OBJECTIVE To prepare ribavirin sustained-release pellets by centrifugal granulation technology.
目的研究离心造粒粉末层积法制备利巴韦林缓释微丸。
Objective To prepare benproperine phosphate sustained-release pellets and study its release characteristics.
目的制备磷酸苯丙哌林缓释微丸,评价其体外释药特性。
Objective To prepare aciclovir sustained-release pellets and investigate the drug release mechanism in vitro.
目的制备阿昔洛韦缓释微丸,并对其体外释药情况进行研究。
In this thesis, Metformin Hydrochloride pellets and sustained-release pellets were prepared by powder coating technology.
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。
By in-liquid drying, sustained-release pellets were prepared taking Eurdragit RL100 as coating material and drug-resin complex as core.
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。
Conclusion This method is simple, rapid and accurate, which is suitable for the quality control of sinomenine hydrochloride sustained-release pellets.
结论该方法简便、准确、快速,可用于盐酸青藤碱缓释微丸的含量测定及质量控制。
OBJECTIVE To compare the influence of different pore-forming agents and their amount on the release of budesonide enteric-coated sustained-release pellets.
目的比较不同致孔剂及其用量对水难溶性药物布地奈德肠溶缓释微丸释药行为的影响。
Objective to investigate the preparation and storage stability of the fenofibrate matrix sustained-release pellets by wet milling and extrusion-spheronization.
目的湿法研磨结合挤出滚圆法制备稳定性良好的非诺贝特骨架型缓释微丸。
Conclusions The glipizide film-controlled sustained-release pellets were successfully prepared and the in-vitro drug release conformed to the requirements of the sustained-release formulation.
结论成功制备了膜控型格列吡嗪缓释微丸,体外释放符合缓释制剂要求。
OBJECTIVE To study the dissolution profile of phosphate tetramethylpyrazine sustained release pellets coated with Eudragit pseudolatex.
目的研究磷酸川芎嗪丙烯酸树脂水分散体包衣缓释小丸的体外释药。
METHODS To prepare sustained release pellets using fluid bed, then to get pulsatile-sustained tablet after tabletting and coating.
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。
Paracetamol sustained release pellets were prepared using melt method.
采用熔融法制备了对乙酰氨基酚缓释微丸。
OBJECTIVE to prepare and evaluate the sustained release ketoprofen pellets by melt pelletization.
目的采用熔融法制备酮洛芬缓释微丸。
P. Conclusions Chitosan tripolyphosphate sodium could be used as a complex matrix material for sustained release pellets loading DS.
结论甲壳胺三聚磷酸钠可以作为双氯灭痛缓释微丸的骨架材料。
But Roxithromycin sustained release pellets with smaller size show a better bioavailability.
但小粒径罗红霉素缓释微丸具有更高的生物利用度。
Abstract: Response surface methodology was applied to optimize the drug loading rate of persimmon leaf total flavonoids sustained release pellets.
摘要:本文研究了响应面法优化柿叶总黄酮缓释微丸的载药量。
CONCLUSION The pellets show an obviously sustained-release effect.
结论制备的苦参碱缓释微丸具有明显缓释作用。
CONCLUSION The pellets show an obviously sustained-release effect.
结论制备的苦参碱缓释微丸具有明显缓释作用。
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