Spiderweb‐Shaped Iron‐Coordinated Polymeric Network as the Novel Coating on Microneedles for Transdermal Drug Delivery Against Infectious Wounds

透皮 涂层 材料科学 药物输送 纳米技术 药品 聚合物 组合化学 化学 药理学 复合材料 医学
作者
Xinwei Fu,Tao Zhang,Chuanlan Xia,Shan Du,Bo Wang,Zhensen Pan,Yunlong Yu,Peng Xue,Bin Wang,Yuejun Kang
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:13 (29): e2401788-e2401788 被引量:12
标识
DOI:10.1002/adhm.202401788
摘要

Abstract Coated microneedles (CMNs) are a minimally invasive platform for immediate‐release transdermal drug delivery. However, the practical applications of CMNs have been significantly hindered by the challenges associated with complex formulations, single function, and limited drug loading capacity. This study has developed a spiderweb‐shaped iron‐coordinated polymeric nanowire network (Fe‐IDA NWs). The resulting Fe‐IDA NWs are endowed with a certain viscosity due to the synergy of multiple supramolecular interactions. This allows them to replace traditional polymeric thickeners as microneedle coatings. The Fe‐IDA NWs‐coated microneedles (Fe‐IDA MNs) display rapid disintegration in the skin model, which also enables the swift diffusion of Fe‐IDA NWs and their payloads into the deeper skin layers. Additionally, Fe‐IDA MNs exhibit desirable enzymatic activity and potential antibacterial ability. Thus, Fe‐IDA MNs can enhance the therapeutic efficacy against wound infection through synergistic effects, and avoid the overly complicated formulation and the release of nontherapeutic molecules of conventional CMNs. As a proof‐of‐concept, Fe‐IDA MNs loaded with chlorin e6 showed a synergistic chemodynamic‐photodynamic antibacterial effect in a methicillin‐resistant Staphylococcus aureus‐infected wound model in mice. Collectively, this work has significant implications for the future of CMNs‐based transdermal drug delivery systems and expands the application fields of metal coordination polymer (MCP) materials.
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