Microneedles’ Device: Design, Fabrication, and Applications

Macromol Pub Date : 2024-05-15 DOI:10.3390/macromol4020019

Cristiana Oliveira, J. Teixeira, Nelson Oliveira, Sónia Ferreira, C. Botelho

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Abstract

The delivery of therapeutical molecules through the skin, particularly to its deeper layers, is impaired due to the stratum corneum layer, which acts as a barrier to foreign substances. Thus, for the past years, scientists have focused on the development of more efficient methods to deliver molecules to skin distinct layers. Microneedles, as a new class of biomedical devices, consist of an array of microscale needles. This particular biomedical device has been drawing attention due to its ability to breach the stratum corneum, forming micro-conduits to facilitate the passage of therapeutical molecules. The microneedle device has several advantages over conventional methods, such as better medication adherence, easiness, and painless self-administration. Moreover, it is possible to deliver the molecules swiftly or over time. Microneedles can vary in shape, size, and composition. The design process of a microneedle device must take into account several factors, like the location delivery, the material, and the manufacturing process. Microneedles have been used in a large number of fields from drug and vaccine application to cosmetics, therapy, diagnoses, tissue engineering, sample extraction, cancer research, and wound healing, among others.

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微针设备：设计、制造和应用

由于角质层是阻挡外来物质的屏障，因此治疗分子通过皮肤，特别是深层皮肤的输送受到影响。因此，在过去的几年里，科学家们一直致力于开发更有效的方法，将分子输送到不同的皮肤层。微针作为一种新型生物医学设备，由一系列微型针头组成。这种特殊的生物医学设备能够穿透角质层，形成微通道以促进治疗分子的通过，因而备受关注。与传统方法相比，微针装置具有多种优势，如更好的药物依从性、简便性和无痛自行给药。此外，微针还可以快速或长期给药。微针的形状、大小和成分各不相同。微针装置的设计过程必须考虑多个因素，如给药位置、材料和制造工艺。微针已被广泛应用于药物和疫苗应用、美容、治疗、诊断、组织工程、样本提取、癌症研究和伤口愈合等领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Macromol

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