化学合成的环丙沙星-PEG-FeO 纳米疗法具有很强的抗菌和可控细胞毒性作用。

Nanomedicine (London, England) Pub Date : 2024-04-01 Epub Date: 2024-03-26 DOI:10.2217/nnm-2023-0298
Hussan, Sobia Nisa, Syeda Asma Bano, Muhammad Zia
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引用次数: 0

摘要

目的:开发一种生物相容性共轭环丙沙星-PEG-FeO 纳米给药系统,以可控方式提高现有治疗药物的疗效。材料与方法:通过化学和生物方法合成了氧化铁纳米颗粒,并将其修饰为环丙沙星-PEG-氧化铁纳米制剂。在进行了初步的抗菌和细胞毒性研究后,进一步制备了有效且生物相容的纳米制剂,作为纳米治疗药物在小鼠模型中进行体内研究。结果化学合成的环丙沙星-PEG-FeO 纳米制剂对临床分离的细菌菌株具有更强的抗菌活性。纳米制剂还与小仓鼠肾21细胞和红细胞相容。在体内研究中,纳米疗法显示出伤口愈合效果,并能根除金黄色葡萄球菌感染。结论研究表明,所开发的纳米治疗剂可消除局部感染,并在细胞毒性可控的情况下促进伤口愈合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chemically synthesized ciprofloxacin-PEG-FeO nanotherapeutic exhibits strong antibacterial and controlled cytotoxic effects.

Aim: To develop a biocompatible conjugated ciprofloxacin-PEG-FeO nanodelivery system with increased efficacy of available therapeutics in a controlled manner. Materials & methods: FeO nanoparticles were synthesized by chemical and biological methods and modified as ciprofloxacin-PEG-FeO nanoformulations. After initial antibacterial and cytotoxicity studies, the effective and biocompatible nanoformulations was further fabricated as nanotherapeutics for in vivo studies in mouse models. Results: Chemically synthesized ciprofloxacin-PEG-FeO nanoformulations demonstrated boosted antibacterial activity against clinically isolated bacterial strains. Nanoformulations were also found to be compatible with baby hamster kidney 21 cells and red blood cells. In in vivo studies, nanotherapeutic showed wound-healing effects with eradication of Staphylococcus aureus infection. Conclusion: The investigations indicate that the developed nanotherapeutic can eradicate localized infections and enhance wound healing with controlled cytotoxicity.

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