Fabrication of Hollow Microneedle Patch With Controllable Microstructure for Cell Therapy

Ying-Hou Chen, Fang-Ying Wang, Yong-Shi Chan, Yi-You Huang
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引用次数: 1

Abstract

Microneedles pierce the epidermis to create micro-channels for drug delivery in a painless and minimally invasive way. With these micro-channels, large macromolecules can penetrate through the complex barriers of skin to reach the target tissue. Cell therapy delivers cells to repair or replace damaged tissue and generally involves direct injection into the tissue. But it has drawbacks, such as the risk of infection, low patient compliance due to pain at injection, leakage of cell suspensions from the injection site and cell damage during injection. Hollow microneedle arrays with various microstructures are successfully fabricated by micromolding, where their microstructure can be controlled by the laser power and the drawing pattern. The cells are easily loaded on top of hollow microneedles. The results show that PMMA hollow microneedles have good biocompatibility and the cells can be successfully delivered to the acellular tissue. This study confirms that the cells can be effectively delivered and penetrate into tissue by a hollow microneedle patch. The delivered cells proliferate and distribute evenly in the tissue. Hollow microneedles provide a minimally invasive route for effectively delivering cells into tissue. This novel strategy has potential application for cell therapy.
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微结构可控的细胞治疗用空心微针贴片的制备
微针刺穿表皮形成微通道,以无痛和微创的方式给药。有了这些微通道,大分子就可以穿透复杂的皮肤屏障到达目标组织。细胞疗法提供细胞来修复或替换受损组织,通常包括直接注射到组织中。但它也有缺点,比如感染的风险、注射时疼痛导致患者依从性低、细胞悬浮液从注射部位渗漏以及注射过程中细胞损伤。利用微模塑技术成功制备了具有多种微结构的空心微针阵列,其微结构可由激光功率和拉伸方式控制。这些细胞很容易装在空心微针上。结果表明,PMMA空心微针具有良好的生物相容性,可以成功地将细胞输送到脱细胞组织中。这项研究证实,细胞可以通过一个空心的微针贴片有效地传递并渗透到组织中。输送的细胞在组织中增殖并均匀分布。空心微针为有效地将细胞输送到组织中提供了一种微创途径。这种新策略在细胞治疗中具有潜在的应用前景。
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