转运体:最新进展、机制、详尽应用、临床试验和专利。

Deeksha Manchanda, Manish Makhija, Parijat Pandey, Manu Sharma
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引用次数: 0

摘要

一个可行的纳米透皮给药系统一般应具有特定的理想和明显的特征,主要是在安全性、临床疗效和提高治疗指数方面。药物(尤其是大分子药物)的透皮给药是摆在制药科学家面前最棘手的障碍之一。技术的进步为利用微针阵列、烧蚀、激光等方法克服这一困难提供了一些机会。然而,相关的不安、疼痛感和较高的治疗成本限制了它们的日常使用。因此,研究人员致力于开发其他载体,如超可变形脂质体,也称为转移体。转移体由含有磷脂和边缘激活剂的脂质双分子层组成,便于通过透皮途径将药物输送到皮肤深层,提高全身生物利用度。与典型的脂质体相比,转移体的双层结构易于封装亲水性和亲油性药物,渗透性更高。因此,在各种囊泡系统中,转移体在靶向和持续给药方面备受关注。本综述主要强调转移体的关键方面,包括其应用、临床试验研究以及各种文献来源中的专利。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transfersomes: Recent Advances, Mechanisms, Exhaustive Applications, Clinical Trials, and Patents

A feasible nano transdermal delivery system generally intends to have specific ideal and distinct characteristics primarily for safety, clinical efficacy, and boosted therapeutic index. The delivery of drugs, particularly macromolecules, across the skin is one of the most strenuous obstacles in front of pharmaceutical scientists. Technology advancement has provided some opportunities to overcome this difficulty by utilising microneedle arrays, ablation, laser methods etc. However, associated uneasiness, painful sensation, and higher cost of therapies limit their day-to-day use. Therefore, researchers have focused on developing alternate carriers like ultra-deformable liposomes, also termed transfersomes. Transfersomes are composed of a lipid bilayer containing phospholipids and an edge activator to facilitate drug delivery via transdermal route to deeper layers of skin and for higher systemic bioavailability. The bilayer structure of transfersomes allows ease of encapsulation of both hydrophilic and lipophilic drugs with higher permeability than typical liposomes. Therefore, among various vesicular systems, transfersomes have developed much interest in targeted and sustained drug delivery. The current review primarily emphasizes critical aspects of transfersomes, including their applications, clinical trial studies, and patents found in various literature sources.

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