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@#To establish a quantitative LC-MS/MS method for the simultaneous detection of components of Erlong Zuoci Pill in rat plasma: verbascoside, oxypaeoniflorin, echinacoside and benzoylpaeoniflorin, and to evaluate the pharmacokinetic characteristics of Erlong Zuoci Pill in rats, plasma samples were purified by protein precipitation using methanol as a protein precipitant.Methanol was used as the organic phase and aqueous solution containing 0.1% formic acid was used as the water phase.The quantitative analysis method of verbascoside, oxypaeoniflorin, echinacoside and benzoylpaeoniflorin was established in negative ion mode, and the validation of bioanalytical method was carried out.Healthy SD rats were selected, and 20 mL/kg (equivalent to the original drug 10 g/kg dose) of Erlong Zuoci Pill extract was administered by intragastric administration.The plasma concentration of the target compounds at different time intervals after administration was determined using the established method, and the pharmacokinetic parameters was calculated by the Phoenix WinNonlin8.3 software using the non-compartmental model.The method validation results showed that verbascoside (r = 0.993 7) and oxypaeoniflorin (r = 0.994 6) had good linear relationship in the concentration range of 0.5-50 ng/mL, echinacoside (r = 0.993 6) and benzoylpaeoniflorin (r = 0.992 6) had good linear relationship in the concentration range of 1-100 ng/mL.The relative standard deviations of the inter- and intra- batch precision of the four compounds were all less than 15%, and the inter- batch and intra- accuracies were between 85% and 115%.Extraction recovery, matrix effect and stability met the relevant requirements.After a single gavage of Erlong Zuoci Pill extract in rats, all the four compounds were rapidly absorbed and eliminated.Oxypaeoniflorin, echinacoside, and benzoylpaeoniflorin showed two peaks in their drug concentration-time curves.Compared with the other three compounds, oxypaeoniflorin has the highest concentration in rat plasma with cmax1 of (24.40 ± 4.78) ng/mL and cmax2 of (22.50 ± 2.70) ng/mL. The results show that the validation results of this method are in line with the guiding principles of biological sample analysis methods, and it can be used to evaluate the pharmacokinetic characteristics of Erlong Zuoci Pill extract in rats.
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Objective:To establish the HPLC fingerprint method for assessing the quality of Moutan Cortex, and to determine the contents of paeonol, paeoniflorin, gallic acid, hydroxyl-paeoniflorin and benzoyl-paeoniflorin of Moutan Cortex in different growth period. Methods:Diamonsil Plus C18 column (250 mm × 4.6 mm, 5 μm) was used with the mobile phase comprising acetonitrile-0.05% formic acid solution and the flow rate of 1.0 ml/min with gradient elution manner. The detected wavelength was 230 nm for paeoniflorin and benzoyl-paeoniflorin, 267 nm for gallic acid, 258 nm for hydroxyl-paeoniflorin and 274 nm for paeonol with temperature column of 25 ℃. Then putting chromatograms into Similarity Evaluation System for Chromatographic Fingerprint of Chinese Materia Medica (2012A) to evaluate the similarity of Moutan Cortex in different growth period; then putting peak area data into SPSS software for cluster analysis and the clustering effect was determined. Results:The HPLC fingerprints established with this method has 23 shared peaks and 5 of them were identified, namely, paeonol, paeoniflorin, gallic acid, hydroxyl-paeoniflorin and benzoylpaeoniflorin. The similarity of Moutan Cortex in different years was between 0.850-0.991. This method has good linear relation ( r≥0.999 5), RSDs of precision, stability tests and reproducibility were lower than 1.6% ( n=6). Different growth periods of Moutan Cortex have obvious influence on the concentration of five compounds. Conclusion:This method is useful to evaluate and discriminate Moutan Cortex at different growth periods so as toprovide scientific reference on the harvest,industrialization and evaluation of Moutan Cortex.
