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1)  colloidal drug carriers
胶体药物载体
1.
Research on colloidal drug carriers is the most active area in nano-technology concerned with pharmic research.
胶体药物载体的纳米技术是在药学研究中最活跃的领域。
2)  drug carriers
药物载体
1.
Macromolecular micelles as drug carriers;
大分子胶束作为药物载体的应用
2.
Development of biodegradable polymers as drug carriers;
可生物降解聚合物作为药物载体的应用进展
3.
Study on the hyaluronan microcapsules as drug carriers;
透明质酸微囊作为药物载体的研究(英文)
3)  drug delivery system
药物载体
1.
Progress of microemulsion-based media as the drug delivery systems;
微乳液体系作为药物载体的研究进展
2.
Advances in the study of lipid-based cubic liquid crystalline nanoparticles as drug delivery system;
脂质立方液晶纳米粒作为药物载体的研究进展
3.
Studies on the cubic liquid crystal as a drug delivery system;
立方液晶作为药物载体的研究
4)  drug carrier
药物载体
1.
Preparation and characterization of SiO_2 aerogel/chitosan composite materials as drug carrier;
SiO_2气凝胶/壳聚糖复合药物载体材料的制备和表征
2.
Targeted distribution of novel magnetic drug carrier of iron-carbon composite particles in rabbit liver in the direction of external complex magnetic field;
外置复合磁场导引下铁碳复合磁性药物载体在兔肝脏的靶向分布
3.
Synthesis and characterization of galactosyl-HSA (a hepatic targeting drug carrier);
肝靶向药物载体半乳糖基蛋白的合成及其特性研究
5)  Drug delivery
药物载体
1.
Preparation of nano-hydroxyapatite/collagen drug delivery support;
纳米羟基磷灰石/胶原药物载体的制备
2.
The cubic liquid crystal s of lipids used as drug delivery system are reviewed in this paper.
综述了近年来类脂立方液晶作为药物载体的研究进展,特别是对甘油单油酸酯 水体系形成的立方液晶进行了详细的介绍和讨论;重点论述了类脂立方液晶的物理化学性质以及类脂立方液晶作为药物载体的特点和药物对相态的影响;同时还探讨了类脂立方液晶作为药物载体的应用前景。
3.
As a new drug delivery and controlled release device,biodegradable polymeric nanoparticles appear to be very promising and have been widely studied.
可生物降解纳米粒子作为纳米级药物载体,在蛋白质、多肽、疫苗、基因等药物控制释放方面具有广阔的应用前景。
6)  carrier-drug complex
载体药物
1.
Objective To synthesize antitumor drug,carrier-drug complex,docetaxel carried by magnetic α_1-acidglycoprotein microspheres in order to select physically the best complex for the later use,including animal experiments and clinical applications.
目的制备抗肿瘤载体药物多西他赛磁微球,为进一步动物实验和临床应用奠定基础。
补充资料:陶瓷药物载体
分子式:
CAS号:

性质:植入体内用来容纳药物,以实现药物缓释或控制释放的多孔陶瓷管、微球或骨架。根据包埋方式不同,分为均相体系和非均相体系。材料多选用磷酸钙。均相体系,例如采用少量药物粉末(如消炎痛、万古霉素)与磷酸钙混合均匀后,用固化液(水)植入体内骨组织损缺部位,最终转化为羟基磷灰石,作为骨修复材料。非均相体系,例如将药物粉末(如巯嘌呤、阿司匹林等)压片后包埋在磷酸钙材料浆体中形成非均相的复合结构植入人体骨组织损缺部位。采用这类载体,有利于简化用药方式;降低毒副作用,在产生修复骨组织损缺作用的同时,还兼有治疗或消炎效果。

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