材料科学
涂层
苯硼酸
胶束
儿茶酚
逐层
化学工程
药物输送
图层(电子)
化学
纳米技术
有机化学
水溶液
工程类
催化作用
作者
Lu Jiang,Weihua Zhuang,Linhua Li,Bo Zhang,Li Yang,Dongping Liu,Hongchi Yu,Rifang Luo,Yunbing Wang
标识
DOI:10.1021/acsami.9b01253
摘要
Tunable/sustained drug loading/releasing are of significance in addressing low cytotoxicity, long-term performance, and localized mild healing response in biomedical applications. With an ingenious design, a self-healing sandwiched layer-by-layer (LBL) coating was constructed by using chitosan/heparin as adopted polyelectrolytes with embedding of micelles, in which the chitosan backbone was grafted with catechol and the micelle was modified with exposed phenylboronic acid, endowing the coating with enhanced stability by abundant interactions among coating components (e.g., boric acid ester bond formation, weak intermolecular cross-linking, π-π interactions, and H-bonding). Moreover, rapamycin and atorvastatin calcium were selected as drug candidates and loaded into micelles, followed by drug-releasing behavior study. It was found that the LBL coating maintained a linear growth mode up to 30 cycles, giving a favorable tunability of coating construction and drug loading. The coating could also support sustained release of payloads and provide wild tissue response. With the systematic in vitro and in vivo study, such catechol-phenylboronic acid-enhanced LBL coating with drug loading would also address enhanced antiplatelet adhesion/activation and direct cell fate of endothelial cells and smooth muscle cells via tuning of coating cycles and loaded drugs. With modular assembly, such coating indicated potential for achieving enhanced re-endothelialization for vascular implants.
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