Cubosomes as versatile lipid nanocarriers for neurological disorder therapeutics: a comprehensive review

Safa A Vahab, Ayushi Nair, Devika Raj, Akhil G P, Sreelakshmi P P, Vrinda S Kumar
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Abstract

Cubosomes are novel vesicular drug delivery systems with lipidic liquid crystal nanoparticles formed of predetermined proportions of amphiphilic lipids. They have a honeycomb-like structure and are thermodynamically stable. These bicontinuous lipid layers are separated into two water-based channels internally that can be used by various bioactive substances, including drugs, proteins, and peptides. This complex structure is responsible for its high drug-loading capacity. Cubosomes are thought to be promising vehicles for various routes of administration because of their extraordinary characteristics, including bioadhesion, the capacity to encapsulate hydrophilic, and hydrophobic, as well as amphiphilic substances, high resistance to environmental stress, and their ability to achieve controlled release through modification. One of the essential elements for improving patient compliance is the ability of these well-defined nano-drug delivery systems to boost the effectiveness of targeting while lowering the side effects/toxicities of payloads. The large internal surface area, a sufficiently uncomplicated fabrication procedure, and biodegradability make it an attractive nano lipid carrier for drug delivery. This review outlines the recent advancement of cubosomes for managing various neurological disorders, highlighting their potential in this field.

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立方体作为治疗神经系统疾病的多功能脂质纳米载体:综述
立方体体是一种新型的囊状药物递送系统,其脂质液晶纳米颗粒由预定比例的两亲性脂质组成。它们具有蜂窝状结构,并且热力学稳定。这些双连续的脂质层在内部被分成两个水基通道,可以被各种生物活性物质使用,包括药物、蛋白质和肽。这种复杂的结构是其高载药能力的原因。由于其非凡的特性,包括生物粘附性、包封亲水性、疏水性以及两亲性物质的能力、对环境胁迫的高抗性以及通过修饰实现控制释放的能力,立方体体被认为是各种给药途径的有前途的载体。提高患者依从性的基本要素之一是这些定义良好的纳米药物递送系统能够提高靶向治疗的有效性,同时降低有效载荷的副作用/毒性。大的内表面积,足够简单的制造过程,以及可生物降解性使其成为一种有吸引力的纳米脂质药物载体。这篇综述概述了立方体体治疗各种神经系统疾病的最新进展,强调了它们在这一领域的潜力。
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