The dual-ligand formulations are therefore likely to be heterogeneous in the actual number of ligands per liposome.
在每个脂质体实际的配体数目中,双倍配体模式可能是不均一的。
CONCLUSION: Podophyllotoxin liposome coated by DPPC is much more targetable to skin and is a fairly good topical preparation for applying on skin.
结论:DPPC脂质体包裹鬼臼毒素外用具有更好的皮肤靶向性,是较好的皮肤外用制剂。
METHOD Prepare the hydrochloride tetracaine liposome by ethanol injection method, prepare hydrochloride tetracaine liposome gel by mixing method, and determine the liberation of drug by dialysis.
方法乙醇注入法制备盐酸丁卡因脂质体,研和法制备脂质体凝胶,透析法测定盐酸丁卡因脂质体以及脂质体凝胶中药物的释放。
Methods 0.5% podophyllotoxin in liposome suspension or in alcohol solution (as control) were applied on the rat skin respectively.
方法:观察组大鼠涂抹脂质体鬼臼毒素混悬液(载药量0.5%),对照组大鼠涂抹0.5%鬼臼毒素酊剂。
OBJECTIVE: To study effect of liposome suspension on distribution of fluorescein sodium in the rat skin.
目的:研究脂质体混悬液对荧光素钠在大鼠皮肤分布的影响。
Antibody can be linked to liposome particles by covalent binding.
抗体能通过共价键结合在脂质体颗粒上。
OBJECTIVE: to prepare lidocaine liposome gel and to establish its quality control method.
目的:制备利多卡因脂质体凝胶,并建立其质量控制方法。
Objective: To determine the effects of hydrophobic polysaccharide on liposome stability.
目的:测定疏水化多糖对脂质体稳定性的增强作用。
OBJECTIVE To study and improve the synthesis of liposome excipient phosphatidyl ethanolamine.
目的研究并改进脂质体辅料磷脂酰乙醇胺的合成工艺。
Objective To explore the best formula of the 0 5% liposome podophyllotoxin chitosan film.
目的探讨0 5 %脂质体鬼臼毒素壳聚糖膜剂制备的最佳配方。
Objective: To investigate the effect of liposome on the permeability and drug distribution of sodium fluorescein(NaFl) in human skin.
目的:观察脂质体包裹荧光素钠对人皮肤透皮性能和在皮肤分布的影响。
Great achievement has been acquired by research of liposome as medicament carrier.
脂质体作为药物载体的研究,已取得了重大进展。
Objective To assess the therapeutic effect of microwave radiation combined with Adriamycin liposome on liver VX2 tumor in rabbits.
目的探讨应用微波辐射联合阿霉素脂质体对兔v X 2肝肿瘤的治疗作用。
Objective To establish preparation of matrine liposome.
目的建立苦参碱脂质体的制备工艺。
Conclusion: Magnetic doxorubicin stealth liposome, regarding as a new kind carrier of anti-tumor drug, indicated a favorable foreground.
结论:磁性阿霉素隐形脂质体作为一种新型抗肿瘤药物显示了良好的应用前景。
Aim to prepare resveratrol liposome (RES-LIP) and the liposomes modified by a galactoside (RES-GLIP) as well as to investigate and compare their liver targeting effect.
目的制备白藜芦醇脂质体(RES -lip)和半乳糖苷修饰的白藜芦醇脂质体(RES -GLIP),探讨并比较二者的肝靶向作用。
Conclusion Magnetic doxorubicin stealth liposome as a new anti-tumor drug carrier may have a favorable clinical prospect.
结论磁性阿霉素隐形脂质体作为一种新型抗肿瘤药物显示了良好的应用前景。
Objective To explore the efficiency of transfection of antisense oligonucleotides HA-2741 by ultrasound mediated liposome microbubbles.
目的探讨超声介导脂质体微气泡转染反义寡核苷酸ha- 2741的有效性。
Objective: To study the effect of liposome suspension on the ultrastructure of rat skin.
目的:研究脂质体制剂对大鼠皮肤超微结构的影响。
OBJECTIVE To study the delivery mechanism of trans-intestinal epithelium transportation of insulin liposome.
目的:在细胞水平研究胰岛素脂质体的口服吸收机制。
Objective To determine the encapsulation efficiency and the release rate of baicalin liposome.
目的测定黄芩苷脂质体的包封率与渗漏率。
Objective: To prepare oxaprozin liposome.
目的:制备恶丙嗪脂质体。
Conclusion: Our prepared liposome shows larger loading capacity and better envelopment and stability.
结论:我们制备出了稳定、载药量较大、包封率较高脂质体。
The structure, preparation method and forming principle of liposome are introduced. Its application in cosmetics and the attention in dispensation are summarized.
介绍了脂质体的结构、制备方法、形成原理以及脂质体化妆品的作用和配方时的注意事项。
Centrifugal acceleration experiment was served to proved the liposome stability.
离心加速实验考察脂质体的稳定性。
Conclusion: This methods is simple, quick, accurate and suitable for the quality control for Matrine Liposome.
结论:本方法准确、简单、快捷,适用于苦参碱脂质体的质量控制。
RESULT:The EE of liposome reached 80%, and the release rule in vitro was subject to the first order model.
结果制得脂质体的包封率约为80%,脂质体的体外释放规律符合一级动力学过程。
Objective: To investigate the influences of different lipids on cellular delivery and fluidity of liposome membrane of cationic liposome.
目的:考察不同脂质体材料对阳离子脂质体细胞转染率和脂质体膜流动性的影响。
The objective of this study was to develop a good and stable taxol liposome and taxol modified liposome that have heart targeted effect.
本研究的主要目的是研究稳定性良好的紫杉醇脂质体和阿替洛尔修饰的紫杉醇脂质体。
Azithromycin liposome was prepared with the granular soya lecithin by reverse evaporation method.
采用逆相蒸发法,利用大豆粉状磷脂制备阿奇霉素脂质体。
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