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Objective: To establish chemical fingerprint and multi-components determination of 15 batches of Taohong Siwu Decoction (TSD), and provide reference for the improvement of its quality control. Methods: The separation was performed on Thermo Hypersil Gold C18 column (250 mm × 4.6 mm, 5 μm) for gradient elution with methanol-0.1% phosphoric acid aqueous solution, flow rate 1.0 mL/min, column temperature 30 ℃, and detection wavelength 225 nm. The HPLC fingerprint was established and evaluated by the similarity evaluation system of TCM (version 2012A), and the difference of chemical information between 15 batches of different samples was evaluated by cluster analysis. Furthermore, the content of the nine active components in the sample was determined by HPLC multi-component wavelength switching method, with the partial least squares-discriminant analysis (PLS- DA) by SIMCA 14.1 software to find significant components of the quality between the batches. Results: The HPLC fingerprint of 15 batches of TSD was established. The similarity was greater than 0.96, and 35 common peaks were identified as gallic acid, chlorogenic acid, amygdalin, albiflorin, hydroxysafflor yellow A, paeoniflorin, ferulic acid, senkyunolide I, benzoylpaeoniflorin and ligustilide (corresponding to peaks 2, 8, 9, 13, 14, 15, 16, 25, 31, and 32). The linearity relationships of gallic acid, 5-hydroxymethylfurfural, chlorogenic acid, albiflorin, hydroxysafflor yellow A, paeoniflorin, ferulic acid, verbascoside, and senkyunolide I (r ≥ 0.999 6) were good. The results of content determination respectively were 187.5-344.4, 6.2-154.8, 413.2-459.2, 507.5-923.5, 873.8-1 202.0, 2 122.3-2 782.9, 59.2-121.3, 6.4-26.9, and 38.9-79.6 μg/g, respectively, including higher content of paeoniflorin, hydroxysafflor yellow A, and albiflorin. Furthermore, 15 batches of samples from different origins were classified into three categories. Using PLS-DA analysis, the content determination result showed that paeoniflorin, albiflorin, hydroxysafflor yellow A, and 5-hydroxymethylfurfural were the four components that affected the quality of different batches of TSD. Conclusion: HPLC fingerprint combined with multi-components determination is suitable for quality control and evaluation of TSD preparation.
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OBJECTIVE: To establish a quantitative analysis of multi-components by single-marker (QAMS) method for simultaneous determination of senkyunolide H, senkyunolide I, senkyunolide A, ligustilide, oxypaeoniflorin, albiflorin, paeoniflorin, benzoylpaeoniflorin and α-cyperone in Renshen Nüjin pills, in order to provide basis for studying its quality standards.METHODS: The analysis of the methanol extract of Renshen Nüjin pills was performed on Agilent Zorbax SB C18 column (4.6 mm×250 mm,5 μm), with mobile phase composed of methanol-acetonitrile (2∶1)-0.1% phosphoric acid solution at a flow rate of 0.9 mL•min-1 in gradient elution mode. The column temperature was maintained at 30 ℃, and the detection wavelengths were set at 280, 230 and 242 nm. Paeoniflorin was selected as the internal standard, and the relative correlation factors (RCF) of senkyunolide H, senkyunolide I, senkyunolide A, ligustilide, oxypaeoniflorin, albiflorin, paeoniflorin, benzoylpaeoniflorin and α-cyperone were determined by HPLC. The accuracy and feasibility of the method were validated by comparing the results of QAMS method and external standard method.RESULTS: The standard curves of senkyunolide H, senkyunolide I, senkyunolide A, ligustilide, oxypaeoniflorin, albiflorin, paeoniflorin, benzoylpaeoniflorin and α-cyperone had good linear relationship in the ranges of the tested concentrations. The precision, stability and repeatability complied with the requirements of methodology. The recoveries were 97.38%, 98.16%, 98.84%, 99.63%, 97.04%, 99.14%, 100.04%, 96.93% and 98.48%, RSDs were 1.38%, 1.18%, 0.97%, 0.86%, 1.68%, 1.30%, 0.57%, 1.32% and 1.19%, respectively. No significant differences were observed in the determination results by QAMS method and external standard method.CONCLUSION: The QAMS method can be used for the content determination and quality control of the nine components in Renshen Nüjin pills.
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Objective To establish a quantitative analysis of multi-components with a single-marker (QAMS) method for the simultaneous determination of oxypaeoniflorin, albiflorin, paeoniflorin, benzoylpaeoniflorin, cinnamic acid, cinnamaldehyde, saikosaponin a, and saikosaponin d in Guishao Zhenxian Tablets (GZT). Methods The separation was performed on a Thermo ODS C18 column (250 mm × 4.6 mm, 5 μm), with the mobile phase consisting of acetonitrile-0.1% phosphate acid solution for gradient elution. The column temperature was 25 ℃, and flow rate was 1.1 mL/min. Using paeoniflorin as internal reference substance, the relative correlation factors of oxypaeoniflorin, albiflorin, benzoylpaeoniflorin, cinnamic acid, cinnamaldehyde, saikosaponin a, and saikosaponin d were calculated and established by HPLC. The results were compared with those obtained by the external standard method to verify the rationality, feasibility, and repeatability of QAMS method. Results Oxypaeoniflorin, albiflorin, paeoniflorin, benzoylpaeoniflorin, cinnamic acid, cinnamaldehyde, saikosaponin a, and saikosaponin d had good relations within the ranges of 2.63-65.75 μg/mL (r = 0.999 7), 9.67-241.75 μg/mL (r = 0.999 8), 13.59-339.75 μg/mL (r = 0.999 5), 1.79-44.75 μg/mL (r = 0.999 4), 2.45-61.25 μg/mL (r = 0.999 1), 7.98-199.50 μg/mL (r = 0.999 7), 2.79-69.75 μg/mL (r = 0.999 3), and 2.51-62.75 μg/mL ( r= 0.999 5), respectively. The recovery rates were 98.64%, 99.33%, 100.02%, 97.42%, 96.95%, 98.75%, 98.21%, and 97.81%, RSDs were 0.89%, 1.19%, 1.00%, 1.33%, 1.51%, 0.99%, 1.43%, and 0.80%, respectively. The relative correlation factors values of oxypaeoniflorin, albiflorin, benzoylpaeoniflorin, cinnamic acid, cinnamaldehyde, saikosaponin a, and saikosaponin d to paeoniflorin were 0.520 9, 1.086 9, 0.476 8, 0.626 1, 0.802 1, 0.713 8, and 0.367 0, respectively. There were no significant difference in assay results between QAMS and the external standard method. Conclusion The QAMS method is feasible and credible, and could be used to determine oxypaeoniflorin, albiflorin, paeoniflorin, benzoylpaeoniflorin, cinnamic acid, cinnamaldehyde, saikosaponin a, and saikosaponin d in Guishao Zhenxian Tablets for the quality control.
