%(all RSD <3%,n=6). The average relative correction factors of α-pinene,β-pinene,myrcene and γ-terpinene were 0.997 8, 1.530 7,0.952 4 and 1.025 5 (all RSD <1%). The contents of α-pinene,β-pinene,myrcene,limonene,γ-terpinene and α-terpineol by ISM were 3.296 9-20.994 1,11.300 6-39.440 9,3.684 2-11.291 4,174.857 8-511.611 8,0-285.127 3,0-48.858 6 mg/g, respectively. The contents of α-pinene,β-pinene,myrcene and γ-terpinene determined by QAMS were 3.296 8-20.994 0,11.300 3- 39.439 7,3.684 1-11.291 1,0-285.126 6 mg/g,respectively. Relative content errors of 4 components as α-pinene determined by 2 methods were all less than 1% . CONCLUSIONS : The Δ 基金项目:四川省科技厅应用基础研究项目(No.2021YJ0114); established GC-QAMS method is simple ,rapid,accurate and 泸州市重点科技项目 [No.2011-S-31(3/3)];合江县人民政府—西南医 科大学战略合作项目(No.2018-HJXNYD-2) repeatable,and can be used for quantitative analysis and *硕士研究生 。研究方向 :中药制备工艺及质量评价 。电话: quality control of volatile oil from C. medica . 0830-3162291。E-mail:493359958@qq.com
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OBJECTIVE:To establish a m ethod for simultaneous determination of neoastilbin ,astilbin,neoisoastilbin,isoastilbin, quercitrin and engeletin in Engelhardia roxburghiana,and conduct multivariate statistical analysis. METHODS :HPLC-QAMS method was adopted. The determination was performed on Phenomenex SuperLu C 18 column with mobile phase consisted of acetonitrile-0.1% formic acid (19 ∶ 81,V/V)at the flow rate of 1.0 mL/min. The detection wavelengths were set at 254 nm (neoastilbin,astilbin,neoisoastilbin,isoastilbin,engeletin)and 291 nm(quercitrin). The column temperature was 30 ℃,and sample size was 10 μL. Using astilbin as internal substance,and the relative correction factors of other 5 factors were calculated. The contents of each component were calculated according to relative correction factor ,and were compared with the results of external standard method. SPSS 22.0 software was used for cluster analysis and principal component analysis. RESULTS :The linear range of neoastilbin ,astilbin,neoisoastilbin,isoastilbin,quercitrin and engeletin were 0.007-0.311,0.871-18.184,0.002-0.119, 0.052-1.251,0.105-2.202,0.020-2.319 μg(r>0.999),respectively. RSDs of precision ,reproducibility and stability (24 h)tests were all lower than 3%. The average recoveries were 97.32%,94.89%,97.15%,96.90%,97.52% and 97.53%(RSDs were 1.09% -2.60% ,n=6),respectively. The relative correction factors of neoastilbin ,neoisoastilbin,isoastilbin,quercitrin and engeletin were 1.252 6,1.198 3,0.958 6,0.807 1 and 1.138 1, respectively. The contents of neoastilbin , neoisoastilbin, qq.com isoastilbin,quercitrin and engeletin measured by QAMS were 0.394 2-2.067 2,0.139 1-0.804 7,2.864 8-8.554 8,4.581 2- 11.371 1,1.028 9-13.401 5 mg/g;the contents of neoastilbin , astilbin,neoisoastilbin,isoastilbin,quercitrin and engeletin were 0.367 2-1.925 3,46.361 1-126.342 1,0.138 1-0.798 8,2.966 2-8.857 8, 4.642 5-11.523 3,0.970 6-12.641 9 mg/g,respectively. Relative errors of two methods was lower than or equal to 3.55%. The results of cluster analysis showed that 9 batches of samples could be clustered into two categories ;S8 sample was one category and others were one category. The results of principal component analysis showed that accumulative contribution rate of former 2 principle components was 84.745%,and the results of sample classification were consistent with those of cluster analysis. CONCLUSIONS : The established HPLC-QAMS method is accurate ,feasible and repeatable ,and can be used for simultaneous determination of 6 flavonoids in E. roxburghiana ,and it can provide reference for quality control.
