Microneedle Technologies for Drug Delivery: Innovations, Applications, and Commercial Challenges

透皮 纳米技术 角质层 药剂师 医学 药物输送 风险分析(工程) 新兴技术 药品 皮下注射针 工程伦理学 化妆品 生物制药 工程类 喷墨打印 人类使用 临床实习 重新调整用途 药物开发 计算机科学 纳米医学 制药技术 靶向给药 生化工程 食品药品监督管理局
作者
Kranthi Gattu,Deepika Godugu,Harsha Jain,Krishna Jadhav,Hyunah Cho,Satish Rojekar
出处
期刊:Micromachines [Multidisciplinary Digital Publishing Institute]
卷期号:17 (1): 102-102
标识
DOI:10.3390/mi17010102
摘要

Microneedle (MN) technologies have emerged as a groundbreaking platform for transdermal and intradermal drug delivery, offering a minimally invasive alternative to oral and parenteral routes. Unlike passive transdermal systems, MNs allow the permeation of hydrophilic macromolecules, such as peptides, proteins, and vaccines, by penetrating the stratum corneum barrier without causing pain or tissue damage, unlike hypodermic needles. Recent advances in materials science, microfabrication, and biomedical engineering have enabled the development of various MN types, including solid, coated, dissolving, hollow, hydrogel-forming, and hybrid designs. Each type has unique mechanisms, fabrication techniques, and pharmacokinetic profiles, providing customized solutions for a range of therapeutic applications. The integration of 3D printing technologies and stimulus-responsive polymers into MN systems has enabled patches that combine drug delivery with real-time physiological sensing. Over the years, MN applications have grown beyond vaccines to include the delivery of insulin, anticancer agents, contraceptives, and various cosmeceutical ingredients, highlighting the versatility of this platform. Despite this progress, broader clinical and commercial adoption is still limited by issues such as scalable and reliable manufacturing, patient acceptance, and meeting regulatory expectations. Overcoming these barriers will require coordinated efforts across engineering, clinical research, and regulatory science. This review thoroughly summarizes MN technologies, beginning with their classification and drug-delivery mechanisms, and then explores innovations, therapeutic uses, and translational challenges. It concludes with a critical analysis of clinical case studies and a future outlook for global healthcare. By comparing technological progress with regulatory and commercial hurdles, this article highlights the opportunities and limitations of MN systems as a next-generation drug-delivery platform.
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