Targeted Therapeutic Nanoparticles: An Immense Promise to Fight against Cancer.

Journal of drug delivery Pub Date : 2017-01-01 Epub Date: 2017-12-31 DOI:10.1155/2017/9090325
Sheikh Tasnim Jahan, Sams M A Sadat, Matthew Walliser, Azita Haddadi
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引用次数: 81

Abstract

In nanomedicine, targeted therapeutic nanoparticle (NP) is a virtual outcome of nanotechnology taking the advantage of cancer propagation pattern. Tying up all elements such as therapeutic or imaging agent, targeting ligand, and cross-linking agent with the NPs is the key concept to deliver the payload selectively where it intends to reach. The microenvironment of tumor tissues in lymphatic vessels can also help targeted NPs to achieve their anticipated accumulation depending on the formulation objectives. This review accumulates the application of poly(lactic-co-glycolic acid) (PLGA) and polyethylene glycol (PEG) based NP systems, with a specific perspective in cancer. Nowadays, PLGA, PEG, or their combinations are the mostly used polymers to serve the purpose of targeted therapeutic NPs. Their unique physicochemical properties along with their biological activities are also discussed. Depending on the biological effects from parameters associated with existing NPs, several advantages and limitations have been explored in teaming up all the essential facts to give birth to targeted therapeutic NPs. Therefore, the current article will provide a comprehensive review of various approaches to fabricate a targeted system to achieve appropriate physicochemical properties. Based on such findings, researchers can realize the benefits and challenges for the next generation of delivery systems.

Abstract Image

Abstract Image

靶向治疗纳米粒子:对抗癌症的巨大希望。
在纳米医学中,靶向治疗纳米粒子是纳米技术利用肿瘤传播模式的虚拟产物。将所有元素,如治疗或显像剂、靶向配体和交联剂与NPs结合在一起,是选择性地将有效载荷传递到其打算到达的地方的关键概念。淋巴管中肿瘤组织的微环境也可以帮助靶向NPs实现其预期的积累,具体取决于制剂目标。本文综述了聚乳酸-羟基乙酸(PLGA)和聚乙二醇(PEG)为基础的NP系统的应用,并特别从癌症的角度进行了综述。目前,PLGA、PEG或它们的组合是用于靶向治疗性NPs的主要聚合物。并对其独特的物理化学性质及其生物活性进行了讨论。根据与现有NPs相关的参数的生物学效应,已经探索了将所有基本事实组合在一起以产生靶向治疗性NPs的几个优点和局限性。因此,本文将提供各种方法来制造目标系统,以获得适当的物理化学性质的综合审查。基于这些发现,研究人员可以认识到下一代输送系统的好处和挑战。
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
Journal of drug delivery
Journal of drug delivery PHARMACOLOGY & PHARMACY-
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