透皮
纳米技术
药物输送
药品
前药
靶向给药
控制释放
不利影响
个性化医疗
制药工业
风险分析(工程)
制药技术
毒品携带者
输送系统
生物利用度
生化工程
药学
新兴技术
重症监护医学
医学
药理学
作者
Ruchita Patil,Ekta Pardhi,Neelesh Kumar Mehra
标识
DOI:10.1021/acs.cgd.5c00939
摘要
Nanocrystals (NCs) have emerged as a promising approach for improving the systemic delivery of poorly water-soluble drugs. While they are primarily recognized for enhancing drug dissolution, their in vivo behavior remains insufficiently understood. Recent advancements in NCs, hybrid nanocrystals (HNCs), and nanococrystals have significantly expanded their potential in drug delivery systems. Nanococrystals combine the advantages of NCs and pharmaceutical cocrystals, improving solubility, dissolution, and stability while preserving crystalline integrity. Prodrug-based nanocrystals (NCs) combine the benefits of nanocrystal technology with prodrug design, enabling improved solubility, stability, and controlled drug release for enhanced therapeutic efficacy. HNCs, incorporating lipids, polymers, or inorganic materials, enable controlled release, enhanced permeability, and targeted delivery, thereby supporting personalized medicine applications. Moreover, the integration of NCs into microneedle platforms facilitates transdermal and intradermal delivery, offering painless administration, bypassing first-pass metabolism, and improving patient compliance. These innovations collectively enhance therapeutic efficacy by improving bioavailability and minimizing adverse effects. This review highlights the latest progress in NCs-based formulations, discusses their advantages and current limitations, and outlines future perspectives in pharmaceutical sciences.
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