Temperature‐Programmable Deformable Microneedles for Scar‐Free Healing of Infective Wounds via Sensory Nerve Regeneration

伤口愈合 再生(生物学) 感觉神经 体内 感觉系统 医学 材料科学 生物医学工程 病理 细胞生物学 生物 外科 神经科学 生物技术
作者
Yanlin Su,Mengde Zhang,Bingyang Yu,Tian Feng,Dongzhen Zhu,Xu Guo,Yuzhen Wang,Lin Ding,Zhao Li,Yi Kong,Wei Song,Chao Zhang,Jianjun Li,Liting Liang,Jinpeng Du,Qinghua Liu,Yue Kong,Xiaobing Fu,Sha Huang
出处
期刊:Small [Wiley]
卷期号:21 (20): e2501491-e2501491 被引量:4
标识
DOI:10.1002/smll.202501491
摘要

Infectious wound healing remains a complex challenge, complicated by bacterial infections, inflammation, and sensory nerve damage, which hinder healing and contribute to excessive scarring. For refractory wound healing, a temperature-programmable deformable microneedle (TPDM) is constructed, which can program at 85 °C through changes in time to maintain the shape for a corresponding period of time at 27 °C before returning to its original shape. In addition, his deformation is not temperature related, but rather caused by the separation of water phases to prevent skin burns from high temperatures and secondary impacts. The microneedles are characterized using scanning electron microscopy, transmission electron microscopy, and Nile red staining. Their antibacterial efficacy is confirmed through co-culture with methicillin-resistant Staphylococcus aureus (MRSA). In vitro, it promoted keratinocyte migration and facilitated sensory nerve regeneration. Furthermore, they significantly reduced scar-associated Engrailed-1 (EN-1)-positive fibroblasts and macrophages, which are key contributors to fibrotic responses. In vivo, it accelerated wound healing, reduced the accumulation of EN-1-positive fibroblasts and collagen I, and enhanced sensory nerve density and mitochondrial activity at the wound site. TPDM exhibits strong antibacterial properties against MRSA, promoting sensory nerve regeneration and reduces scarring, offering a promising therapeutic strategy for improving the healing of infectious wounds.
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