Wenbin Cao, Huanchun Xing, Shuai Guo, Lin Wang, Xin Sui, Lijuan Huang, Yuan Luo, Jun Yang, Yongan Wang
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引用次数: 0
摘要
化学腐蚀造成的皮肤损伤是目前常见的皮肤病和中毒症状之一,其中氮芥化合物造成的损伤最为持久和严重。这些化学物质会穿透皮肤表层,进入真皮层,造成 DNA 损伤、氧化应激和炎症。然而,迄今为止,尚未发现有效的药物治疗方法。由于皮肤屏障的作用,即使是潜在的解毒剂也无法有效穿透皮肤表层发挥其作用。为解决这一问题,一种基于阿司匹林微针的创新透皮给药策略被提出。阿司匹林这种经典药物最早被发现不仅能减轻炎症和氧化应激,还能促进 DNA 修复,减少 DNA 损伤。阿司匹林微针可直接将药物输送到受损部位,通过皮肤屏障释放阿司匹林,并表现出良好的生物相容性。这些研究结果表明,阿司匹林微针具有促进伤口愈合的巨大潜力和广阔的应用前景。
Aspirin in the Form of Microneedle Repairs DNA and Reduces Inflammation in Persistent Skin Damage.
Skin damage caused by chemical corrosion is currently one of the common skin diseases and poisoning symptoms, with nitrogen mustard compounds causing the most persistent and severe damage. These chemicals penetrate the top layer of the skin, enter the dermis, and cause DNA damage, oxidative stress, and inflammation. However, to date, no effective drug treatment has been found. Even the potential antidotes could not effectively penetrate the top layer of the skin to exert their effects due to the skin barrier. To address this problem, an innovative transdermal drug delivery strategy based on aspirin microneedles was proposed. The classic medicine aspirin was first discovered not only to reduce inflammation and oxidative stress but also to promote DNA repair and reduce DNA damage. The aspirin microneedles directly delivered the drug to the damaged area, released aspirin through the skin barrier, and exhibited good biocompatibility. These findings indicate that aspirin microneedles have great potential for promoting wound healing and broad application prospects.
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