Xiaohua Tian scite author profile

Thrombogenic reaction, aggressive smooth muscle cell (SMC) proliferation, and sluggish endothelial cell (EC) migration onto bioinert metal vascular stents make poststenting reendothelialization a dilemma. Here, we report an easy to perform, biomimetic surface engineering strategy for multiple functionalization of metal vascular stents. We first design and graft a clickable mussel-inspired peptide onto the stent surface via mussel-inspired adhesion. Then, two vasoactive moieties [i.e., the nitric-oxide (NO)-generating organoselenium (SeCA) and the endothelial progenitor cell (EPC)-targeting peptide (TPS)] are clicked onto the grafted surfaces via bioorthogonal conjugation. We optimize the blood and vascular cell compatibilities of the grafted surfaces through changing the SeCA/TPS feeding ratios. At the optimal ratio of 2:2, the surface-engineered stents demonstrate superior inhibition of thrombosis and SMC migration and proliferation, promotion of EPC recruitment, adhesion, and proliferation, as well as prevention of in-stent restenosis (ISR). Overall, our biomimetic surface engineering strategy represents a promising solution to address clinical complications of cardiovascular stents and other blood-contacting metal materials.

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Cooperative Spectrum Sharing in Cognitive Radio Networks: A Distributed Matching Approach

Feng

Sun

Gan

et al. 2014

IEEE Trans. Commun.

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Quality-Driven Auction-Based Incentive Mechanism for Mobile Crowd Sensing

Wen

Shi

Zhang

et al. 2015

IEEE Trans. Veh. Technol.

185

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Xiaohua Tian

Data Gathering with Compressive Sensing in Wireless Sensor Networks: A Random Walk Based Approach

Interference Exploitation in D2D-enabled Cellular Networks: A Secrecy Perspective

Bioclickable and mussel adhesive peptide mimics for engineering vascular stent surfaces

Cooperative Spectrum Sharing in Cognitive Radio Networks: A Distributed Matching Approach

Quality-Driven Auction-Based Incentive Mechanism for Mobile Crowd Sensing

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