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OBJECTIVE:To establish the method for content determination of 6 components in Fuzheng guben granules ,such as 2,3,5,4′-tetrahydroxystilbene glucoside ,baicalin,icariin,scutellarin,baicalein and wogonin. METHODS :HPLC method was adopted. The determination was performed on Dikma Diamonsil C 18 column with mobile phase consisted of acetonitrile- 0.1% phosphoric acid aqueous solution (gradient elution )at the flow rate of 1.0 mL/min. The detection wavelengths were set at 275 nm (0-8 min),320 nm(8-9 min)and 275 nm(9-33 min). The column temperature was set at 25 ℃,and sample size was 10 μL. With baicalin as reference material ,the relative corr ection factors (fk/s) of other five components were calculated by multi-point correction method and slope correction method ;the retention time difference method was used to locate the chromatographic peaks ; the calculation values obtained by above 2 QAMS were compared with measured values of external standard method. RESULTS : The linear range of 2,3,5,4′-tetrahydroxystilbene glucoside ,baicalin,icariin,scutellarin,baicalein and wogonin were 0.053-2.12, 0.163-6.52,0.059-2.36,0.021 6-0.864,0.03-1.2,0.021-0.84 μg(r>0.999),respectively. RSDs of precision ,stability(12 h)and reproducibility tests were all lower than 3%. Average recoveries were 98.72%-99.82%(RSDs were 0.89%-1.24%,n=9). Using baicalin as reference material ,fk/s of multi-point correction method for 2,3,5,4′-tetrahydroxystilbene glucoside ,icariin,scutellarin, baicalein and wogonin were 1.172,0.528,1.479,1.820 and 2.534,respectively;fk/s of slope correction method were 1.234, 0.550,1.559,1.939,2.664. RSDs of 6 components in 10 batches of Fuzheng guben granules by 3 methods were 0.29%-2.77% (n=10),respectively. Pearson correlation coefficient was not lower than 0.999 9(P<0.001)in measured values between QAMS and external standard method. CONCLUSIONS :QAMS method is established successfully for simultaneous determination of 6 components in Fuzheng guben granules.
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OBJECTIVE:To establish the method for simultaneous determination of 11 active components in Yuhuai tablets , such as gardoside ,shanzhiside,gardenoside,genipin 1-gentiobioside,geniposide,ziyuglycoside Ⅰ ,ziyuglycoside Ⅱ ,narirutin, naringin,hesperidin and neohesperidin. METHODS :HPLC-QAMS method was adopted. The determination was performed on Agilent TC-C 18column(250 mm×4.6 mm,5 μm)with mobile phase consisted of acetonitrile (A)-0.1% phosphoric acid solution (B) (gradient elution )at the flow rate of 1.0 mL/min. The column temperature was set at 30 ℃. The detection wavelengths were set at 238 nm for gardoside ,shanzhiside,gardenoside,genipin 1-gentiobioside and geniposide ,203 nm for ziyuglycoside Ⅰ and ziyuglycoside Ⅱ,and 283 nm for narirutin ,naringin,hesperidin and neohesperidin. Using geniposide as an internal reference ,the relative correction factors of other 10 components relative to this component were calculated ,and the contents of each component in 10 batches of samples were calculated. The results obtained by HPLC-QAMS method were compared with those obtained by external standard method. RESULTS :The linear ranges of gardoside ,shanzhiside,gardenoside,genipin 1-gentiobioside,geniposide, ziyuglycoside Ⅰ,ziyuglycoside Ⅱ,narirutin,naringin,hesperidin and neohesperidin were 0.87-43.50,1.99-99.50,4.06-203.00, 7.35-367.50,12.97-648.50,28.98-1 449.00,3.79-189.50,1.57-78.50,18.05-902.50,0.66-33.00 and 14.38-719.00 μg/mL(all r>0.999 0). RSDs of precision ,repeatability and stability (24 h)tests were all less than 2%(n=6). The average recoveries were 96.90%-100.10%,and RSDs were 0.67%-1.74%(n=9). E-mail:289931673@qq.com There was no significant difference in the contents of 10 active components as gardoside between HPLC -QAMS method and external standard method in 10 batches of Yuhuai tablets (P>0.05). CONCLUSIONS :The HPLC-QMAS method established in this study is convenient and accurate. It can be used for the simultaneous determination of gardoside ,shanzhiside,gardenoside,genipin 1-gentiobioside,geniposide,ziyuglycoside Ⅰ,ziyuglycoside Ⅱ,narirutin,naringin,hesperidin and neohesperidin in Yuhuai tablets.
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The quality control of Epimedii Folium, composed of diverse constituents, is single at present. In view of this, an eva-luation method of 13 chemical constituents based on quantitative analysis of multi-components by single marker(QAMS) was established to further explore the composition differences of raw products and alcohol extracts in different batches and the influence of alcohol extraction on the composition, so as to provide a reference for improving the quality evaluation and control of Epimedii Folium. The fingerprints of different batches of Epimedii Folium were constructed by ultra-high performance liquid chromatography(UPLC) to evaluate the inter-batch consistency. The changes of the flavonoids in Epimedii Folium during alcohol extraction were analyzed based on determined levels and heat map, and the reasons for the changes were preliminarily discussed. With icariin, the quality control component recorded in the Chinese Pharmacopoeia, as the internal reference, the stability of the relative correction factors of chemical components under different conditions was investigated to obtain the relative correction factors. Then the determination results of QAMS and the external standard method were compared to verify the accuracy of QAMS. The results revealed that all batches of Epimedii Folium met the requirements specified in the Chinese Pharmacopoeia, and the fingerprints of Epimedii Folium from the same place of origin exhibited a high similarity. Raw products and alcohol extracts of Epimedii Folium could be clearly distinguished by prenylated flavonoids, which are potential biomarkers for quality control. Additionally, the glycoside hydrolysis in the alcohol extraction was preliminarily explored. The QAMS method has good accuracy, durability, and repeatability in determining 13 chemical components in Epimedii Folium under different experimental conditions. No significant difference in the results obtained by the two methods was observed. This study can provide a reference for comprehensive, rapid and reasonable quality evaluation of Epimedii Folium.
