目的是建立测定甘草药材中甘草皂苷G2和甘草酸铵含量的方法。
The objective is to establish a quantitative method for determining the content of saponin G2 and ammonium glycyrrhizinate in Glycyrrhiza uralensis.
本文总结了近年来有关甘草的药理研究和文献报道,综述了甘草药理作用及其作用机制的现代研究情况。
After studied all researches and reports about the pharmacology of licorice root in recent years, summarizes the modern research situation of its pharmacological action and action mechanism.
结果表明,此法准确度较高,为甘草生药及成品药中甘草黄酮含量测定提供了一种切实可行的方法。
The result showed that the rate of veracity of this method was high and this provided the determination of Glycyrrhiza flavonoids of pharmacognostic and finished products a feasible method.
而且由于甘草酸含量的差异,导致对甘草种质资源的药用价值评价难于进行。
These differences make the clinic effect of medicinal licorice instable, so it is significant to reveal the mechanism of the variation of glycyrrhizin content.
用薄层色谱技术分离甘草提取液中成分后,再用扫描先密度法对甘草次酸进行定量测定。
First separating the ingredient from extraction of licorice with TLC, then measuring quantitatively the content of Glycyrrhetic acid with scan densitometry.
甘草木,甜香,药草,木香,甘草枝。
目的:测定并比较不同生长期甘草中多糖含量,为甘草的质量评价提供依据。
AIM: To measure and compare the content of glycyrrhizic polysaccharides in Glycyrrhiza in three different growth time.
甘草糖一种用甘草根制成或加入甘草根的糖果。
目的:阐明中国药用甘草物种之间的界限,为甘草资源开发和优良品种选育奠定基础。
Objective: Elucidate the medicinal licorice species circumscription in order to develop licorice resources in China and select new cultivars.
甘草人工种植的成功为保护生态环境和开拓以甘草提取物为配料的功能食品创造了条件。
Now the successful artificial planting of glycyrrhiza provides good condition for protecting ecological environment and developing functional food which based on glycyrrhiza extract.
概述:本司甘草膏主要采用中国辽宁地区的生长的甘草为原材料,通过石油醚浸提根茎制得。
Overview: the Division licorice extract mainly the growth of China's Liaoning Province of licorice for the raw materials, petroleum ether extraction by roots in the system.
石膏甘草水:生石膏100克,生甘草10克,清水2000毫升,置砂锅内水煎,待冷漱口,每日数次。
Gesso licorice water: gypsum 100 grams, born licorice 10 grams, 2000ml water, buy arenaceous boiler water frying, stay cold mouthwash, daily times.
实验结果表明,XDA-1型大孔树脂对甘草黄酮的动态吸附率为92.18%,动态解吸率为83.73%,是一种较好的分离甘草黄酮的树脂材料。
The results showed XDA-1 resin was preferable for separating licorice flavonoids with the dynamic adsorption and desorption ratio being 92.18% and 83.73%, respectively.
概述:本司甘草酊主要采用中国东北地区产的甘草,用乙醇浸提制得甘草酊。
Overview: the Division licorice tincture mainly produced in northeast China, licorice, licorice obtained by ethanol extraction tincture.
目的建立甘草gap过程中的快速质量检验方法,为甘草药材的快速质量检测提供方法依据。
Objective To develop a rapid method for the quality control of licorice in its GAP research.
对我国甘草资源的分布利用、甘草化学成分、药理作用以及甘草在各行业中的应用进行了系统的论述。
The reviewed the distribution utilization, chemical composition medicinal action and other application of Glycyrrhiza resources in our country.
甘草酸为甘草的主要成分,因其具有明显的抗炎、免疫调节、抗病毒、解毒以及调节酶活性等作用,现已被广泛应用于肝脏疾病的治疗。
Glycyrrhizin, essential component of licorice, has been used to treat liver disease for it's effects of anti-inflammatory, immunological regulation and anti-virus.
目的研究甘草次酸和甘草酸对离体大鼠肝细胞的膜效应及膜结合位点。
Purpose to investigate the effects and binding sites of glycyrrhetinic acid and glycyrrhizin on isolated rat hepatocyte membrane.
结论生化汤中川芎明显增加生化汤中阿魏酸的溶出量,甘草及川芎和桃仁、川芎和甘草的两两交互效应可显著降低阿魏酸的含量。
ConclusionThe content of ferulic acid is increased by Szechwan Lovage Rhizome and reduced by Liquorice Root, Szechwan Lovage Rhizome and Peach Seed, Szechwan Lovage Rhizome and Liquorice Root.
成份:光甘草定、377、透明质酸、雪颜素、传明酸、甘草干细胞等。
Ingredients: glabridin, 377, hyaluronic acid, whitening essence, tranexamic acid, orange stem cells etc.
目的:建立复方甘草片中甘草酸、异甘草苷和异苷草素的含量定量分析的高效液相色谱(HPLC)方法。
Objective:HPLC was used to determine the contents of glycyrrhizic acid, isoliquiritin and isoliquiritigenin in compound liquorice tablets quantitatively.
结论:甘草甜素能诱导肝星状细胞铁蛋白重链的表达。调控铁蛋白重链基因的表达可能是甘草甜素抗肝纤维化作用的分子生物学机制之一。
Conclusion: glycyrrhizin could up-regulate the expression of ferritin heavy chain gene in hepatic stellate cells, which may contribute to the anti fibrosis of glycyrrhizin.
目的研究了酵母提取物、水解酪蛋白、真菌诱导子、茉莉酸及稀土元素等对甘草愈伤组织中甘草黄酮类化合物合成的影响。
OBJECTIVE To investigate the effects of yeast extract, casein hydrolysate, fungal elicitor, JA and rare-earth element Eu3+ on flavonoids production in Glycyrrhiza uralensis callus.
甘草次酸是中药甘草的主要有效成分之一。
Glycyrrhetinic acid is a major active ingredient in licorice, a famous traditional Chinese medicine.
目的:观察新一代甘草酸制剂甘草酸二铵脂质配位体(DGLL)对酒精性脂肪肝的治疗作用。
AIM:To study the therapeutic effect of Diammonium Glycyrrhizinate lipid ligand(DGLL) on alcoholic fatty liver.
结论探索质量评价的药效评价方法和建立真正能反映甘草药效的指纹图谱是甘草质量评价的发展趋势。
Conclusion the development tendency of the quality evaluation of Radix Glycyrrhizae is to explore quality evaluation of pharmacodynamic actio...
该方法工艺简便、产品收率与纯度高,树脂再生容易,是目前提取甘草酸和甘草次酸较为理想的方法。
The process is simple and convenient. The yield and purity is good and the regeneration of resin is easy. So this method of extraction and purification is advisable.
甘草酸提取的众多影响因素中,存在显著性差异的是提取温度、提取次数、提取时间、加酸量和甘草等级。
Moreover, the condition of extraction about many factors, for example, the effect of extracting agent, temperature, time, pH valve and species were studied in th…
甘草酸提取的众多影响因素中,存在显著性差异的是提取温度、提取次数、提取时间、加酸量和甘草等级。
Moreover, the condition of extraction about many factors, for example, the effect of extracting agent, temperature, time, pH valve and species were studied in th…
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