1) microcapsulated granule
微囊粒剂
2) microcapsule
微囊
1.
Progress in preparation and biomedical application of porous poly(2-hydroxyethyl methacrylate) microspheres and microcapsules;
PHEMA多孔微球和微囊的制备及生物医药应用进展
2.
Optimization of Technology for Avermectins Microcapsule by Uniform Design;
均匀设计优选阿维菌素微囊的制备工艺
3.
Preparation of amoxicillin microcapsules by using solution enhanced dispersion of supercritical fluids process;
超临界流体增强溶液分散度法制备阿莫西林缓释微囊
3) microencapsulation
微囊
1.
The effects of temperature, pressure, liquid solution concentration, and stirring rate on thephysical characteristics of ethyl cellulose microencapsulations were studied.
利用超临界CO2抗溶剂法从乙基纤维素和丙酮溶液中制得了乙基纤维素微囊,考察了温度、压力、溶液浓度和搅拌速度等工艺参数对物性的影响,试验结果表明:超临界CO2抗溶剂法可用于食品材料的微囊制粒,所得乙基纤维素微囊的粒径在2。
2.
Objective To investigate the in vitro proliferation and microencapsulation of ovarian cells.
目的探讨微囊化制备在卵巢细胞体外增殖培养研究中的作用。
3.
Alginate-polylysine-alginate microencapsulation is the most successful microencapsulation, but microencapsulation which is made up of alginate crosslinked with BaCl2 without a traditional permselective component has been supported by many researchers.
微囊移植技术能起有效的免疫隔离作用,为解决排斥反应、供体缺乏等问题提供了新思路。
4) Microcapsules
微囊
1.
Formula Optimization of Aspirin Chitosan-Sodium Alginate Microcapsules and Drug Releasing Mechanism Study;
阿司匹林壳聚糖-海藻酸钠微囊处方优化与释药机制研究
2.
Preparation and quality check of Oleanolic acid microcapsules;
齐墩果酸微囊的制备及质量考察
3.
Influencing factors on dampproof effect of microcapsules and study on mechanism;
微囊防潮效果影响因素及其机制探讨
5) Microencapsulate
微囊
1.
The Effect of Microencapsulated NGF-expressing NIH-3T3 Cells on Bioengineered Dermis Function In Vitro;
微囊化NGF基因修饰NIH3T3细胞对体外培养的组织工程皮肤功能的影响
2.
Microencapsulated pig hepatocytes transplantation in the treatment of acute liver failure in rats;
微囊化猪肝细胞移植治疗大鼠急性肝衰竭
3.
Development of transplantation of microencapsulated genetic modified cells;
微囊化基因修饰细胞移植技术的发展
6) microcapsule membrane
微囊膜
1.
Preparation and characterization of magnetic and thermo-responsive microcapsule membranes;
磁性温度感应微囊膜的制备与表征
2.
Progress of research and application of pH-responsive microcapsule membranes;
pH响应型微囊膜的研究与应用进展
3.
Experimental investigations were carried out systematically to prepare small-sized, monodispersed and porous microcapsule membranes by using SPG (Shirasu-Porous-Glass) membrane emulsification and interfacial polymerization.
小粒径单分散中空储库结构微囊膜的制备具有重要学术意义和实用价值。
参考词条
补充资料:微囊剂
分子式:
CAS号:
性质:系利用天然的或合成的高分子材料,将固体或液体药物包嵌而成的直径l~5000μm(通常为5~250μm)的微小胶囊。由芯料(药物)及包料(惰性聚合物)组成,一个微囊中可为单核或数万个多核。其外形取决于囊心物的性质和囊材凝聚的方式,微囊外观可呈球状实体或呈平滑的球状膜壳形、葡萄串形或表面平滑或折叠的不规则结构等各种形状。微囊再装入通常的硬胶囊或压成片。释放速率取决于囊膜的通透性、芯料溶解速率、囊膜内外浓度及囊膜厚度。微囊释放药物呈一级速率常数,微囊的囊膜材料及厚度不同使微囊呈快速释药及缓慢释药两种方式。
CAS号:
性质:系利用天然的或合成的高分子材料,将固体或液体药物包嵌而成的直径l~5000μm(通常为5~250μm)的微小胶囊。由芯料(药物)及包料(惰性聚合物)组成,一个微囊中可为单核或数万个多核。其外形取决于囊心物的性质和囊材凝聚的方式,微囊外观可呈球状实体或呈平滑的球状膜壳形、葡萄串形或表面平滑或折叠的不规则结构等各种形状。微囊再装入通常的硬胶囊或压成片。释放速率取决于囊膜的通透性、芯料溶解速率、囊膜内外浓度及囊膜厚度。微囊释放药物呈一级速率常数,微囊的囊膜材料及厚度不同使微囊呈快速释药及缓慢释药两种方式。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。