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Biomarcadores , Cromatografia Líquida de Alta Pressão , Medicamentos de Ervas Chinesas , Folhas de PlantaRESUMO
A novel HPLC method with the quantitative analysis of multi-components by single marker( QAMS) combined with the dual-wavelength method was developed for simultaneous determination of six flavonoids in Dendrobium officinale stems from different producing areas,cultivation and processing methods to clarify the main factors contributing to the different composition of flavonoids.The separation of six flavonoids was performed on a Shiseido Capcell PAK MGⅡ C18 column( 4. 6 mm×250 mm,5 μm) using a linear gradient elution system of acetonitrile-0. 1% formic acid aqueous solution. Schaftoside,isoschaftoside,vicenin-2,and glucosylvitexin were simultaneously analyzed using rutin as a reference standard at detection wavelength of 340 nm,and naringenin was determined at290 nm. The credibility and feasibility of QAMS method were validated and the results demonstrated that no significant differences were observed as compared with the external standard method. Finally,a total of 82 batches of D. officinale samples were analyzed and principal component analysis( PCA) and discriminant analysis were applied to distinguish and compare D. officinale samples from different producing areas,cultivation and processing methods. The results showed that the total flavonoid content of D. officinale stems cultivated in the simulated wild( attached tree cultivation or attached stone cultivation) was significantly higher than that in greenhouse bed cultivation. The content of flavonoids in simulated-wild D. officinale stems was higher in Jiangxi,Guizhou,Zhejiang,and Fujian provinces,while that in greenhouse bed cultivation was higher in Fujian and Zhejiang provinces. The content of naringenin was positively correlated with processing temperature,and that of the other five flavonoids was negatively correlated with processing temperature. PCA showed that wild-simulated D. officinale and greenhouse bed-cultivated D. officinale could be roughly divided into two clusters. The samples cultivated in the greenhouse bed were divided into four categories according to the geographical habitats. Wild-simulated D. officinale samples from Guizhou gathered together,and there was no obvious rule in samples from other producing areas. The established method simplified the determination method of flavonoids in D. officinale,and could provide the basis for effective quality control,cultivation and processing of D. officinale.
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Cromatografia Líquida de Alta Pressão , Dendrobium , Medicamentos de Ervas Chinesas , Flavonoides , Controle de QualidadeRESUMO
As a new strategy capable of uncovering the characteristics of traditional Chinese medicines, the quantitative analysis of multi-components by single-marker(QAMS) has been widely employed for the quality evaluation of Chinese medicinal materials, slices, and extracts. However, its application in the assessment of Chinese patent medicines is yet to be explored. By referring to the determination of three bufogenins in Bufonis Venenum by QAMS described in Chinese Pharmacopoeia(2020 Edition), this paper selected seven representative preparations containing Bufonis Venenum and explored whether the relative correction factors(RCFs) of cinobufagin(CB) to bufalin(BF) and resibufogenin(RB) could be directly used for the quality control of Bufonis Venenum-contained preparations. Based on the qualitative analyses under the same chromatographic conditions as used for toad venom, combing specificity test, five preparations such as Yatong Yili Pills, Houzheng Pills, Xiongdan Jiuxin Pills, Liushen Pills and Niuhuang Xiaoyan Pills, were expected to use validated RCFs for the direct determination of three components. Taking Houzheng Pills as an example, the methodological validation of bufalin, cinobufagin and resibufogenin was carried out, and the recoveries of bufalin, cinobufagin and resibufogenin were 90.64%-106.1%. The obvious difference was not observed between the contents of bufalin and resibufogenin in 24 batches of preparation samples by QAMS and external reference method. In the tested samples, the content of bufalin, cinobufagin and resibufogenin were 1.27-2.61, 2.44-5.66 and 0.988-3.16 mg·g~(-1) in 10 batches of Liushen Pills samples. The contents of bufalin, cinobufagin and resibufogenin were 0.760-1.32, 1.35-2.39 and 0.600-1.55 mg·g~(-1) in 10 batches of Houzheng Pills samples from three manufacturers. The obtained data contribute to improving the quality standard of Bufonis Venenum-contained preparations, and they also provide some ideas for the application of QAMS in the quality evaluation and control of Chinese patent medicines.