School of Pharmacy, Queen's University Belfast, Medical Biology Centre, 97 Lisburn Road, Belfast BT9 7BL, UK.
Drug Deliv. 2010 May;17(4):187-207. doi: 10.3109/10717541003667798.
Many promising therapeutic agents are limited by their inability to reach the systemic circulation, due to the excellent barrier properties of biological membranes, such as the stratum corneum (SC) of the skin or the sclera/cornea of the eye and others. The outermost layer of the skin, the SC, is the principal barrier to topically-applied medications. The intact SC thus provides the main barrier to exogenous substances, including drugs. Only drugs with very specific physicochemical properties (molecular weight < 500 Da, adequate lipophilicity, and low melting point) can be successfully administered transdermally. Transdermal delivery of hydrophilic drugs and macromolecular agents of interest, including peptides, DNA, and small interfering RNA is problematic. Therefore, facilitation of drug penetration through the SC may involve by-pass or reversible disruption of SC molecular architecture. Microneedles (MNs), when used to puncture skin, will by-pass the SC and create transient aqueous transport pathways of micron dimensions and enhance the transdermal permeability. These micropores are orders of magnitude larger than molecular dimensions, and, therefore, should readily permit the transport of hydrophilic macromolecules. Various strategies have been employed by many research groups and pharmaceutical companies worldwide, for the fabrication of MNs. This review details various types of MNs, fabrication methods and, importantly, investigations of clinical safety of MN.
许多有前途的治疗剂由于生物膜(如皮肤的角质层 (SC) 或眼睛的巩膜/角膜等)的出色屏障特性而无法到达全身循环,因此受到限制。皮肤的最外层,即 SC,是局部应用药物的主要屏障。完整的 SC 因此为包括药物在内的外源物质提供了主要屏障。只有具有非常特定物理化学特性(分子量 < 500 Da、足够的亲脂性和低熔点)的药物才能成功经皮给药。亲水性药物和感兴趣的大分子药物(包括肽、DNA 和小干扰 RNA)的经皮递送存在问题。因此,促进药物穿透 SC 可能涉及绕过或可逆破坏 SC 分子结构。微针 (MN) 用于刺穿皮肤时,将绕过 SC 并创建具有微米尺寸的瞬态水传输途径,并增强经皮渗透性。这些微孔的尺寸比分子尺寸大几个数量级,因此应该很容易允许亲水分子的运输。世界各地的许多研究小组和制药公司都采用了各种策略来制造 MN。本综述详细介绍了各种类型的 MN、制造方法,以及重要的 MN 临床安全性研究。