Lipid Nanoparticles as Platforms for Theranostic Purposes: Recent Advances in the Field

N. Naziris, C. Demetzos
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引用次数: 3

Abstract

Lipid nanoparticles (LNPs) are the first approved nanomedicines and the most well-studied class of nanocarriers for drug delivery. Currently, they are in the frontline of the pandemic fight as vaccine formulations and therapeutic products. However, even though they are so well-studied, new materials and new modifications arise every day that can improve their properties. Their dynamic nature, especially the liquid crystal state of membranes, is under constant investigation and it is that which many times leads to their complex biological behavior. In addition, newly discovered biomaterials and nanoparticles that possess promising effects and functionalities, but also toxicity and/or poor pharmacokinetics, can be combined with LNPs to ameliorate their properties. As a result, many promising theranostic applications have emerged during the past decade, proving the huge potential of LNPs in the field. In the present review, we summarize some of the most prominent classes of LNPs for nanotheranostic purposes, and present state-of-the-art research examples, with emphasis on the utilized biomaterials and the functionality that they confer to the resultant supramolecular nanosystems, in relation to diagnostic and therapeutic modalities. Although there has been unprecedented progress in theranostics, the translational gap between the bench and the clinic is undeniable. This issue must be addressed by experts in a coordinated way, in order to fully exploit these nanomedicines for the benefit of the society.
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脂质纳米颗粒作为治疗目的的平台:该领域的最新进展
脂质纳米颗粒(LNPs)是最早被批准的纳米药物,也是研究最深入的一类用于药物递送的纳米载体。目前,它们作为疫苗配方和治疗产品处于抗击疫情的前线。然而,尽管它们得到了很好的研究,但每天都会出现新的材料和新的改性,可以改善它们的性能。它们的动力学性质,特别是膜的液晶状态,一直在研究中,正是这种性质导致了它们复杂的生物行为。此外,新发现的生物材料和纳米颗粒具有良好的效果和功能,但也具有毒性和/或较差的药代动力学,可以与LNP结合以改善其性能。因此,在过去的十年里,出现了许多有前景的治疗应用,证明了LNP在该领域的巨大潜力。在本综述中,我们总结了用于纳米治疗目的的一些最突出的LNP类别,并介绍了最先进的研究实例,重点是所使用的生物材料及其赋予所产生的超分子纳米系统的与诊断和治疗模式相关的功能。尽管在治疗学方面取得了前所未有的进展,但临床和临床之间的转化差距是不可否认的。专家们必须以协调一致的方式解决这个问题,以便充分利用这些纳米药物造福社会。
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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