V. Parashar, D. Ahmad, S. Gupta, N. Upmanyu, Neha Parashar, V. Mudgal
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引用次数: 13
摘要
本研究的目的是研制可生物降解的替硝唑微球。用牛血清白蛋白制备微球。它们分四批生产。采用乳液交联法制备。每种配方的BSA含量不同。评价了制剂的粒径、熔点、薄层色谱、包封效率和体外释放研究。根据药物与聚合物的比例,包封和负载的范围分别为48%、55%、75%和78% (in %)。用复合显微镜测量制备的微球的粒径。用扫描电镜观察了微球的表面形貌和内部织构。微球呈球状、离散、致密,粒径分布在33.28 ~ 36.25 μm之间。在不同的pH下进行了18小时的体外研究,并与市售配方进行了比较。结果表明,随着聚合物浓度的增加,微球的释放具有更强的可控性和缓释性。释药量分别为66、51、48、42 (in %)。1:4的药物释放时间最长且最稳定。药物和制剂的红外光谱基本一致。在1500 ~ 1250 cm−1的红外区域,由于N=O拉伸和S=O记录了组合多音。关键词:可生物降解微球,牛血清白蛋白,替硝唑,体外释放IntroductionMicrospheres
Formulation and evaluation of biodegradable microspheres of tinidazole
The aim of present study is to develop biodegradable microspheres of Tinidazole. Bovine Serum Albumin was used for the preparation of microspheres. They were made in four batches. The emulsion cross-linking method was used for the preparation. The quantity of BSA varies for each formulation. Formulations were evaluated for particle size, Melting point, TLC, entrapment efficiency and in vitro release studies. Depending upon the drug to polymer ratio, the entrapment, loading were found to range between 48, 55, 75 and 78 (in %) respectively. Particle size of prepared microspheres was measured using a compound microscope. The surface topography and internal textures of the microspheres was observed by scanning electron microscopy. The microspheres were spherical, discrete and compact and size distribution was between 33.28 to 36.25 μm. In vitro studies were carried out at different pH for a period of 18 h and compared with marketed formulation. From all the batches it is concluded that when concentration of polymer increases microspheres shows more controlled and prolonged release. The drug release was between 66, 51, 48, 42 (in %). The drug release from 1:4 is most prolonged and constant. Both the IR spectra of drug and formulation were almost same. Combination multitone recorded due to N=O stretching and S=O in the IR region of 1500-1250 cm−1. Keywords: Biodegradable microspheres, BSA, Tinidazole, In vitro release.IntroductionMicrospheres
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