ABSTRACT
Objective:To identify the chemical constituents of Platycladi Cacumen<italic> </italic>before and after being carbonized. Method:Chemical constituents in 3 batches of Platycladi Cacumen and its carbonized products<italic> </italic>were identified and compared by ultra performance liquid chromatography-quadrupole-time of flight-mass spectrometry (UHPLC-QTOF-MS/MS). Chromatographic separation was performed on an ACQUITY UPLC BEH C<sub>18</sub> column (2.1 mm×100 mm, 1.7 μm) with 0.1% formic acid aqueous solution (A)- acetonitrile (B) as mobile phase for gradient elution (0-3.5 min, 5%-15%B; 3.5-6 min, 15%-30%B; 6-6.5 min, 30%B; 6.5-12 min, 30%-70%B; 12-12.5 min, 70%B; 12.5-18 min, 70%-100%B; 18-22 min, 100%B). The flow rate was 0.4 mL·min<sup>-1</sup> and the injection volume was 5 μL. Mass spectrometry was performed by an electrospray ionization, and the primary and secondary mass spectrometry data were collected with the full scan mode of positive and negative ions, the peaks containing MS/MS data were identified by self-established secondary mass spectrometry database and corresponding fragmentation law matching method. Result:A total of 77 and 76 substances with the same change trend were identified under positive and negative ion modes. After being<italic> </italic>carbonized, the disappeared components of Platycladi Cacumen were mainly amino acids, ketone aldehydes and other volatile components. Among newly produced components, there were 6 kinds of flavonoid aglycones (rhamnetin, 6,7,3'-trihydroxyflavone, 3,6,3'-trihydroxyflavone, 4'-hydroxy-2'-methyl-3,4,5-trimethoxychalcone, herbacetin and 3',5'-dimethoxy-3,5,7,4'-tetrahydroxyflavone), 3 kinds of coumarins (7-hydroxycoumarin, 7,8-dihydroxycoumarin and 8-acetyl-7-hydroxycoum-arin) and 3 kinds of benzoic acids (3-methylcatechol, pyrocatechol and chromone-3-carboxylic acid). There were a total of 40 flavonoids (quercitrin, quercetin, kaempferol, etc.) among these identified chemical constituents. Conclusion:There are significant quantitative and qualitative changes in the chemical compositions of Platycladi Cacumen after being carbonized. The flavonoids, the identified main active ingredients, can provide data reference for further study on the material basis of efficacy changes of Platycladi Cacumen<italic> </italic>before and after being carbonized.
ABSTRACT
In order to effectively solve the over-processing problem of Platycladi Cacumen Carbonisata, which was commonly used as a hemostatic drug in clinical application, we used the quantitative analysis method of multi-components by single marker(QAMS) in this study, with quercetin as internal reference to simultaneously determine the content of six flavonoids which can be used to control the internal quality of Platycladi Cacumen Carbonisata. Based on the comparison of QAMS and external standard method(ESM) results, the limit standards of contents were established as follows: isoquercitroside ≥0.002 0%, quercitroside ≥0.050%, quercetin ≥0.030%, kaempferol and amentoflavone both ≥0.010%, hinokiflavone ≥0.050%. Based on the color detection of Platycladi Cacumen and Platycladi Cacumen Carbonisata with different processing degrees, the law of influence of different processing degrees on the color of Platycladi Cacumen Carbonisata was found. A new external quality standard of Platycladi Cacumen Carbonisata was established by fitting curve of color recognition for the external quality control, based on which the standard ranges of ΔL~*, Δb~* and ΔE were-50.00--44.00, 6.00-11.00 and 45.00-50.00 respectively. Effective combination of established internal and external quality control standards by this study can be used to evaluate the processing degree and quality of Platycladi Cacumen Carbonisata more comprehensively and objectively, which can guarantee its clinical efficacy. At the same time, this study also provides reference and basis for further improving the quality control standard of Platycladi Cacumen Carbonisata.
Subject(s)
Chromatography, High Pressure Liquid , Drugs, Chinese Herbal , Flavonoids , Hemostatics , Quality ControlABSTRACT
Objective: To investigate the quality of Platycladi Cacumen carbonisata pieces in the market,then to explore control standard of "carbonizing retains characteristics" of Platycladi Cacumen.Method: The properties,water content and alcohol extract content of commercial Platycladi Cacumen carbonisata pieces were determined by the method in the 2015 edition of Chinese Pharmacopoeia.Thin layer chromatography(TLC) identification of quercetin and contents of quercetin and quercitin were determined.Result: The carbonizing degree of 9 batches of Platycladi Cacumen carbonisata pieces were heavier than which is specified in the 2015 edition of Chinese Pharmacopoeia.The conditions of TLC identification in the 2015 edition of Chinese Pharmacopoeia should be revised to avoid stratification;the carbonizing degree could affect the contents of quercetin and quercitin in Platycladi Cacumen carbonisata pieces;the simultaneous detection of quercetin and quercitin can be used as one of the quality control indexes of this carbonisata pieces.Conclusion: Most of commercial Platycladi Cacumen carbonisata pieces have the quality problem of excessive carbonizing degree,the established quality control standard of "carbonizing retains characteristics" can be used to effectively ensure the quality of Platycladi Cacumen carbonisata pieces.
ABSTRACT
Objective: To discuss the hemostasis of Platycladi Cacumen (PC) before and after processing on the blood heat and hemorrhage syndrome rat model induced by dry yeast. Methods: The SD rats were divided into five groups. Yunnan Baiyao was taken as the positive control drug. The rats in the control and model groups were fed with CMC-Na for 7 d, and the rats in other groups were fed with corresponding drugs simultaneously. On day 7, the blood heat and hemorrhage syndrome rat model was established. Indexes including the whole blood viscosity, plasma viscosity, thrombin time (TT), activated partial thromboplastin time (APTT), prothrombin time (PT), fibrinogen content (FIB), red blood cell (RBC), hemoglobin (HGb), hematocrit (HCT), blood platelet count (PLT), thrombocytocrit (PCT), mean platelet volume (MPV), and platelet distribution width (PDW) were detected, and the histopathological examinations of lungs among each group were compared. Results: Compared with the control group, the RBC, HGb, and HCT of rats in the model group increased significantly (P < 0.01), with significant increase in high, middle and low whole blood viscosities and plasma viscosity (P < 0.05, 0.01) of rats in the model group; TT and APTT were notably prolonged, while PT was notably shortened, with significant increase in FIB content (P < 0.01); Additionally, PLT, PCT, MPV, and PDW remarkably increased (P < 0.05, 0.01). After ig administration of PC or Platycladi Cacumen Carbonisatum (PCC), the low whole blood viscosities and plasma viscosity were remarkably decreased (P < 0.05, 0.01), and RBC, HGb, and HCT were remarkably decreased (P < 0.05, 0.01); TT and APTT of PC group were remarkably shortened (P < 0.05, 0.01), with remarkable decrease in FIB content (P < 0.05); TT and APTT of PCC group were significantly shortened (P < 0.01), with significant decrease in FIB content (P < 0.01); Meanwhile, PLT, PCT, MPV, and PDW of PCC group remarkably decreased (P < 0.05); The injury of lungs was also improved in both groups. Conclusion: Both PC and PCC show the effect of hemostasis by ameliorating hemorheological parameters and platelet parameters to different degrees, improving coagulation function mainly by acting on the endogenous coagulation. Simultaneously, they could ameliorate the damaged lungs, but the therapeutical effect is stronger after being carbonized.