Multifunctional Microneedle Patches via Direct Ink Drawing of Nanocomposite Inks for Personalized Transdermal Drug Delivery

材料科学 透皮 制作 纳米技术 药物输送 墨水池 自愈水凝胶 生物医学工程 复合材料 医学 替代医学 病理 高分子化学 药理学
作者
Yanyan Li,Kerong Chen,Yushuang Pang,Jiaxue Zhang,Ming Wu,Yurui Xu,Shitai Cao,Xinxin Zhang,Shaolei Wang,Yuping Sun,Xinghai Ning,Xiaoliang Wang,Desheng Kong
出处
期刊:ACS Nano [American Chemical Society]
卷期号:17 (20): 19925-19937 被引量:47
标识
DOI:10.1021/acsnano.3c04758
摘要

Additive manufacturing, commonly known as 3D printing, allows decentralized drug fabrication of orally administered tablets. Microneedles are comparatively favorable for self-administered transdermal drug delivery with improved absorption and bioavailability. Due to the cross-scale geometric characteristics, 3D-printed microneedles face a significant trade-off between the feature resolution and production speed in conventional layer-wise deposition sequences. In this study, we introduce an economical and scalable direct ink drawing strategy to create drug-loaded microneedles. A freestanding microneedle is efficiently generated upon each pneumatic extrusion and controlled drawing process. Sharp tips of ∼5 μm are formed with submillimeter nozzles, representing 2 orders of magnitude improved resolution. As the key enabler of this fabrication strategy, the yield-stress fluid inks are formulated by simply filling silica nanoparticles into regular polymer solutions. The approach is compatible with various microneedles based on dissolvable, biodegradable, and nondegradable polymers. Various matrices are readily adopted to adjust the release behaviors of the drug-loaded microneedles. Successful fabrication of multifunctional patches with heterogeneously integrated microneedles allows the treatment of melanoma via synergistic photothermal therapy and combination chemotherapy. The personalized patches are designed for cancer severity to achieve high therapeutic efficacy with minimal side effects. The direct ink drawing reported here provides a facile and low-cost fabrication strategy for multifunctional microneedle patches for self-administering transdermal drug delivery.
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