Synthesis, Characterization and binding studies of Polymeric Nanoparticles using Gemcitabine Hydrochloride

Q3 Medicine
Maushmi S. Kumar, Velisha Mehta, Mayur Yc, D. Suares
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Abstract

Gemcitabine is a clinically valuable drug delivered intravenously. In order to explore other routes of administration for more efficacious drug delivery, its redevelopment for application through oral route with the help of nanotechnology is an ongoing thrust area. Nanotechnology helps the drug enter into tissues at the molecular level, with increased drug localisation and cellular uptake, larger surface area with modifiable biologic properties, mediate molecular interactions and identify molecular changes. The objective of the study was to use Eudragit RS100 to prepare polymeric nanoparticles of gemcitabine (GEM) in order to improve its half-life, reduce dosage and increase the stability of the drug. GEM polymeric nanoparticles were prepared by nanoprecipitation technique. They were characterized for particle size, zeta potential (ZP), drug content, entrapment efficiency (EE) and in-vitro drug release. Further, they were also evaluated using TEM, DSC and FTIR spectroscopy. Mechanistic insights of the synthesized nanoparticles were explored using a protein binding study, electrophoretic mobility shift assay (EMSA) and plasma protein binding study. Docking study was carried out to check the binding of the drug and polymer with DNA and protein. The synthesized GEM polymeric nanoparticles showed particle size in the range of 200-450 nm. Due to physical stability issues, optimized polymeric nanoparticles of GEM were lyophilized and exhibited a zeta potential of +11.9 mV, drug content 96.74% w/v and EE of 68-75% w/v. In-vitro drug release study demonstrated sustained release. Protein binding study with bovine serum albumin (BSA) revealed protein binding of GEM-loaded polymeric nanoparticles comparable with the marketed formulation (Oncogem 200, Cipla Ltd.). In addition to this, human plasma protein binding studies showed negligible interaction of GEM with plasma proteins with both formulations. EMSA displayed binding with CT-DNA. Lyophilized GEM nanoparticles were found to be stable and the mechanistic studies found them comparable to that of marketed formulation.
盐酸吉西他滨聚合物纳米颗粒的合成、表征及结合研究
吉西他滨是一种临床上有价值的静脉给药药物。为了探索其他更有效的给药途径,在纳米技术的帮助下,重新开发口服给药途径是一个正在进行的重点领域。纳米技术帮助药物在分子水平上进入组织,增加药物定位和细胞摄取,更大的表面积具有可修改的生物特性,介导分子相互作用并识别分子变化。本研究的目的是利用Eudragit RS100制备吉西他滨(GEM)的聚合纳米颗粒,以提高其半衰期,减少剂量,提高药物的稳定性。采用纳米沉淀法制备了GEM聚合物纳米颗粒。采用粒径、ζ电位(ZP)、药物含量、包封效率(EE)和体外释药等指标对其进行表征。并用TEM、DSC和FTIR对其进行了表征。通过蛋白质结合研究、电泳迁移迁移试验(EMSA)和血浆蛋白质结合研究,探索了合成纳米颗粒的机理。对接研究检查药物和聚合物与DNA和蛋白质的结合情况。所合成的纳米颗粒粒径在200 ~ 450 nm之间。由于物理稳定性问题,优化后的GEM聚合物纳米颗粒经过冻干处理,zeta电位为+11.9 mV,药物含量为96.74% w/v, EE为68-75% w/v。体外药物释放研究显示缓释。与牛血清白蛋白(BSA)的蛋白质结合研究表明,与市场上销售的制剂(Oncogem 200, Cipla Ltd.)相比,负载gem的聚合物纳米颗粒的蛋白质结合可媲美。除此之外,人血浆蛋白结合研究表明,两种制剂中GEM与血浆蛋白的相互作用可以忽略不计。EMSA显示与CT-DNA结合。冻干的GEM纳米颗粒被发现是稳定的,机理研究发现它们与市场上的制剂相当。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current Nanomedicine
Current Nanomedicine Medicine-Medicine (miscellaneous)
CiteScore
2.00
自引率
0.00%
发文量
15
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