杜仲黄酮、银杏黄酮和沙棘黄酮三者均富含槲皮素。
The fact that quercetin is rich in Eucommia ulmoides, Gingkgo biloba and seabuckthorn flavonoids was found.
目的探讨银杏黄酮甙对糖尿病大鼠肾脏保护作用机制。
Objective To investigate the role of Ginkgo Flavonol on the mechanism of protecting kidney in diabetic rats.
研究了功能化松香丙烯醇酯聚合物吸附分离银杏黄酮的效果。
For functional polymer of rosin allyl alcohol ester, the static adsorption of ginkgo biloba flavone was 22.
目的:考察复方银杏注射液中银杏黄酮苷含量测定的水解条件。
Objective:To study the hydrolytic conditions for ginkgo flavonoid glycosides in the compound ginkgo biloba injection.
方法:采用HPLC法对制剂中主要成分银杏黄酮醇苷进行定量分析。
METHODS: The flavone glycoside content in Kangmailing Capsule was determined by HPLC.
银杏黄酮磷脂复合物组与银杏黄酮组比较有显著性差异(P<0.05)。
The effect of the compounds of ginkgo flavone phospholipid is superior to that of the ginkgo flavone (P<0.05).
研究了酶法与溶剂提取相结合提取银杏叶中活性成分银杏黄酮的工艺条件。
The method of enzyme-solvent extraction process for ginkgo biloba leaves was studied.
本文研究了银杏黄酮的水—乙醇提取工艺,就不同的提取条件进行工艺优化。
In this paper, water and alcohol as extracting solvent were used to extract gingko flavonoids.
目的:探讨银杏黄酮磷脂复合物对大鼠心肌缺血再灌注血管内皮损伤的保护作用。
Objective: To evaluate the effect of Ginkgo flavonoids phospholipid complex on vascular endothelial in myocardial reperfusion injury.
随着银杏黄酮含量的增加,控释作用降低,丝素对银杏黄酮具有较好的控释作用。
Its controlled release effect increased with fibroin concentration and decreased with flavone concentration in the tablets.
HPLC检测结果显示,银杏悬浮培养细胞中银杏黄酮含量可达细胞干质量的2.82%。
The result from HPLC analysis shows that the content of flavone glycosides of dry weight is 2.82% in suspension cell.
目的观察银杏黄酮、银杏黄酮磷脂复合物对急性家兔血瘀证模型血液流变学与微循环的影响。
Objective to observe the influence of the ginkgo flavone and the compounds of ginkgo flavone phospholipid to the blood rheology and microcirculation of the acute rabbit blood stasis model.
目的探讨蛛网膜下腔出血(SAH)后脑淋巴引流阻滞对脑缺血的影响和银杏内酯、银杏黄酮的保护作用。
Conclusion cerebral lymphatic drainage pathway might play an important role in the pathophysiology of cerebral ischemic injury after SAH.
对这类产品采用搪瓷与玻璃浓缩器是合适的,本实验采用上述材质的浓缩器得到纯度为99%银杏黄酮产品。
It is suitable to use the enamel evaporator and glass evaporator, in this experiment the purity 99% Gingko flavonoids products are obtained, when the above material concentrator were used.
对这类产品采用搪瓷与玻璃浓缩器是合适的,本实验采用上述材质的浓缩器得到纯度为99%银杏黄酮产品。
It is suitable to use the enamel evaporator and glass evaporator, in this experiment the purity 99% Gingko flavonoids products are obtained, when the above material concentrator were used.
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