Qi Wang scite author profile

The treatment difficulties of venous thrombosis include short half-life, low utilization, and poor penetration of drugs at thrombus site. Here, we develop one kind of mesoporous/macroporous silica/platinum nanomotors with platelet membrane (PM) modification (MMNM/PM) for sequentially targeting delivery of thrombolytic and anticoagulant drugs for thrombus treatment. Regulated by the special proteins on PM, the nanomotors target the thrombus site and then PM can be ruptured under near-infrared (NIR) irradiation to achieve desirable sequential drug release, including rapid release of thrombolytic urokinase (3 hours) and slow release of anticoagulant heparin (>20 days). Meantime, the motion ability of nanomotors under NIR irradiation can effectively promote them to penetrate deeply in thrombus site to enhance retention ratio. The in vitro and in vivo evaluation results confirm that the synergistic effect of targeting ability from PM and motion ability from nanomotors can notably enhance the thrombolysis effect in both static/dynamic thrombus and rat model.

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Molecular basis for the targeted binding of RGD-containing peptide to integrin αVβ3

Wang

Liu

et al. 2014

Biomaterials

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Reconstruction of Circulation in the Fingertip Without Vein Repair in Zone I Replantation

Zhang

Wen

Wang

et al. 2008

The Journal of Hand Surgery

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Qi Wang

Platelet-derived porous nanomotor for thrombus therapy

Molecular basis for the targeted binding of RGD-containing peptide to integrin αVβ3

Reconstruction of Circulation in the Fingertip Without Vein Repair in Zone I Replantation

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