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This study aimed at investigating the antiviral constituents from the active fractions of Tong-An (TA) injection.In this study,the active constituents of TA injection were screened by LPS-induced PGE2 production mode to detect the contents of PGE2.The chemical constituents were isolated by HP-20 macroporous resin,silica gel column chromatography,ODS column chromatography,Sephadex LH-20 column chromatography and preparative and semi-preparative HPLC.The structures were identified by spectral data and physicochemical property.As a result,the 95% ethanol eluate of TA injection on the macroporous adsorption resin column was proved to be the active fraction of TA injection.Seventeen compounds were isolated from TA injection and identified as syringaresinol (1),N-Trans-Feruloyltyramine (2),chelerythrine (3),sinomenine (4),coptisine (5),sanguinarine (6),chelidoniny (7),magnoflorine (8),allocryptopine (9),protopine (10),farrerol (11),dihydrosanguinarine (12),heptadec-(9Z)-enoic acid (13),chlorogenic acid (14),cryptochlorogenin acid (15),3,5-di-O-caffeoylquinic acid (16) and 4,5-di-O-caffeoylquinic acid (17).PGE2 inhibitory activities of these compounds were determined,among which six compounds presented inhibitory activities against PGE2.It was concluded that all the isolated compounds from TA injection were firstly reported with the favorable inhibitory activities of compounds 2,5,9,10,11,12 against PGE2.
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This article was aimed to study the effect of geniposide in hyperuricemia mice. Different doses (50, 100, 200 mg·kg-1) of geniposide were administrated to hyperuricemia mice induced by potassium oxonate by gavage for seven consecutive days. Then, serum uric acid (SUA), urinary uric acid (UUA) and the hepatic xanthine oxidase ac-tivities (XOD) of mice were detected. The results showed that the middle- and high-dose groups of geniposide re-duced the level of SUA significantly (P<0.01). It was concluded that geniposide can reduce the level of SUA in hy-peruricemia mice by promoting UUA excretion.
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The purpose of this study is to investigate the impacts of bicyclo-monoterpene promoters (i.e., borneol and camphor) on the in vitro permeation of ligustrazine (LGT) through the hairless porcine dorsal skin. Fourier transform-infrared (FT-IR), scanning electron microscope (SEM) and transdermal delivery kinetics in vitro were performed to investigate the effect of the promoters on the biophysical changes to the stratum corneum (SC), the surface changes to porcine skin and the in vitro percutaneous fluxes of ligustrazine through procine skin. FT-IR results revealed that the peak shift and the decrease in the peak area with borneol were higher than those with camphor. SEM studies demonstrated that the morphological change to SC was related to the chosen enhancer. It was observed that the SC lipid extraction with borneol and camphor led to disruption of the SC and the scutella desquamation. Apparent density (AD) was utilized to describe the desquamation extent of the scutella. Percutaneous fluxes of ligustrazine through porcine skin were evaluated in vitro by the Franz-type diffusion cells. Use of borneol led to greater penetration of ligustrazine across porcine skin. It was shown that the permeation enhancement mechanism of bicyclo-monoterpenes to ligustrazine included extracting and disordering lipids which involved the shift changes in C-H stretching and H-bonding action between enhancers and cermaide. The penetration capability of the hydroxy groups in bicyclo-monoterpenes was better than that of the ketone groups.
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AIM: To compare the dissolution of asperosaponin Ⅵ between the ultra-micro powder and the fine powder of Radix Dipsaci.METHODS : The real contents,in vitro release and releasing rate of asperosaponin Ⅵ were determined by HPLC for the ultra-micro powder and the fine powder.RESULTS: In the ultra- micro powder and the ordinary powder,the real content of asperosaponin Ⅵ were 4.87%,4.74%,respectively; in vitro release in 1 h were 48.2 mg/g,47.5 mg/g,respectively; releasing rate parameter T_(0.9) were 0.23 min,10.41 min,respectively.CONCLUSION: The ultra- micro porphyrization could not influent the real content and in vitro release of asperosaponin Ⅵ in Radix Dipsaci.But it could improve the releasing rate of asperosaponin Ⅵ.
