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ObjectiveThe pulmonary edema (PE) model where the disease was located in the viscera was established according to the treatment principle that patients with the disease location inside should be treated with descending and sinking medicine, combined with changes in the disease tendency, to verify the scientificity of descending and sinking properties of Descurainiae Semen Lepidii Semen (SD), and to preliminarily elucidate the scientific connotation of descending, ascending, floating and sinking of Chinese medicine. MethodSixty male SD rats were randomly divided into normal control group, model group (20 mg·kg-1), positive drug group (dexamethasone, 0.075 mg·kg-1) and SD low (1.167 g·kg-1), medium (2.334 g·kg-1)and high (4.668 g·kg-1) dose groups. The PE model was established by intrapleural injection of 1% carrageenan (2 mL·kg-1). The evaluation indexes (lung autopsy, amount of pleural effusion, number of white blood cells, lung wet/dry weight ratio, lung water content and lung permeability) were tested to determine the optimal dose of SD decoction for intervention of PE. The relevant indexes of the five major systems (central nervous system, respiratory system, circulatory system, digestive system and urinary system) closely related to the body's Qi movement were detected and changes in the disease tendency in PE rats were analyzed, to determine the descending, ascending, floating and sinking properties of SD. In addition, histopathological changes were investigated by hematoxylin-eosin (HE) staining, and types and numbers of inflammatory cells and mediators were detected to preliminarily explore the mechanism of SD in improving PE. ResultCompared with the conditions in the normal control group, the amount of pleural effusion, number of white blood cells in pleural effusion, lung wet/dry weight ratio, lung water content and lung permeability were increased (P<0.01) in the model group, where the rats presented cough, dyspnea, shortness of breath and arched back, and a small number of them had wet nose and bubble liquid in nostrils. In the autopsy of the rats in the model group, the lungs were enlarged or accompanied by congestion and plenty of pink bubble liquid appeared at the trachea. Compared with the conditions in the model group, SD reduced the amount of pleural effusion, number of white blood cells in pleural effusion, lung coefficient, lung wet/dry weight ratio and lung water content (P<0.01), and improved pulmonary edema symptoms such as damage, inflammation and infiltration around the lumen, thickening of the trachea, and accumulation of edema fluid, and the SD medium dose group had the best effect on the treatment of PE. In terms of respiratory system, compared with the normal control group, the model group had reduced latent time of cough and asthma (P<0.05, P<0.01) and elevated number of cough and wheezing (P<0.01). The three SD groups had increased latent time of cough and asthma and decreased number of cough and wheezing (P<0.01). In terms of urinary system, compared with the normal control group, the model group presented decreased urine volume. The SD low, medium and high dose groups had increased urine volume (P<0.05, P<0.01), but they had no effect on perspiration. In terms of digestive system, compared with the conditions in the normal control group, the gastric residual rate and gastrin (GT) level were increased (P<0.05, P<0.01), and the gastric emptying rate and small intestine transit rate were decreased (P<0.01). The SD low dose group had elevated small intestine transit rate (P<0.01), and the SD high and medium groups had enhanced gastric emptying rate and small intestine transit rate (P<0.01), reduced gastric residual rate, lowered GT level to promote gastrointestinal movement and transportation (P<0.01), and increased motilin (MTL) level to promote gastric emptying in rats (P<0.05, P<0.01). In terms of circulatory system, compared with the normal control group, the model group displayed reduced left ventricular ejection fraction (LVEF), left ventricular short axis shortening rate (LVFS) and cardiac output (CO) (P<0.01), and elevated tendency of heart rate, systolic blood pressure (SBP, P<0.01) and diastolic blood pressure (DBP, P<0.05). Compared with the model group, the SD low dose group increased LVEF and decreased DBP (P<0.05), while the SD medium dose group increased LVEF, LVFS, CO and SBP (P<0.01) and decreased DBP (P<0.05), and the SD high dose group increased LVFS (P<0.01) and decreased SBP (P<0.01) and DBP (P<0.05). In terms of central nervous system, compared with the conditions in the normal control group, the standing times dropped in the model group (P<0.01). SD reduced the movement distance, movement time, standing times and activity time in the center of the open field, and increased the rest time and activity time at the edge of the open field (P<0.05, P<0.01). Moreover, compared with the normal control group, the model group had serious inflammatory infiltration around the lung lumen, thickened trachea with accumulated edema fluid, seriously damaged lung tissue, increased number of white blood cells and percentage of neutrophils in blood (P<0.01), elevated percentage of monocytes, interleukin-4 (IL-4), immunoglobulin E (IgE) level and reactive oxygen species (ROS) level in lung tissue (P<0.05,P<0.01), and decreased IFN-γ in alveolar lavage fluid (P<0.01). Compared with the model group, SD decreased the number of white blood cells, neutrophil accumulation, pulmonary congestion and interstitial edema, IFN-γ and IL-4 levels in alveolar lavage fluid and ROS level in lung tissue, and increased IgE level (P<0.05, P<0.01). ConclusionSD had a significant improvement effect on PE model where the disease was located in the viscera. It could regulate the excretion of water by purgation, regulate Qi movement and expel Qi stagnation by descending and sinking lung Qi, and promote purification and descent of lung qi to make Qi movement downward. This indicated SD had the descending and sinking properties. The medium dose of SD decoction exerted the best effect, and its mechanism of action might be through regulating the neutrophil inflammatory response.
