基于层状双氢氧化物/羧甲基纤维素-聚环氧乙烷生物纳米复合电纺纤维垫的双药递送系统：制备、表征、体外和体内研究。

Dual drug delivery system based on layered double hydroxides/carboxymethyl cellulose-poly ethylene oxide bionanocomposite electrospun fibrous mats: Fabrication, characterization, in-vitro and in-vivo studies.

作者信息

Yoosefi Sepideh, Rakhshani Amir, Montazeri Vahideh, Tavakoli Mohamadreza, Aliabadi Amin, Fatahi Yousef, Behrouzfar Helia, Keihankhadiv Shadi, Darbasizadeh Behzad, Motasadizadeh Hamidreza, Farhadnejad Hassan

机构信息

Department of Drug and Food Control, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran.

Department of Pharmaceutical Nanotechnology, Faculty of Pharmacy, Tehran university of Medical Sciences, Tehran, Iran.

出版信息

Int J Biol Macromol. 2022 Dec 1;222(Pt B):3142-3154. doi: 10.1016/j.ijbiomac.2022.10.087. Epub 2022 Oct 12.

DOI:10.1016/j.ijbiomac.2022.10.087

PMID:36243151

Abstract

The main goal of the present project was to design and develop ibuprofen (IBU) and layered double hydroxides-vancomycin (LDH-VAN) nanohybrid loaded bionanocomposite fibrous mats to increase the wound healing rate. Thus, first, LDH-VAN nanohybrid particles was synthesized by in-situ incorporation of VAN into the Mg-Al-LDH interlayers during the co-precipitation of hydroxides. Then, LDH-VAN/IBU/CMC-PEO bionanocomposite fibrous mats were fabricated by electrospinning technique. Test samples were examined XRD, SEM, TEM, TGA, and FTIR. In vitro drug release test was performed in the phosphate buffer solution (pH = 7.4) to prove the efficiency of the fabricated bionanocomposite fibrous mats as a sustained-release carrier for both VAN and IBU. All the fabricated bionanocomposite fibrous mats did not displayed any significant cytotoxicity on NIH/3 T3 fibroblast cells. The wound area in the rats treated with LDH-VAN/IBU/CMC-PEO bionanocomposite fibrous mats was less than other treatment groups. Based on histological analysis, the LDH-VAN/IBU/CMC-PEO bionanocomposite fibrous mats possess a faster wound healing than other nanofibrous mats. Data obtained from the present project indicated that LDH-VAN/IBU/CMC-PEO bionanocomposite fibrous mats could accelerate the wound healing process.

摘要

本项目的主要目标是设计并开发负载布洛芬（IBU）和层状双氢氧化物-万古霉素（LDH-VAN）纳米杂化物的生物纳米复合纤维垫，以提高伤口愈合速度。因此，首先，通过在氢氧化物共沉淀过程中将万古霉素原位掺入Mg-Al-LDH中间层来合成LDH-VAN纳米杂化物颗粒。然后，采用静电纺丝技术制备LDH-VAN/IBU/CMC-PEO生物纳米复合纤维垫。对测试样品进行了X射线衍射（XRD）、扫描电子显微镜（SEM）、透射电子显微镜（TEM）、热重分析（TGA）和傅里叶变换红外光谱（FTIR）检测。在磷酸盐缓冲溶液（pH = 7.4）中进行体外药物释放试验，以证明所制备的生物纳米复合纤维垫作为万古霉素和布洛芬缓释载体的有效性。所有制备的生物纳米复合纤维垫对NIH/3 T3成纤维细胞均未显示出任何显著的细胞毒性。用LDH-VAN/IBU/CMC-PEO生物纳米复合纤维垫治疗的大鼠伤口面积小于其他治疗组。基于组织学分析，LDH-VAN/IBU/CMC-PEO生物纳米复合纤维垫比其他纳米纤维垫具有更快的伤口愈合速度。本项目获得的数据表明，LDH-VAN/IBU/CMC-PEO生物纳米复合纤维垫可以加速伤口愈合过程。

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基于层状双氢氧化物/羧甲基纤维素-聚环氧乙烷生物纳米复合电纺纤维垫的双药递送系统：制备、表征、体外和体内研究。

Dual drug delivery system based on layered double hydroxides/carboxymethyl cellulose-poly ethylene oxide bionanocomposite electrospun fibrous mats: Fabrication, characterization, in-vitro and in-vivo studies.

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