米诺地尔
毛囊
化学
脱发
药理学
卵泡期
氧化应激
生物物理学
炎症
毛囊
头发周期
硫酸软骨素
刺激
毒性
人体皮肤
红斑
表皮(动物学)
小泡
真皮成纤维细胞
真皮
软骨素
药物输送
内分泌学
作者
Yikun Shang,Ziqiao Li,Y. S. Lin,Qiong’e Sun,Yali Sun,Zhisheng Li,Dandan Zhao,Wanting Liang,Hui Li,Meijing Wang,Xiang Su,Yan He,Xin Cheng,Xujie Liu
标识
DOI:10.1021/acsami.6c03910
摘要
leaf-derived extracellular vesicles (PO-EVs) and minoxidil nanoparticles (MXD NPs). PO-EVs were separated and characterized as nanoscale vesicles and were shown to possess antioxidant, anti-inflammatory, and pro-angiogenic activities relevant to hair follicle maintenance. MXD NPs were prepared by thin-film hydration to improve the minoxidil solubility and local retention. Both were loaded into microneedles with sufficient mechanical strength that could dissolve rapidly in the skin. In a mouse model of androgenic alopecia, repeated dual-loaded MN treatment accelerated the telogen-to-anagen transition, increased hair-covered area and shaft thickness, and restored follicular morphology. Mechanistic studies showed that hair follicle stem cells were activated and proliferated, perifollicular oxidative stress and inflammation were reduced, and microvessel density around hair follicles was increased. No evident skin irritation or systemic toxicity was observed. This MN codelivery strategy improves hair regrowth by combining efficient minoxidil delivery with PO-EV-mediated microenvironment restoration and may be extended to other inflammatory/oxidative skin disorders impairing regeneration.
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