1.Optimization of Extraction Technique of Changfukang A Capsule
Chinese Journal of Information on Traditional Chinese Medicine 2006;0(12):-
Objective To optimize the extraction technique of Changfukang A capsule. Methods A RP-HPLC method for Hesperidin was established. With the water extraction rate and Hesperidin as the parameters, the extract condition of Changfukang A capsule was optimized by orthogonal design. Results The optimized extraction technique was as follows: The medicinal material was extracted for 3 times with total 8 times of water, 1.5 hours for each time. Conclusion The optimal preparation prosess was validated to be stable and feasible.
2.Screening the Effective Component of Rhizoma Tupistrae Chinensis with Inhibiting Angiogenesis
Maixia MENG ; Zhifeng YANG ; Langchong HE
Chinese Journal of Information on Traditional Chinese Medicine 2006;0(01):-
Objective To discover the effective component of Rhizoma Tupistrae chinensis with inhibiting angiogenesis. Methods Several parts of Rhizoma Tupistrae chinensis were obtained by using different extraction solvents. They were screened by the model of ECV304 cell membrane chromatography with anti-VEGF antibody as a control drug. The inhibition of effective component (ZGQ-C) on ECV304 proliferation in vitro was examined by MTT assay. Results The inhibition rate (40.51%,51.11%,63.54%,74.32%,81.26%) was correlated with the ZGQ-C concentration. The ECV304 cell had significantly changed in morphology. Conclusion The ZGQ-C is an effective component for inhibiting angiogenesis. The screening results on the model have a good correlation with that of MTT assay.
3.Analysis of Polysaccharide Content in Different Processed Products of Polygonatum from Shaanxi
Tingting SUN ; Hong ZHANG ; Jianfeng LIU ; Maixia MENG ; Ganghu REN ; Fangfang LEI
China Pharmacist 2016;19(2):232-234
Objective: To study the change rule of polysaccharide content in different processed products of polygonatum from Shaanxi. Methods:The content of polysaccharides was determined by UV spectrophotometry at the wavelength of 580nm after colored by 0. 2% anthranone-sulfuric acid solution. Results: The content of polysaccharide was significantly different among different pro-cessed products of polygonatum, and that in the raw slices was the highest followed by alcohol evaporate slices, while that in the steamed samples was the lowest. Furthermore, the extract and the content in the different processed samples of polygonatum showed a similar regularity. Conclusion:The results of the research can provide reference for the quality control and processing methods of po-lygonatum slices from Shannxi.
4.Analysis of Diosgenin Content in Different Processed Products of Polygonatum from Shaanxi
Tingting SUN ; Hong ZHANG ; Ye LI ; Chunliu WANG ; Zhenzhen HAO ; Maixia MENG ; Ganghu REN
China Pharmacist 2017;20(1):158-160
Objective:To study the effects of different processes on diosgenin content in polygonatum from Shaanxi. Methods:The content of diosgenin was determined by HPLC on a column of Woburn C18 (250 mm × 4. 6 mm, 5 μm) with the mobile phase of acetonitrile-water(90 ∶10)at the flow rate of 1.0 ml·min-1, the detection wavelength was 203 nm, the column temperature was 30℃, and the injection volume was 30 μl. Results:The linear range of diosgenin was 0. 892-5. 352 μg(r=0. 999 9), and the aver-age recovery was 99. 5% (RSD=2. 53%). The content of diosgenin was significantly various among the samples of polygonatum with different processes from Shaanxi (P<0. 05), and that in the raw slices was the highest followed by the steam samples, while that in al-cohol evaporate slices was the lowest. Conclusion:The results of the research can provide reference for the quality control and process-ing methods of polygonatum from Shaanxi.
5.Content Determination of 6 Active Components in Morus alba by HPLC
Zhiyong CHEN ; Maixia MENG ; Yuanyuan YANG ; Xia DU ; Zhifeng YANG ; Hui REN
China Pharmacy 2018;29(7):911-914
OBJECTIVE:To establish the method for the simultaneous determination of content of 6 active components as neochlorogenic acid,mulberroside A,chlorogenic acid,astragalin,sanggenon C and morusin in Morus alba,and to provide reference for improving quality control standard of M. alba. METHODS:HPLC method was adopted. The determination was performed on Agilent 5 TC-C18with mobile phase consisted of acetonitrile-0.1% formic acid(gradient elution)at the flow rate of 1 mL/min. The detection wavelength of 280 nm. RESULTS:The mass concentration linear range of neochlorogenic acid, mulberroside A,chlorogenic acid,astragalin,sanggenon C and morusin were 0.001 06-0.042 4,0.001 67-0.066 8,0.007 95-0.318, 0.001 65-0.066 0,0.005 00-0.200 and 0.001 24-0.049 6 mg/mL,respectively(all r≥0.999 6);the limits of quantitation were 0.11, 0.14,0.81,0.17,0.45 and 0.12 μg/mL,respectively;the limits of detection were 0.04,0.05,0.41,0.07,0.18 and 0.04 μg/mL, respectively;RSDs of precision test were 0.26%,0.31%,0.24%,0.27%,0.36% and 0.44%(n=6),respectively;RSDs of stability test were 0.68%,0.54%,0.62%,0.53%,0.41% and 0.73%(n=6),respectively;average method recovery rates were 99.1%,98.8%,98.8%,98.4%,98.5% and 99.9%(RSDs were 0.5%-1.5%,n=9),respectively. CONCLUSIONS:The method is simple,accurate,and can be used for simultaneous determination of 6 active components in M.alba.