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Objective: A high performance liquid chromatographic method was established to simultaneously quantify the gallic acid, methyl gallate, albiflorin, paeoniflorin, 1,2,3,4,6-O-pentagalloylglucose, benzoylpaeoniflorin of red peony root, and white peony root. Methods: The content of six components from 32 batches of samples collected from different product areas and markets was determined and compared by means of this established method. The mobile phase comprised of acetonitrile and water containing 0.1% phosphoric acid. Flow rate was 0.8 mL/min and column temperature was 30℃. Chromatography was monitored at 230 and 270 nm. Results: The correlation coefficients between concentration and chromatographic peak area of gallic acid, methyl gallate, albiflorin, paeoniflorin, 1,2,3,4,6-O-pentagalloylglucose, and benzoylpaeoniflorin, respectively were over 0.9999 in the ranges of 0.7830-50.10, 1.094-70.00, 2.367-151.5, 7.823-500.6, 3.125-200.0, and 0.3480-22.25 μg/mL. The average recoveries of the six compounds were 102.1%, 98.88%, 99.25%, 100.4%, 104.2%, and 100.6%, respectively. Conclusion: All the contents of albiflorin, 1,2,3,4,6-O-pentagalloylglucose, gallic acid, and methyl gallate show a remarkable difference between Paeoniae Rubra Radix and Paeoniae Alba Radix. And the latter usually contains more monoterpene glycosides than the former dose except paeoniflorin. On the other hand, Paeoniae Rubra Radix, especially originating from Paeoniae veitchii always contains more polyphenols than Paeoniae Alba Radix dose.
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To investigate the chemical constituents from the ethyl acetate and n-butanol extact of Guizhi Fuling Capsule. The compounds were isolated by chromatography on silica gel, Sephdex LH-20 columns, and prep-HPLC. The chemical structures were identified by NMR methods, respectively. Eleven compounds were isolated from the ethyl acetate extact. They were identified as benzoylpaeoniflorin (1), albiflorin R1 (2), paeonidanin A (3), 4-methylbenzoylpaeoniflorin (4), paeonidanin B (5), 4-O-methylgalloylpaeoniflorin (6), and paeoniflorin B (7). Four compounds were isolated from the n-butanol extact and were identified as isomaltopaeoniflorin (8), paeoniflorin (9), oxypaeoniflorin (10), and albiflorin (11). Compounds 1-8 are isolated from Guizhi Fuling Capsula for the first time, and compounds 1-11 belong to the category of peaoniflorin.
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Objective: To study the absorption and transport characteristic of paeoniflorin (PF), oxypaeoniflorin (OP), benzoylpaeoniflorin (BP), tetraacetylpaeoniflorin (TP), pentaacetylpaeoniflorin (PP), and pentacacetylalbiflorin (PA) in human colon adenocarcinoma cell line Caco-2 cell monolayer model. Methods: The Caco-2 cell monolayers were used as an intestinal epithelial cell model. The permeability of the tested compounds from apical (AP) side to basolateral (BL) side or from BL side to AP side was evaluated. The concentration of the tested compounds was measured by HPLC coupled with UV detector. The transport parameters and apparent permeability coefficients (Papp) were calculated, and the Papp values were compared with the reported values for model compounds, Propranolol and Atenolol. Results: The Papp values of PF in the bi-directional transport and atenolol were at the quantitative degree of 10-7 cm/s. Whereas those of OP, BP, TP, PP, and PA were between atenolol and propranolol used as a control substance for low and high permeability, respectively. The absorption and transport of the tested compounds were concentration-dependent at the concentration range of 10-200 μmol/L for PF, OP, and BP, 10-150 μmol/L for TP and PA, and 10-100 μmol/L for PP. Conclusion: The six tested compounds could be absorbed across the intestinal epithelial cells by passive diffusion mechanism. PF is poorly absorbed compound and OP, BP, TP, PP, and PA are moderately absorbed compounds. BP has a role to promote atenolol uptake transporters in Caco-2 cell monolayer model.