Design, optimization, and evaluation of methotrexate loaded and albumin coated polymeric nanoparticles.

IF 3.6 4区 医学 Q2 ENGINEERING, BIOMEDICAL
Gaurav Tiwari, Anasuya Patil, Pranshul Sethi, Ankur Agrawal, Vaseem A Ansari, Mahesh Kumar Posa, Vaibhav Dagaji Aher
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Abstract

Methotrexate is a potent anticancer drug whose strong efflux is facilitated by the brain's efflux transporter. As an efflux transporter blocker, albumin increased the drug's concentration in the brain. Methotrexate-loaded nanoparticles were produced by evaporating the emulsification fluid. Improvements and analyses were made to the following aspects of the generated nanoparticles: size, polydispersity, zeta potential, entrapment efficiency, percentage yield, scanning electron microscopy, in vitro drug release studies, and sterilization. The particle size was determined to be in the nano range, and homogeneity of particle size was suggested by a low polydispersity index result. Particle diameters of 168 nm were observed in the F5 preparation, and zeta potential values of -1.5 mV suggested that the preparation produced adequate repulsive interactions between the nanoparticles. Albumin and dopamine HCl were employed to coat the methotrexate-loaded nanoparticles to guarantee that the brain received an adequate amount of them. The homogeneity of albumin coated nanoparticles was demonstrated by the low% PDI values of 0.129 and 0.122 for albumin coated nanoparticles (MNPs-Alb) and polymerized dopamine HCl and albumin coated nanoparticles (MNPs-PMD-Alb), respectively. After 48 h of incubation, the cell viability measured at the same drug concentration (5 mg) decreased for the F5, albumin coated nanoparticles, polymerized dopamine HCl coated nanoparticles, and polymerized dopamine HCl and albumin coated nanoparticles, respectively. Our primary findings demonstrate that the albumin nanoparticles containing methotrexate are designed to deliver the drug gradually. With minimal cytotoxicity, the intended preparation might give the brain an appropriate dosage of methotrexate.

甲氨蝶呤负载和白蛋白涂层聚合物纳米粒子的设计、优化和评估。
甲氨蝶呤是一种强效抗癌药物,大脑的外排转运体可促进其大量外排。作为一种外排转运体阻断剂,白蛋白可增加药物在大脑中的浓度。通过蒸发乳化液,生产出了载甲氨蝶呤的纳米颗粒。对生成的纳米颗粒的以下方面进行了改进和分析:粒度、多分散性、ZETA电位、夹带效率、产量百分比、扫描电子显微镜、体外药物释放研究和灭菌。粒度被确定为纳米级,低多分散指数结果表明粒度均匀。在 F5 制剂中观察到的颗粒直径为 168 nm,Zeta 电位值为-1.5 mV,表明该制剂在纳米颗粒之间产生了充分的排斥作用。白蛋白和盐酸多巴胺被用来包覆甲氨蝶呤负载的纳米颗粒,以保证大脑获得足量的甲氨蝶呤负载。白蛋白包覆纳米粒子(MNPs-Alb)和盐酸多巴胺与白蛋白聚合纳米粒子(MNPs-PMD-Alb)的 PDI 值分别为 0.129 和 0.122,较低的 PDI 值证明了白蛋白包覆纳米粒子的均匀性。培养 48 小时后,在相同的药物浓度(5 毫克)下,F5、白蛋白包覆纳米粒子、盐酸聚合多巴胺包覆纳米粒子以及盐酸聚合多巴胺和白蛋白包覆纳米粒子的细胞活力分别下降。我们的主要研究结果表明,含有甲氨蝶呤的白蛋白纳米粒子可逐步递送药物。在细胞毒性最小的情况下,预期的制剂可为大脑提供适当剂量的甲氨蝶呤。
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来源期刊
Journal of Biomaterials Science, Polymer Edition
Journal of Biomaterials Science, Polymer Edition 工程技术-材料科学:生物材料
CiteScore
7.10
自引率
5.60%
发文量
117
审稿时长
1.5 months
期刊介绍: The Journal of Biomaterials Science, Polymer Edition publishes fundamental research on the properties of polymeric biomaterials and the mechanisms of interaction between such biomaterials and living organisms, with special emphasis on the molecular and cellular levels. The scope of the journal includes polymers for drug delivery, tissue engineering, large molecules in living organisms like DNA, proteins and more. As such, the Journal of Biomaterials Science, Polymer Edition combines biomaterials applications in biomedical, pharmaceutical and biological fields.
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