鼻腔给药
药理学
氧化应激
活性氧
左旋多巴
生物利用度
药品
药物输送
多巴胺
医学
疾病
帕金森病
化学
皮肤老化
金刚烷胺
透皮贴片
运动障碍
透皮
神经炎症
前药
作者
Ting Li,Lanxin Xiao,Zhiqi Chen,Qiang He,Rui Zhang,Haochen Zou,Bowen Yang,Xinyu Zhao,Qun-Li Lei,Li Gao,Yun Ma,Ye Tao,Lixing Weng,Zheng Liu,Ting Wang,Lianhui Wang
出处
期刊:ACS Nano
[American Chemical Society]
日期:2026-02-23
卷期号:20 (9): 7817-7830
标识
DOI:10.1021/acsnano.5c20622
摘要
Parkinson’s disease (PD) imposes a heavy burden on the aging population. Current oral levodopa (LD) treatment faces dual challenges: poor brain bioavailability due to systemic barriers and motor complications from fluctuating drug levels. While intranasal delivery offers direct brain access, bypassing the blood–brain barrier, existing formulations still struggle to maintain stable drug concentrations needed to prevent motor fluctuations. Moreover, focusing solely on dopamine supplements overlooks the underlying oxidative stress that drives disease progression. Herein, we report an intranasal conformal patch composed of silk fibroin nanofibers that achieves stable drug delivery through moisture-responsive adhesion, sustained release, and enhanced LD stability. The patch further incorporates a dual-drug strategy combining LD supplementation with reactive oxygen species scavenging to delay neurodegeneration. In vivo results demonstrate that this daily patch effectively delivers nanomedicines to the brain, reverses pathological status, and restores normal behavioral patterns in PD models. This wearable drug reservoir enables sustained therapeutic effects while addressing oxidative damage, representing a significant advancement in PD treatment.
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