School of Pharmaceutical Education & Research, Jamia Hamdard, New Delhi, India.
Expert Opin Drug Deliv. 2023 Jun;20(6):739-755. doi: 10.1080/17425247.2023.2201494. Epub 2023 Apr 12.
Transdermal drug delivery is limited by the stratum corneum, inhibiting the therapeutic potential of the permeants. Microneedles (MNs) have opened new frontiers in transdermal drug delivery systems. These micro-sized needles offer painless and accentuated delivery of drugs even with high molecular weights.
The review embodies drug delivery strategies with MNs with a description of MN types and fabrication techniques using various materials. The application of MN is not limited to drug delivery, but it also encompasses in vaccine delivery, diagnosis, phlebotomy, and even in the cosmetic industry. The review also tabulates MN-based marketed formulations. In a nutshell, we aim to present a panoramic view of MNs, including the design, applications, and regulatory aspects of MN.
With the availability of numerous materials at the disposal of pharmaceutical scientists; the MN-based drug delivery technology has offered significant interventions toward the management of chronic maladies, including cardiovascular disorders, diabetes, asthma, mental depression, etc. As happens with any new technology, there are concerns with MN also such as biocompatibility issues with the material used for the fabrication. Nevertheless, the pharmaceutical industry must strive for preparing harmless, efficient, and cost-effective MN-based delivery systems for wider acceptance and patient compliance.
经皮给药受到角质层的限制,抑制了渗透物的治疗潜力。微针(MN)在经皮给药系统中开辟了新的前沿。这些微尺寸的针提供了无痛和增强的药物输送,即使是高相对分子质量的药物也是如此。
本综述体现了 MN 给药策略,描述了 MN 类型和使用各种材料的制造技术。MN 的应用不仅限于药物输送,还包括疫苗输送、诊断、采血甚至在化妆品行业。综述还列出了基于 MN 的市售制剂。简而言之,我们旨在全面介绍 MN,包括 MN 的设计、应用和监管方面。
随着众多材料可供制药科学家使用;基于 MN 的药物输送技术为管理心血管疾病、糖尿病、哮喘、精神抑郁等慢性疾病提供了重大干预措施。与任何新技术一样,MN 也存在一些问题,例如用于制造的材料的生物相容性问题。然而,制药行业必须努力制备无害、高效和具有成本效益的基于 MN 的输送系统,以获得更广泛的认可和患者依从性。
