1) entrapment efficiency
包封率
1.
Determination of entrapment efficiency of oxaliplatin liposome and its release profile in vitro;
奥沙利铂长循环热敏脂质体的包封率测定及体外释放考察
2.
Study on determination of entrapment efficiency of sinomenine liposomes;
青藤碱脂质体包封率的测定
3.
Determination of entrapment efficiency of β-elemene liposome by minicolumn centrifugation-gas chromatography;
微柱离心-气相色谱法测定β-榄香烯脂质体包封率
2) encapsulation efficiency
包封率
1.
Factors effecting the encapsulation efficiency of tegafur liposome;
影响替加氟脂质体包封率的因素
2.
Study on determination of encapsulation efficiency of bee venom loaded PLGA microspheres;
乳酸-羟基乙酸共聚物微球中蜂毒包封率的测定
3.
Preparation of sulfoamikacin liposome and determination of its encapsulation efficiency;
硫酸阿米卡星脂质体的制备及包封率测定
3) encapsulation rate
包封率
1.
Preparation of hydroxycamptothecin liposomes and its encapsulation rate determination;
羟基喜树碱脂质体的制备及其包封率测定
2.
Determination of Encapsulation Rate and Encapsulation Yield of Mitoxantrone Lipid Nanospheres;
米托蒽醌类脂质纳米球包封率和包封产率的测定
3.
Results Chitosanalginate microcapsules which was prepared simple and fast had high encapsulation rate and extended-r.
结果壳聚糖-海藻酸钠微囊法应用于干扰素-tau药物的包封,其制备简单快速,干扰素-tau包封率很高,并且具有肠溶缓释作用。
4) encapsulation
[英][in,kæpsju'leiʃən] [美][ɪn,kæpsə'leʃən]
包封率
1.
Effect of Experimental Parameters on the Encapsulation of Insulin-loaded Poly(lactide-co-glycolide) Nanoparticles Prepared by a Double Emulsion Method;
复乳法制备胰岛素PLGA纳米粒影响包封率因素考察(英文)
2.
The orthogonal experimental design using the standard of drug encapsulation was applied to optimize the preparation procedure of the microspheres.
实验中,以微球的药物包封率为制备工艺优化指标,通过正交实验得出微球的最佳制备工艺条件为:壳聚糖浓度∶海藻酸钠浓度为1:1,pH值为4。
3.
MethodsThe orthogonal experimental design using the standard of drug encapsulation was applied to optimize the preparation procedure of the microcapsules.
方法以微囊的药物包封率为制备工艺优化指标,得出成囊的最佳制备工艺条件。
5) Entrapped efficiency
包封率
1.
The entrapped efficiency of BSA liposome;
牛血清白蛋白脂质体包封率的测定方法研究
2.
RESULTS The entrapped efficiency reached 47.
方法以包封率为测试指标,考察去甲斑蝥素脂质体的制备方法、药-脂比、胆固醇含量、荷电性、水相pH值、离子强度等因素,观察其显微结构并考察其粒径和粒度分布、体外释放特性及初步稳定性。
3.
Methods Chitosan nanoparticles loading norcantharidin were prepared by ionic cross-linkage process,selecting low molecular chitosan as carrier,the nanoparticles morphology,particle diameter distribution,entrapped efficiency,loading capacity,recovery rate,content of free amino group on the surface,and release in vitro were investigat.
方法以低相对分子质量的壳聚糖为载体,通过离子诱导法,制备去甲基斑蝥素-壳聚糖纳米粒,并考察纳米粒的形态、粒径、药物包封率、载药量、回收率、表面氨基以及体外释放特征。
6) Encapsulation Yield
包封产率
1.
Determination of Encapsulation Rate and Encapsulation Yield of Mitoxantrone Lipid Nanospheres;
米托蒽醌类脂质纳米球包封率和包封产率的测定
补充资料:包封套
分子式:
CAS号:
性质:又称为翻胎胶套。是预硫化翻胎法所用的特制环形胶套。使用时将已贴好预硫化胎面的轮胎全部包封起来,用真空泵抽掉套内空气,使套紧紧包着轮胎,然后送人硫化罐内以热水加压硫化。包封套用弹性体材料制成,具有耐热、耐屈挠和密封等特点。
CAS号:
性质:又称为翻胎胶套。是预硫化翻胎法所用的特制环形胶套。使用时将已贴好预硫化胎面的轮胎全部包封起来,用真空泵抽掉套内空气,使套紧紧包着轮胎,然后送人硫化罐内以热水加压硫化。包封套用弹性体材料制成,具有耐热、耐屈挠和密封等特点。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条