渗透
化学
药理学
类黄酮
局部麻醉
渗透(战争)
河豚毒素
麻醉
增强子
钠通道
局部麻醉剂
毒性
药品
布比卡因
坐骨神经
脂肪乳剂
脂质体
局部麻醉
膜
输送系统
作用机理
神经毒剂
药物输送
止痛药
利多卡因
体内
色谱法
作者
Yiyuan Han,Matthew Torre,Xiaojing Ma,Tianrui Xue,Yuan Wang,Sooyeon Jo,Akie Fujita,Bruce P. Bean,Daniel S. Kohane
标识
DOI:10.1073/pnas.2523195123
摘要
Site 1 sodium channel blockers (S1SCBs), such as tetrodotoxin (TTX) and neosaxitoxin, are ultrapotent local anesthetics with low tissue toxicity. Their duration of action is relatively brief, but increasing the dose can lead to systemic toxicity. Here, we report that selected flavonoids-puerarin (PUE), naringenin, and kaempferol-prolong nerve block from S1SCBs 4- to 25-fold. Using both tympanic membrane (TM) permeation and sciatic nerve fluorescence distribution models, we demonstrate the flavonoids increase drug penetration across biological barriers (the TM and the barriers in and around nerve), suggesting that they act as chemical permeation enhancers (CPEs). Importantly, flavonoids exhibited minimal tissue toxicity compared to conventional CPEs. Coencapsulation of TTX and PUE into a liposomal delivery system further prolonged local anesthesia to over 25 d from a single injection. These findings establish flavonoid compounds as a safe class of CPEs and provide a platform of long-acting, nonopioid pain therapies. Flavonoids may be attractive alternatives to conventional CPEs in biomedical applications.
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