Non-lamellar lipid liquid crystalline nanoparticles: A smart platform for nanomedicine applications

Frontiers in Soft Matter Pub Date : 2023-03-15 DOI:10.3389/frsfm.2023.1109508

Marco Fornasier, S. Murgia

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引用次数: 1

Abstract

The increased interest of the scientific community in lipid nanoparticles has pushed the boundaries of personal medicine and drug delivery. The focus has been set on vesicular nanocarriers, as their structure and functionalities have been well described, but the application of their non-lamellar counterparts, cubosomes and hexosomes, has shown their potency as drug carriers. In addition, the sponge phase dispersion (L3, an intermediate between the lamellar and the bicontinuous cubic) has also been proved effective for the encapsulation of large macromolecules. Their physicochemical characterization has improved in the past decades due to the investigations conducted at high-power synchrotron facilities and the application of surface-sensitive techniques, discovering new connections between physical parameters and biological performance. Several administration routes of cubosomes and hexosomes have been studied, such as intravenous, dermal, transdermal, and oral, to evaluate their cytotoxicity and distribution in biological media. This review aims to summarize the challenges and recent achievements of cubosomes, hexosomes, and sponge nanoparticles as suitable carriers for the administration of bioactives.

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非层状脂质液晶纳米颗粒:纳米医学应用的智能平台

科学界对脂质纳米颗粒的兴趣日益浓厚，推动了个人医学和药物输送的界限。由于囊状纳米载体的结构和功能已经得到了很好的描述，因此重点放在了囊状纳米载体上，但它们的非层状对应物，立方体体和自体体的应用已经显示出它们作为药物载体的效力。此外，海绵相色散(L3，介于层状和双连续立方之间的中间体)也被证明对大分子的包封是有效的。在过去的几十年里，由于在高功率同步加速器设施上进行的研究和表面敏感技术的应用，它们的物理化学特性得到了改善，发现了物理参数和生物性能之间的新联系。研究了几种给药途径，如静脉注射、皮肤、透皮和口服，以评估它们的细胞毒性和在生物介质中的分布。本文综述了立方体体、己体体和海绵纳米颗粒作为生物活性药物的合适载体所面临的挑战和最近取得的成就。

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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Frontiers in Soft Matter

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