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A novel sort of nano-component was extricated and isolated from Descurainiae Semen Carbonisatum (DSC), and its hemostatic component was considered through pharmacological experiments. A muffle furnace was used to prepare DSC at 250 ℃, 300 ℃ and 350 ℃, and the DSC dialysate at each temperature was obtained by the extraction and separation method. Low-resolution transmission electron microscopy (TEM) and high-resolution transmission electron microscopy (HR-TEM) were utilized to characterize the nano-components. Ultraviolet spectroscopy (UV-Vis), fluorescence spectroscopy (FL) and infrared spectroscopy (FTIR) were utilized to measure its optical characteristics and functional group information. The anti-hemorrhagic effects were evaluated by liver bleeding tests and the related hemostatic mechanisms of the obtained nano-components were further assessed by detecting blood coagulation and PLT quantity to discuss the hemostasis mechanism. The experiments complied with the Animal Ethics Committee of Beijing University of Chinese Medicine. TEM results showed that there was a novel type of nano-component in the DSC dialysate bag, which was named DSC nano-components (DSC-NCs). The experimental results of liver bleeding in mice showed that DSC-NCs prepared at 250 ℃, 300 ℃, and 350 ℃ could reduce the bleeding time of mice liver. Among them, DSC-NCs prepared at 350 °C had the best effect. In addition, DSC-NCs prepared at various temperatures can also reduce the prothrombin time (PT) value, increase the fibrinogen (FIB) value and the platelet (PLT) value to varying degrees. DSC-NCs have a certain hemostatic effect, which may be related to the activation of the exogenous coagulation system, the increase of FIB value and the increase of platelet content. This provides a new research direction for exploring the treatment of bleeding diseases, and provides a new perspective for the potential application of DSC-NCs in the medical field.
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To establish a content determination method for quality control of the pieces and standard decoction of honey-fried Descurainiae Semen. Standard decoction of honey-fried Descurainiae Semen was prepared with standardized process, and high performance liquid chromatography coupled with diode-array detector(HPLC-DAD) was used to detect its characteristic fingerprint and determine the content of quercetin-3-O-β-D-glucose-7-O-β-D-gentiobioside. In addition, the transfer rate, dry extract rate and pH value were calculated. The results showed that the established method had a high accuracy. The content of quercetin-3-O-β-D-glucose-7-O-β-D-gentiobioside in 13 batches of standard decoction was 0.03-0.12 mg·mL~(-1); the transfer rate was 13.4%-23.1%; the rate of extracts was 1.9%-5.5%, and the pH was between 5.4-5.9. The similarity coefficients were all greater than 0.85, indicating good homogeneity for the different batches of decoction. There were 7 common peaks in the characteristic chromatogram, one of which was quercetin-3-O-β-D-glucose-7-O-β-D-gentiobioside. In this paper, the established content determination and quality evaluation method for Descurainiae Semen pieces and decoction was simple, rapid and reproducible, providing reference for the quality control of honey-fried Descurainiae Semen pieces, standard decoction and its preparations.
