Aim To prepare Adriamycin Liposomal Nanoparticle Compound.
目的制备阿霉素磷脂毫微粒复合体。
Conclusion The method of modifying liposomal membranes is useful for enhancing its stability.
结论修饰脂质体膜是一种有效提高脂质体稳定性的方法与手段。
OBJECTIVE To compare the antitumor activity between stealth liposomal doxorubicin and regular liposomal doxorubicin.
目的比较阿霉素隐形脂质体与普通脂质体的抗肿瘤活性。
Result a few of the compounds increase liposomal stability by adding ingredients to the velum or coating the liposomes.
结果多种化合物不同程度地提高了脂质体的稳定性。
Results showed that the fluidity of the liposomal membrane after coating with the two macromolecules had no obvious changes.
可见,胶原蛋白、壳聚糖包覆脂质体能够在基本不干扰脂质体膜流动性的情况下,明显地提高其体外的稳定性。
The targeted delivery of liposomal anticancer drug doxorubicin results in better therapeutic efficacy towards cells in vitro.
向细胞靶向递送脂质体抗癌药物阿霉素可以在体外获得更好的疗效。
Among several drug delivery systems, liposomal encapsulated anticancer agents represent an advanced and versatile technology.
目前在药物靶向性给药系统中,脂质体是最成熟和最先进的药物载体之一。
Objective to study the preparation of topical liposomal diclofenac potassium (DP) formulation and the percutaneous absorption in vitro.
目的研究双氯芬酸钾(DP)脂质体制剂的制备及体外的经皮吸收特点。
CONCLUSION Liposomal gel has the ability to enhance LDH transcutaneous permeation. It is effective vehicle for transdermal therapeutic drugs.
结论载药脂质体凝胶剂可显著促进药物经皮吸收,为经皮吸收药物的理想载体。
OBJECTIVE To study the best preparation method of liposomal topotecan(TPT) hydrochloride by comparing the entrapment efficiencies of different methods.
目的 进行新型抗癌药物盐酸拓扑替康的脂质体制备研究,以期得到具有较高包封率的制备方法。
In animal experiment , we set two compare groups, traditional liposomal vaccine and stealth liposomal vaccine, in two groups we found antibody response.
最后新剂型经过动物实验证实,在「传统式微脂粒」与「立体式微脂粒」两实验组皆见到强度不一的抗体反应;
Methods The plasmid transfection mediated by liposomal transfection reagent, HPLC analysis and reverse transcription-PCR analysis were used in this study.
方法采用脂质体介导的质粒转染、流式细胞仪分析、逆转录- PCR及高效液相色谱(HPL C)分析等实验技术方法做有关分析研究。
The application of cationic liposomes in gene transfection was introduced and the recent advances in development of cationic liposomal materials and preparation technologies were summarized.
综述近年来阳离子脂质体在基因转染中的应用及其相关材料和制备技术。
The invention provides liposomal vehicles for encapsulating relatively high levels of water-soluble substances including immunogens directed against gastrin and gonadotropin releasing hormone.
本发明提供一种脂质体载体,其包裹有较高水平的含针对胃泌素和促性腺素释放激素免疫原的水溶性物质。
The invention provides liposomal vehicles for encapsulating relatively high levels of water-soluble substances including immunogens directed against gastrin and gonadotropin releasing hormone.
本发明提供一种脂质体载体,其包裹有较高水平的含针对胃泌素和促性腺素释放激素免疫原的水溶性物质。
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