The contents of chlorogenic acid and total caffeoylquinic acid in Folium Lonicerae had been determined.
已测出了忍冬叶中绿原酸和总咖啡酰奎宁酸的含量。
Lonicerae Lu is a very good thing.
金银花露就是很好的东西。
Objective To identify 17 species of Flos Lonicerae.
目的鉴别17种金银花的质量。
Objective To investigate the internal quality of Flos Lonicerae.
目的对金银花进行内在质量探讨。
Methods: Radix Scutellariae and Flos Lonicerae were identified by TLC.
方法:采用薄层层析法对颗粒中的黄芩和金银花进行鉴别。
Quality identification; Flos Lonicerae; Element content; Electron probe.
品质鉴定;金银花;元素含量;电子探针。
Results: Radix Scutellariae and Flos Lonicerae could be identified by TLC.
结果:薄层色谱中能检测出黄芩和金银花。
Objective: To discuss the quality control method and index of Flos Lonicerae.
目的:探讨制定金银花质量的方法和指标。
Objective To study the optimum technics of extracting Flos Lonicerae polysaccharide.
目的探讨水提醇沉法提取金银花多糖的最佳工艺。
Objective: To compare the quality of Flos Lonicerae between different producing areas.
前言:目的:比较不同产地中药材金银花的质量。
Results The crude drug quality of Flos Lonicerae is closely related to its growth and development.
结果金银花药材的质量与其忍冬树龄关系密切。
Conclusion When Flos Lonicerae was chosen as medicine, it should have many buds little flowers and no leaves.
结论选用金银花入药时应选蕾多花少无叶者。
Objective:To compare the content of chlorogenic acid in Folium Lonicerae in different regions and growth perieds.
目的:对不同产地、不同生长期的忍冬叶中氯原酸的含量进行比较。
Results: The contents of chlorogenic acid and total caffeoylquinic acid in 6 Folium Lonicerae had been determined.
结果:测定了川渝6种忍冬叶中绿原酸和总咖啡酰奎宁酸的含量。
Objective To optimize the best stage of collection and the process method in the producing area of Flos Lonicerae.
目的优选出金银花最佳采收阶段和产地加工方法。
Objective eTo optimize the best stage of collection and the process method in the producing area of Flos Lonicerae.
目的优选出金银花最佳采收阶段和产地加工方法。 。
This paper reviews the progress on active constituent, pharmaceutical action of Flos Lonicerae, and the utilization.
本文综述了中药金银花的活性成分、药理作用的研究进展及开发利用概况。
Results Flos Lonicerae Japonicae, Radix Paeoniae Rubra and Radix Astragali could be detected with TLC without any disturbing;
结果薄层鉴别中能检出金银花、赤芍、黄芪,阴性无干扰;
In chapter 5, a capillary zone electrophoresis (CZE) was developed for the separation of chlorogenic acids from Flos Lonicerae.
第五章,建立了中药金银花中绿原酸类物质的毛细管区带电泳分离方法。
The optimum conditions for the extraction of chlorogenic acid from Flos Lonicerae with ethanol water as the solvent were studied.
研究了以乙醇水溶液为溶剂提取金银花中绿原酸的最佳工艺。
Meanwhile, it also determined the contents of chlorogenic acid and luteolin-7-O-glucoside of flos Lonicerae by using HPLC method.
对原产乐清、永嘉以及文成引种的“金银花”进行原植物鉴定,并利用HPLC法对样品绿原酸和木犀草苷含量进行检测。
ConclusionThe results provide some references for the utility and further study of varieties of Flos Lonicerae produced in Sichuan.
结论为川产习用金银花的利用和深入研究提供了科学参考。
Results:The distribution, growth environment and medicinal parts of 9 species and 2 varieties of Flos Lonicerae have been clarified.
结果:报道了南川金银花共9种2变种的分布、生境及药用情况。
MethodsTLC method is used to identify Flos Lonicerae Japonicae, Caulis Dendrobii, Radix Scrophulariae, Radix Achyranthis Bidentatae.
方法采用薄层色谱法对脉络宁注射液中金银花,石斛,玄参,牛膝进行定性鉴别。
ConclusionThis method is useful in the species identification of Flos Lonicerae, and it can elementary distinguish the quality of them.
结论该方法鉴别金银花是可行的,能为其质量评价提供有用的信息。
Flos Magnoliae, Fructus Xanthii and Flos Lonicerae Japonicae were identified by TLC, and the content of Magnolin was determined by HPLC.
采用TLC法鉴别辛夷、苍耳子、金银花,采用HPLC法测定辛夷中木兰脂素的含量。
Method: TLC was used to test Radix Ophzopogonis and Flos Lonicerae, and assaying the alcohol extraction, as well as the granule stability.
方法:用薄层色谱鉴别颗粒剂中的麦冬、金银花,测定醇性浸出物,并考察本品的稳定性。
Objective:To gain a clear idea on the species and resources of medicinal plants of Flos Lonicerae (Jinyinhua) in Nanjiang county Sichuan province.
前言: 调查四川南江县中药金银花品种及其资源情况。
The article has 3 parts. The first part is a study about source of origin, composition , decoct method and regimen of Lonicerae and Forsythiae Powder.
本文分为3个部分,第一部分是关于银翘散出处、组成、煎服法研究。
The ultrasonic extraction process for Folium Lonicerae has been studied with the ultrasonic technology and the most suitable condition for process has been obtained.
采用超声技术对忍冬叶提取工艺进行研究,找出了最佳提取工艺条件。
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