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Brassicaceae/química , Cromatografía Líquida de Alta Presión , Medicamentos Herbarios Chinos/normas , Glucósidos/análisis , Miel , Control de Calidad , Quercetina/análogos & derivadosRESUMEN
Objective:HPLC for the determination of five components in Descurainiae Semen was established to investigate the change rule of contents of five components in the herb before and after being processed. Method:The contents of quercetin-3-O-β-D-glucose-7-O-β-D-gentiobioside(QGG),sinapic acid,quercetin-3-O-β-D-glucopyranoside(QG),isorhamnetin-3-O-β-D-glucopyranoside(IG) and 1,2-di-O-sinapoyl-β-D-glucopyranose(SG) was determined simultaneously by HPLC,the change rule of contents of these components before and after processing and its reasons were analyzed.Waters Symmetry® C18 column(4.6 mm×250 mm,5 μm) was employed,and the mobile phase was acetonitrile(A)-1% acetic acid aqueous solution(B) for gradient elution(0-5 min,5%-10%A;5-15 min,10%-13%A;15-23 min,13%-20%A;23-43 min,20%-25%A;43-46 min,25%A;46-55 min,25%-40%A;55-60 min,40%A).The flow rate was 1 mL·min-1.The detection wavelength was set at 265 nm,the injection volume was 10 μL,and the column temperature was 30℃. Result:Contents of the above five components before processing were 0.114 3%,0.041 6%,0.036 2%,0.022 6% and 0.097 6%;after processing,the contents of these five components turn into 0.107 4%,0.011 3%,0.034 2%,0.021 9% and 0.058 9%;among them,the contents of these five components decreased by 6.04%,72.84%,5.52%,3.10% and 39.65%,respectively. Conclusion:The contents of these five components in Descurainiae Semen is reduced to varying degrees after processing.The contents of phenylpropanoids decrease significantly,while the contents of flavonoid glycosides do not change significantly.
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An UPLC-MS/MS method simultaneously determining contents of quercetin-3-O-β-D-glucose-7-O-β-D-gentiobioside and sinapic acid in rats' plasma was firstly established and applied to study the effects of processing on pharmacokinetics of Descurainiae Semen's active constituents. Complantatoside A as internal standard,methanol used for protein precipitation,the method was validated according to the instructions of CFDA. Rats' plasma was collected after being oral administrated equal dosage of 60% ethanal extract of raw or processed Descurainiae Semen at different point of time,then the concentrations were determined to calculate pharmacokinetic parameters using DAS 3. 2. 6. And the parameters were analyzed using SPSS 23. 0,meantime the concentration-time curve was drawn.The results showed that processing had no effects on the pharmacokinetics of QGG,but could improve the absorption of sinapic acid and slow down the excretion.
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Animales , Ratas , Cromatografía Líquida de Alta Presión , Cromatografía Liquida , Medicamentos Herbarios Chinos/farmacocinética , Ratas Sprague-Dawley , Espectrometría de Masas en TándemRESUMEN
AIM To compare the diuretic effects of Descurainiae Semen (DS),Coicis Semen (CS) and Plantaginis Semen (PS),and to observe their mechanical similarities and differences.METHODS Metabolic cage method was applied to investigating the diuretic effects of DS (2.34 g/kg),CS (7.00 g/kg) and PS (3.50 g/kg),whose diuretic mechanisms were studied by cryoscopic method,enzyme method,ion selective electrode method,ELISA and Western blot.RESULTS DS,CS and PS obviously increased saline-loaded rats' urine volume (P < 0.05) and reduced their body weight (P < 0.05) after administration for 7 h,which exhibited no significant effects on urine creatinine (Ucr),serum creatinine (Scr) and blood urea nitrogen (BUN)(P > 0.05).DS showed its diuretic effect mainly by lowering the levels of serum Na +,atrial natriuretic peptide (ANP),brain natriuretic peptide (BNP),pulmonary AQP3,renal AQP1 and AQP2;CS showed its diuretic effect mainly by reducing the levels of serum Na +,Cl-,ANP,pulmonary AQP3,gastric AQP3,renal AQP1 and AQP2;PS showed its diuretic effect mainly by decreasing the levels of serum Na + and Cl-,pulmonary AQP3,gastric AQP3,renal AQP1 and AQP2.CONCLUSION Three medicinal materials have significant diuretic effects without obvious renal harm.DS categorized as a medicinal plant of lung channel and tropism has a great effect on netriuretic peptide system,CS categorized as a medicinal plant of spleen channel and tropism has a great effect on gastric AQP3,and PS categorized as a medicinal plant of renal channel and tropism has a great effect on renal AQPs.
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AIM To investigate the effects of frost-like powder,steaming,stir-frying with wine,stir-frying with salt-water and stir-frying with vinegar on compositions and contents of fatty oils in Descurainiae Semen.METHODS Descurainiae Semen was processed by five methods,respectively.The fatty oils were extracted from various processed products by petroleum ether,which were then derivatized.GC-MS was adopted in the qualitative identification and quantitative determination.RESULTS Except for frost-like powder,various processing methods could increase the extraction rate of fatty oils.Compared with raw product,the quantities of fatty oils in various processed products were decreased,together with the increased contents.The main compositions of obtained fatty oils were unsaturated fatty acids,whose contents in various processed products (except stir-frying with vinegar product) were higher than those in the raw product.CONCLUSION The effects of different processing methods on compositions and contents of fatty oils in Descurainiae Semen show obvious differences,among which the processing effect of stir-frying with vinegar is not satisfactory.