这种方法借助于流化床技术,利用气流使颗粒、微丸处于悬浮流化状态进行包衣的一种方法。
The process can be used to apply coating film to the granules and pellets when they are in the state of suspending and fluidizing using airflow by fluidized-bed technology.
离心包衣造粒法可以制备具有结肠靶向特性的甲硝唑微丸,其工艺稳定,批与批之间的重现性良好。
Metronidazole-loaded CSDDS was successively established by centrifuge coating granulation method with low batch variation and reproducible.
介绍了现代各种微丸制备和包衣装置的类型。
The types of pellet preparing and coating equipments are introduced.
前言:目的:考察萘普生肠溶微丸两种包衣工艺的可行性。
Objective: To investigate the feasibility of two enteric coating technologies for naproxen micro-pellets.
目的:比较包衣锅和全自动包衣造粒机制备微丸的方法。
OBJECTIVE: to comparison the methods of bed coating and automatic bed coating granulator preparation of pellets.
方法采用离心造粒法及流化床包衣法制备左旋泮托拉唑钠肠溶微丸。
Methods The (-) -pantoprazole sodium enteric-coated pellets were prepared by centrifugal granulation and fluid-bed coating method.
以丙烯酸树脂RL 100为包衣材料,采用乳剂-溶剂挥发法,制备了以药物-树脂为丸芯的缓释微丸。
By in-liquid drying, sustained-release pellets were prepared taking Eurdragit RL100 as coating material and drug-resin complex as core.
方法采用流化床包衣法制得缓释微丸,将微丸压片后包衣制得时控脉冲缓释片。
METHODS To prepare sustained release pellets using fluid bed, then to get pulsatile-sustained tablet after tabletting and coating.
本文研究表明空气悬浮包衣法包衣效果良好,此技术尤适用于颗粒、微丸的包衣。
The results in this paper show that the coating effect is good and this technology is suitable for the coating of granules and pellets.
目的:为制备平痛新包衣微丸提供良好的底物。
OBJECTIVE: To provide good basis for preparing Nefopam coated pellets.
目的筛选平痛新控释微丸包衣液处方。
OBJECTIVE To select the coating fluid prescription of nefopam controlled release pellets.
采用膜控技术,离心包衣造粒法制备了盐酸青藤碱控释微丸。
By using membrane controlled-release technique and centrifugal coating pelletization, sinomenine hydrochloride controlled-release pellets were prepared.
目的研究制备人参总皂苷磷脂复合物(gsp)及其包衣微丸的方法。
OBJECTIVE to study the preparation methods for ginsenoside phytosome (GSP) and their pellets coated with HPMC.
结果:乳糖代替HPMC包衣的微丸释药后衣膜也出现破裂;
Results:Film rupture occurred in pellets with lactose instead of HPMC in the coating formulation.
本文采用流化床技术制备盐酸二甲双胍素丸,并采用缓释包衣材料制备缓释盐酸二甲双胍微丸。
In this thesis, Metformin Hydrochloride pellets and sustained-release pellets were prepared by powder coating technology.
采用微柱离心法测定姜黄素脂质体包衣前后包封率的变化。
Then mini column centrifugation method was adopted to determine the encapsulation efficiency (EE) before and after curcumin liposomes being coated.
目的:制备吲哚美辛肠溶包衣微丸,考察其释放特性。
OBJECTIVES: To prepare indomethacin enteric coated pellets and investigate their release properties.
采用微型流化床包衣设备,将微丸包上HPMC薄膜衣,并测定了溶出度。
Using fluid bed coating equipment, the pellets was coated with HPMC. Results the results of dissolution test was good.
结论采用适当的制备方法和包衣工艺,可制得人参总皂苷磷脂复合物及其包衣微丸。
CONCLUSION Appling appropriate conditions on preparation and coating, the ginsenoside phytosome and their coated pellets could be made successfully.
方法:对分别采用包衣锅和全自动包衣造粒机制备微丸的方法及微丸的各项指标进行比较。
METHOD:Compound pellets were prepared by both methods of bed coating and automatic bed coating granulator .
结果所制备的重组水蛭素肠溶包衣微丸药物含量质量分数为3.513%。
Results The drug content of prepared recombinant hirudin coated-pellets was 3.513% (w).
重庆宏南科技有限公司是中国著名流化床干燥、制粒、微丸、包衣技术研发及设备专业制造商。
Chongqing Honor Science and Technology Company, LTD., is the famous pharmaceutical machinery manufacturer in China in fluid bed system for drying, granulation, pilling and film coating.
以甲基丙烯酸共聚物水分散体为包衣材料,建立微丸包衣数学模型指导包衣工艺。
Eudragit L30 D-55 was used as enteric coating material. A mathematical model was proposed to guide the coating technology.
通过单因素实验考察不同物料比对聚电解质包衣微凝胶膨胀性能、释放行为的影响。
The influences of different ratios of materials on the expansion property and the in vitro cumulative release of the coated microgels were evaluated by a single factor experiment.
通过单因素实验考察不同物料比对聚电解质包衣微凝胶膨胀性能、释放行为的影响。
The influences of different ratios of materials on the expansion property and the in vitro cumulative release of the coated microgels were evaluated by a single factor experiment.
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