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OBJECTIVE:To investigate the decoction amount changes of verbascoside,gallic acid in single decoction and com-bined decoction of rehmanniae radix preparata,corni fructus and poria,and provide scientific basis for further study of effective substance basis. METHODS:The single decoction,combined decoction with each 2 medicine and combined decoction with the 3 medicines of rehmanniae radix preparata,corni fructus and poria,were respectively prepared. HPLC was adopted to detect and com-pare the decoction amount of active component verbascoside in rehmanniae radix preparata and active component gallic acid in cor-ni fructus in each group. RESULTS:Compared with single decoction of rehmanniae radix preparata,the decoction amount of ver-bascoside was decreased in combined decoction of poria+rehmanniae radix preparata(P<0.01),decoction amount of verbascoside was increased in combined decoction of corni fructus+rehmanniae radix preparata or combined decoction with the 3 medicines(P<0.01). Compared with single decoction of corni fructus,the decoction amount of gallic acid in each combined decoction was de-creased (P<0.01). CONCLUSIONS:The combined decoction of rehmanniae radix preparata,corni fructus and poria has certain promotion and inhibition effects on the decoction of verbascoside in rehmanniae radix preparata and inhibition effect on the decoc-tion of gallic acid in corni fructus. It is speculated verbascoside may be one of the main components in combined decoction playing the role of effectiveness.
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OBJECTIVE:To study the effects of combined decoctions of alismatis rhizoma and curcumae radix and rehmanniae radix praeparata on the decoction amount of acteoside in rehmanniae radix praeparata,and provide reference for studying the effec-tive ingredients of three-drug effect. METHODS:Single decoction-1(rehmanniae radix praeparata 20 g),single decoction-2(alis-matis rhizoma 20 g),single decoction-3(curcumae radix 20 g),combined decoction-1(rehmanniae radix praeparata 20 g,alisma-tis rhizoma 20 g),combined decoction-2(rehmanniae radix praeparata 20 g,curcumae radix 20 g),combined decoction-3(alisma-tis rhizoma 20 g,curcumae radix 20 g)and combined decoction-4(rehmanniae radix praeparata 20 g,alismatis rhizoma 20 g,cur-cumae radix 20 g)were respectively taken to prepare dry extracts after extracting by refluxing,HPLC was used to detect the acteo-side content and calculate its decoction amount in sample. RESULTS:The decoction amounts of acteoside in single decoction-1, combined decoction-1,combined decoction-2 and combined decoction-4 dry extracts were 0.0354,0.0223,0.0228,0.0110 mg/g,respectively. Compared with single decoction-1 group,the last 3 groups had statistical significances(P<0.01);combined decoc-tion-4 showed lowest decoction amount in three-drug combined decoction group. Acteoside was not detected in the negative control groups(single decoction-2,single decoction-3 and combined decoction-3). CONCLUSIONS:The decoction amount of acteoside is reduced when alismatis rhizoma,curcumae radix and rehmanniae radix praeparata were decocted together,indicating that it may not be the main ingredient of playing effects in three-drug combined decoction liquid.
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Objective To optimize enrichment and purification technology of total flavonoids from seed shell of Scutellaria baicalensis by macroporous resin.Methods Scutellarin was selected as the index,and its content was determined by HPLC.Types of macroporous resin were optimized by static adsorption elution tests.Enrichment and purification technology was investigated by orthogonal test and single-factor tests.Results AB-8 macroporous resin showed better effects than others.Optimum purification condition was as follows:sample concentration was 30.0 g · L-1,the best adsorption capacity was 0.3 g· g-1,adsorption velocity was 1.0 mL· min-1,diameter-height ratio was 1 ∶ 3,the eluting agent was 20 BV purified water,with the total polyphenols being desorbed by 5 BV of 70% ethanol Conclusion The technology is scientific,simple and highly reproducible.It can be applied to enrich and purify total flavonoids from seed shell of Scutellaria baicalensis by macroporous resin.
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AIM To study the effects of Rehmanniae Radix Preparata (A) and Poria (B) on decoction amounts of loganin,morroniside and 5-hydroxymethylfurfural in Corni Fructus (C).METHODS These three medicinal materials were combined one another and divided into seven groups (A,B,C,A + B,A + C,B + C and A + B + C).Then the contents of three constituents were determined by HPLC.RESULTS Compared with the single decoction of Corni Fructus,the decoction amounts of loganin and 5-hydroxymethylfurfural were decreased,and that of morroniside was increased at the time of mixed decoction of Rehmanniae Radix Preparata and Corni Fructus,or Rehmanniae Radix Preparata,Poria and Corni Fructus.This situation was just the contrary at the time of mixed decoction of Poria and Corni Fructus.CONCLUSION The mixed decoction of Corni Fructus,Rehmanniae Radix Preparata and Poria increases the decoction amount of morroniside,which may make mixed decoction liquid show better efficacy.
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Objective To investigate the optimal condition for transforming alkanna tinctoria pigment into shikonin. Methods Transformation rate of shikonin served as index. Transformation temperature, time, ratio of 2% NaOH to alkanna tinctoria pigment (v/w) was optimized. Results With ratio of 2% NaOH to alkanna tinctoria pigment being 4.5 mL·mg-1, temperature 35℃ and the reaction time 4 h, the transformation rate reached the highest, and the average transformation rate was 64.86%. Conclusion This method is easy and simple, and suitable for industrialized production.
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<p><b>OBJECTIVE</b>To observe the effect of long-term external use of Goupi Gao on renal function and lead accumulation in rats.</p><p><b>METHOD</b>Rats were externally administered with Goupi Gao at different doses (7, 3.5 and 1.75 g x kg(-1)) for 90 d. At 45 days and 90 days after administration, the renal indicator, levels of blood urea nitrogen (BU) and creatinine (Cr) in serum, beta2-microglobulin (beta2-MG) and N-acetyl-beta-D-glucosaminidase (NAG) in urine were determined. Lead content in kidneys was detected by atomic absorption spectrometry.</p><p><b>RESULT</b>A 90-day administration with Goupi Gao significantly enhanced the renal indicator, levels of NAG in urine and lead content in renal, when compared with the normal rats. However, the levels of BUN and beta2-MG as well as renal pathology in Goupi Gao treated rats were not obviously changed.</p><p><b>CONCLUSION</b>Consecutive administration of Goupi Gao for 90 days can increase the renal indicator and levels of NAG in urine, enhance the accumulation of lead in renal, but with no effect on excretory function of kidneys and organic changes.</p>
Subject(s)
Animals , Female , Male , Rats , Acetylglucosaminidase , Urine , Blood Urea Nitrogen , Creatinine , Blood , Drugs, Chinese Herbal , Toxicity , Kidney , Metabolism , Pathology , Lead , Metabolism , Random Allocation , Rats, Sprague-Dawley , Spectrophotometry, Atomic , beta 2-Microglobulin , UrineABSTRACT
The study on the buds of Jasminum officinale L. var. grandiflorum was carried out to look for anti-HBV constituents. The isolation and purification were performed by HPLC and chromatography on silica gel, polyamide and Sephadex LH-20 column. The structures were elucidated on the basis of physicochemical properties and spectral analysis. Six iridoid glycosides were identified as jasgranoside B (1), 6-O-methy-catalpol (2), deacetyl asperulosidic acid (3), aucubin (4), 8-dehydroxy shanzhiside (5), and loganin (6). Jasgranoside B (1) is a new compound. Compounds 2-6 were isolated from Jasminum officinale L. var. grandiflorum for the first time.