靶向药物递送的响应性纳米结构

Vaishali S. Pawar, P. Maske, Amreen Khan, Arnab Ghosh, Roshan Keshari, Mahek Bhatt, R. Srivastava
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引用次数: 2

摘要

目前,考虑到反应性生物材料在各种生物医学系统中提供可控和可预测的结果,智能、反应性生物材料已被广泛探索。响应性纳米结构在刺激的存在下经历可逆或不可逆的变化,刺激可以是温度、磁场、超声波、pH值、湿度、压力、光、电场等。在药物传递中使用的不同类型的刺激应在这里解释。本文还介绍了反应性纳米结构生物材料的设计、开发和应用方面的最新研究进展。更多的重点将放在探索各种纳米结构的智能刺激反应药物递送的目标部位,如伤口愈合,癌症治疗,炎症和疼痛管理,以达到提高疗效和可持续性与最低的副作用。然而,开发具有有序输出的、定义良好的响应性纳米结构仍然是一个很大的挑战;因此,在这些纳米结构的设计和开发过程中所面临的挑战也将包括在本文中。本文将讨论反应性纳米结构在靶向药物递送中的临床前景和适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Responsive Nanostructure for Targeted Drug Delivery
Currently, intelligent, responsive biomaterials have been widely explored, considering the fact that responsive biomaterials provide controlled and predictable results in various biomedical systems. Responsive nanostructures undergo reversible or irreversible changes in the presence of a stimulus, and that stimuli can be temperature, a magnetic field, ultrasound, pH, humidity, pressure, light, electric field, etc. Different types of stimuli being used in drug delivery shall be explained here. Recent research progress in the design, development and applications of biomaterials comprising responsive nanostructures is also described here. More emphasis will be given on the various nanostructures explored for the smart stimuli responsive drug delivery at the target site such as wound healing, cancer therapy, inflammation, and pain management in order to achieve the improved efficacy and sustainability with the lowest side effects. However, it is still a big challenge to develop well-defined responsive nanostructures with ordered output; thus, challenges faced during the design and development of these nanostructures shall also be included in this article. Clinical perspectives and applicability of the responsive nanostructures in the targeted drug delivery shall be discussed here.
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