通过脂质体配方优化可用药性:一个旧概念的新方法。

Dimitrios Bitounis, Raphaelle Fanciullino, Athanassios Iliadis, Joseph Ciccolini
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引用次数: 72

摘要

开发创新的给药策略仍然是一项持续的任务,以提高药物治疗的有效性和安全性。纳米医学现在是一个很有前途的研究领域,对治疗各种疾病(如恶性肿瘤)的期望很高。将药物放入脂质体是一个始于20世纪60年代末的古老故事。由于脂质双分子层具有近乎完全的生物相容性,因此脂质体不太关心目前纳米医学中开发的大多数纳米物体可能在体内长期积累的安全性问题。此外,新技术和最近为实现更好的稳定性(例如,通过可脱落的涂层)所做的努力,加上对靶细胞的更高选择性(例如,通过锚定单克隆抗体或结合噬菌体融合蛋白),使新的脂质体药物成为改善各种疾病临床结果的一个有吸引力和具有挑战性的机会。本文综述了脂质体的物理化学性质和脂质体包膜药物制备的最新技术进展,并对其科学和医学意义进行了综述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Optimizing Druggability through Liposomal Formulations: New Approaches to an Old Concept.

Optimizing Druggability through Liposomal Formulations: New Approaches to an Old Concept.

Optimizing Druggability through Liposomal Formulations: New Approaches to an Old Concept.

Optimizing Druggability through Liposomal Formulations: New Approaches to an Old Concept.

Developing innovative delivery strategies remains an ongoing task to improve both efficacy and safety of drug-based therapy. Nanomedicine is now a promising field of investigation, rising high expectancies for treating various diseases such as malignancies. Putting drugs into liposome is an old story that started in the late 1960s. Because of the near-total biocompatibility of their lipidic bilayer, liposomes are less concerned with the safety issue related to the possible long-term accumulation in the body of most nanoobjects currently developed in nanomedicine. Additionally, novel techniques and recent efforts to achieve better stability (e.g., through sheddable coating), combined with a higher selectivity towards target cells (e.g., by anchoring monoclonal antibodies or incorporating phage fusion protein), make new liposomal drugs an attractive and challenging opportunity to improve clinical outcome in a variety of disease. This review covers the physicochemistry of liposomes and the recent technical improvements in the preparation of liposome-encapsulated drugs in regard to the scientific and medical stakes.

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