The content of astragaloside was determined by TLC-scanning.
用薄层扫描法对黄芪甲苷进行含量测定。
Method: To determine the content of Astragaloside IV by HPLC.
方法:用高效液相色谱法测定黄芪甲苷的含量。
Methods The content of Astragaloside IV was determined by TLCS.
方法采用薄层扫描法测定其中黄芪甲苷的含量。
Objective: To determine the content of astragaloside a in Erwei Kang Mixture.
目的:测定二味康中黄芪甲苷的含量。
OBJECTIVE To determine the content of Astragaloside A in Weisheng injections.
目的:测定胃升注射液中黄芪甲苷的含量。
Results There are more astragaloside and flavonoids in the leaves of Astragalus.
结果:黄芪叶中黄酮和皂苷的含量较高。
The content of Astragaloside IV in the dropping pills was examined by HPLC-ELSD.
采用HPLC -ELSD法测定了黄芪总皂苷滴丸中黄芪甲苷的含量,进行了方法学考察。
The extractive rate of astragaloside a determined by TLC was used as the marker of detection.
方法采用正交试验法,以薄层扫描法测定黄芪甲苷的浸出率为评价指标。
OBJECTIVE To determine the contents of Astragaloside and Ginsenoside Re in Buqitongle capsule.
目的:建立补气通络胶囊的含量测定方法。
Method: Astragaloside content in QZYL granules was determined by double wavelength TLC Scanner.
目的:建立芪珍抑瘤颗粒黄芪甲苷含量测定方法。
OBJECTIVE To evaluate the quality of astragaloside liposome and determine its entrapment efficiency.
目的对黄芪皂苷脂质体进行质量评价,测定黄芪皂苷脂质体的包封率。
Research conformed that physiological activity of Astragaloside IV was higher than any other saponins.
研究证实:黄芪甲苷的生理活性是最强的。
AIM: To explore the effects of astragaloside IV (XGA) on myocardial calcium transport and cardiac function in ischemic rats.
目的:研究黄芪皂苷iv (XGA)对缺血大鼠心肌钙运转和心功能的影响。
Methods: The fluorescence characteristics of astragaloside anisic reaction product were used to determine astragaloside in serum.
方法:利用茴香酸在硫酸介质中与黄芪甲甙反应产生强烈荧光的特性,测定血清中的黄芪甲甙。
Astragalus as a commonly used Chinese medicine for its medicinal plants and membrane Mongolia astragaloside Astragalus root folder.
黄芪作为常用中药,其药材为植物蒙古黄芪及膜夹黄芪的根。
Method: Ultraviolet spectrophotometry was employed to determine the absorption of different macroporous absorbing resin to astragaloside.
方法:采用紫外分光光度法测定不同大孔树脂对指标性含量黄芪总甙的吸附量。
Using decoction to extract amylose and astragaloside, determine the amylose with spectrophotometry and determine the astragaloside with TLCS.
采用煎煮法提取口服液中的多糖成分和黄芪甲苷,分光光度法测定多糖成分,薄层扫描法测定黄芪甲苷。
Objective To investigate the effects of astragaloside (ast) on gastrin gene expression and the free radical content of rats with exercise fatigue.
目的探讨黄芪总苷对运动性疲劳大鼠胃粘膜胃泌素基因表达及氧自由基含量的影响。
Methods: Regarding astragaloside and total extract as indexes, use orthogonal experiments to determine the content of the index ingredient by HPLC.
方法:通过正交实验,以黄芪甲苷、总浸出物为指标,采用HPLC等方法测定指标成分的含量,综合评价酶解工艺的优劣。
Absrtact: Objective To investigate the effects of astragaloside (ast) on gastrin gene expression and the free radical content of rats with exercise fatigue.
摘要:目的探讨黄芪总苷对运动性疲劳大鼠胃粘膜胃泌素基因表达及氧自由基含量的影响。
Methods Using continuum circumfluence and ultrasound to extract astragaloside, flavonoids and amylose from the leaves of astragalus and determine the quantity with colorimetry.
方法:采用连续回流提取法和超声波提取法提取膜荚黄芪叶中的皂苷、黄酮、多糖类成分,比色法测定其含量。
CONCLUSION Compared with heat reflux extraction methods, the UPE of astragaloside IV from Radix Astragali is efficient, less extraction time, lower energy consumption and so on.
结论同热回流方法比较,超高压提取黄芪中皂苷类成分,具有效率高、时间短和能耗低等优点。
Object: To Compare the comtent of Astragaloside IV in different parts of Astragalus membranaceus, Methods: TLC-spectrophotometry was used to determine the comtent of Astragaloside IV.
方法:本实验以黄芪甲苷为标准品,采用薄层色谱—分光光度法测定黄芪叶中黄芪甲苷的含量。
Its effective ingredients include astragaloside iv, flavonoids and polysaccharide and so on, so the mechanisms to treat the cardiovascular disease usually relate to synthesis factors.
它的有效成分包括了黄芪皂甙iv、黄酮、多糖等,所以它的作用机制大多涉及综合因素。
Methods Astragaloside and icariin contents in extracting solution were detected with HPLC and UV-spectrum methods. Metastasis rates and yield were calculated and two techniques were compared.
方法采用高效液相法与紫外吸收光谱法测定提取液中黄芪总苷、 淫羊藿苷含量,通过计算转移率和得膏率,比较两种澄清工艺。
Methods:The best technology of purification was datermined by the physicochemical and pharmaceutical evaluation of astragaloside concentrations and swelling ratio of mouse ears pain inhibition.
方法:以黄芪甲苷含量、小鼠耳廓肿胀率、小鼠热板疼痛抑制率为指标,通过药化学和药效学的综合评价,优选最佳纯化工艺。
Methods:The best technology of purification was datermined by the physicochemical and pharmaceutical evaluation of astragaloside concentrations and swelling ratio of mouse ears pain inhibition.
方法:以黄芪甲苷含量、小鼠耳廓肿胀率、小鼠热板疼痛抑制率为指标,通过药化学和药效学的综合评价,优选最佳纯化工艺。
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