乙酰半胱氨酸
紫杉醇
化学
壳聚糖
黏膜黏附
渗透(战争)
粘液
药理学
机制(生物学)
药物输送
生物化学
有机化学
毒品携带者
医学
抗氧化剂
生物
化疗
哲学
外科
工程类
认识论
运筹学
生态学
作者
He Lian,Tianhong Zhang,Jin Sun,Xiaohong Liu,Guolian Ren,Longfa Kou,Youxi Zhang,Xiaopeng Han,Wenya Ding,Xiaoyu Ai,Chunnuan Wu,Lin Li,Yongjun Wang,Yinghua Sun,Siling Wang,Zhonggui He
摘要
In addition to being a physiological protective barrier, the gastrointestinal mucosal membrane is also a primary obstacle that hinders the oral absorption of many therapeutic compounds, especially drugs with a poor permeability. In order to resolve this impasse, we have designed multifunctional nanomicelles based on the acetylcysteine functionalized chitosan-vitamin E succinate copolymer (CS-VES-NAC, CVN), which exhibit marked bioadhesion, possess the ability to penetrate mucus, and enhance the oral absorption of a hydrophobic drug with a poor penetrative profile, paclitaxel. The intestinal absorption (Ka = 0.38 ± 0.04 min(-1), Papp = 0.059 cm · min(-1)) of CVN nanomicelles was greatly improved (4.5-fold) in comparison with paclitaxel solution, and CLSM (confocal laser scanning microscope) pictures also showed not only enhanced adhesion to the intestinal surface but improved accumulation within intestinal villi. The in vivo pharmacokinetics indicated that the AUC0-t (586.37 ng/mL · h) of CVN nanomicelles was markedly enhanced compared with PTX solution. In summary, the novel multifunctional CVN nanomicelles appear to be a promising nanocarrier for insoluble and poorly permeable drugs due to their high bioadhesion and permeation-enhancing capability.
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