Stealth properties to improve therapeutic efficacy of drug nanocarriers.

Journal of drug delivery Pub Date : 2013-01-01 Epub Date: 2013-03-07 DOI:10.1155/2013/374252
Stefano Salmaso, Paolo Caliceti
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引用次数: 0

Abstract

Over the last few decades, nanocarriers for drug delivery have emerged as powerful tools with unquestionable potential to improve the therapeutic efficacy of anticancer drugs. Many colloidal drug delivery systems are underdevelopment to ameliorate the site specificity of drug action and reduce the systemic side effects. By virtue of their small size they can be injected intravenously and disposed into the target tissues where they release the drug. Nanocarriers interact massively with the surrounding environment, namely, endothelium vessels as well as cells and blood proteins. Consequently, they are rapidly removed from the circulation mostly by the mononuclear phagocyte system. In order to endow nanosystems with long circulation properties, new technologies aimed at the surface modification of their physicochemical features have been developed. In particular, stealth nanocarriers can be obtained by polymeric coating. In this paper, the basic concept underlining the "stealth" properties of drug nanocarriers, the parameters influencing the polymer coating performance in terms of opsonins/macrophages interaction with the colloid surface, the most commonly used materials for the coating process and the outcomes of this peculiar procedure are thoroughly discussed.

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提高纳米药物载体疗效的隐形特性。
在过去的几十年里,纳米载体已成为一种强大的给药工具,在提高抗癌药物疗效方面具有毋庸置疑的潜力。目前正在开发许多胶体给药系统,以改善药物作用的部位特异性并减少全身副作用。纳米载体体积小,可以静脉注射,进入靶组织释放药物。纳米载体会与周围环境,即血管内皮以及细胞和血液蛋白产生巨大的相互作用。因此,它们会被单核吞噬细胞系统迅速从血液循环中清除。为了使纳米系统具有长循环特性,人们开发了旨在改变其表面理化特性的新技术。特别是,通过聚合物涂层可以获得隐形纳米载体。本文深入探讨了强调药物纳米载体 "隐形 "特性的基本概念、影响聚合物涂层性能的参数(鸦片素/巨噬细胞与胶体表面的相互作用)、涂层过程中最常用的材料以及这一特殊过程的结果。
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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