Abstract
Vascular restenosis is the main factor affecting the prognosis of angioplasty in cardiovascular diseases, and inflammation is a central link in the progression of restenosis. Previous research that applies interleukin 10 (IL10) nanoparticles can effectively regulate local inflammation, but their targeted delivery efficacy remains to be improved. In this study, IL10 nanoparticles were successfully prepared and then coated by a preactive platelet membrane. The ability to target and regulate macrophage polarization has been demonstrated, thereby regulating smooth muscle cell and endothelial cell functions. In vivo experiments were carried out in a carotid artery injury model and verified the above functions and the effect on inhibiting vascular restenosis. Immune regulation-based platelet membrane coated nanoparticle loaded with IL10 proved to be an excellent candidate for targeting vascular injury and holds promise as an innovative drug delivery system for suppressing vascular restenosis.