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AIM:To compare the dissolution of asperosaponin Ⅵ between the ultra-micro powder and the fine powder of Radix Dipsaci.METHODS:The real contents,in vitro release and releasing rate of asperosaponin Ⅵwere determined by HPLC for the ultra-micro powder and the fine powder.RESULTS:In the ultra-micro powder and the ordinary powder,the real content of asperosaponin Ⅵ were 4.87%,4.74%,respectively;in vitro release in 1 h were 48.2 mg/g,47.5 mg/g,respectively;releasing rate parameter T_ 0.9 were 0.23 min,10.41 min,respectively.CONCLUSION:The ultra-micro porphyrization could not influent the real content and in vitro release of asperosaponin Ⅵ in Radix Dipsaci.But it could improve the releasing rate of asperosaponin Ⅵ.
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AIM: To establish HPLC fingerprint of Achyranthes bidentata BI..METHODS: Ten batches of Achyranthes bidentata BI from different habitats were measured by RP-HPLC,and their fingerprints were obtained.C18 column was used.Acetonitrile and water gradient elution were adopted as a mobile phase,the flow rate was 1.0 mL/min,the detection wavelength was set at 250 nm,the injection volume was 20 ?L,and the column temperature was at 30 ?C.RESULTS: Fifteen common peaks were confirmed in fingerprints.CONCLUSION: This method is simple,credible and of good reproducibility,can be used for the quality control of Achyranthes bidentata BI..
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AIM: To explore the relationship of the decrease of the catharticizing action and the conjugated anthraquinone after Radix et Rhizoma Rhei was in the process of stirred-fry-with wine by comparing the content of conjugated anthraquinone among different processing Radix et Rhizoma Rhei in the solution decocted by water and extrected by methanol. METHODS: The spectrophotometer was used to assay the content of free anthraquinone and conjugated anthraquinone of different proccssing Rudix et Rhizoma Rhei in the solution decocted by water and extracted by methanol. RESULTS: In the solution decocted by water there was little difference in free anthraquinone between the raw and the processing products, however, the conjugated anthraquinone of the precessing product was much higher than the raw. CONCLUSION: The decrease of the conjugated anthraquinone can’t fully account for the reduction of the catharticizing action of Radix et Rhizoma Rhei in the process of stirred-fry with wine. The real cause needs to be explored in many aspects.
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AIM: To optimize the processing of Radix Paeoniae Alba stir-frying with vinegar. METHODS: UV-spectrophotometry was applied to determine the total paeoniflorin content, which was extracted by water from processed Radix Paeoniae Alba(stri-frying with vinegar) and the processing was designed by orhtogonal design. RESULTS: The best sample was treated at 130~?C for 40 min by adding 20% vinegar. METHODS: Processing of Radix Paeoniae Alba(stir-frying with vinegar) has a practical applicability.
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AIM: To review variety of astragloside Ⅳ in Radix Astragali of different sources and different processed products. METHODS: HPLC-ELSD was used to determine astragloside Ⅳ in Radix Astragli. RESULTS: The distinction of astragloside Ⅳ in Radix Astragali of different sources and different processed products was obvious. The astragloside Ⅳ content reduced after processing. CONCLUSION: Radix Astragli of Henan Province has the highest astragloside Ⅳ content. And it is suggested that crude medicine should be used when astragloside Ⅳ is used as therapeutic component.
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AIM: To optimize the macroporous resin for separating naringin. METHODS: Putting the extract fluid of Citrus grandis Tomentosa into pillar was adsorbed with macroporous resin, then washed by alcohol with the different concentration in succession to determine the content of naringin by HPLC. RESULTS: The six macroporous resins' effects differ greatly. CONCLUSION: HPD450 macroporous resin is effective to separate the naringin.