A novel biodegradable and biologically functional arginine-based poly(ester urea urethane) coating for Mg-Zn-Y-Nd alloy: enhancement in corrosion resistance and biocompatibility

A novel family of biodegradable pseudo-protein biomaterials, arginine (Arg)-based poly(ester urea urethane) (Arg-PEUU), were synthesized and applied as a better protective and bio-functional coating for bio-absorbable magnesium alloy MgZnYNd as a stent model. The Arg-PEUU coatings were stronger than poly(glycolide-colactide) (PLGA) coating with 11.9-103.4% higher critical lateral force. Electrochemical tests and in vitro immersion results demonstrated that the Arg-PEUU-coated MgZnYNd alloys have a significantly better corrosion resistance. The Arg-PEUU coating also showed reduced platelet adhesion and hemolysis rate in acute blood contact testing. Immunofluorescent actin and vinculin stainings showed that the Arg-PEUU coating had a far better cell adhesion of human umbilical vein endothelial cells (HUVEC), and also showed no cytotoxicity toward both HUVEC and human aortic smooth muscle cells (HASMC). The Arg-PEUU coating stimulated HUVEC to release significantly higher amounts of nitric oxide (NO) than the controls, suggesting the Arg-PEUU coating has the ability to retard thrombus and restenosis. The superb corrosion retardation, hemocompatibility and cytocompatibility of the Arg-PEUU coating as well as its induced indigenous NO production biofunctionality indicate that the newly developed Arg-PEUU biodegradable copolymer family may have the potential to offer a far greater protection of magnesium-based implantable cardiovascular stents.Rebecca Q. Morgan Foundation Grant; Cornell University Jeffrey S. Lehman Fund for Scholarly Exchange with China; Shenzhen Special Funds for Development of Strategic Emerging Industries [JCYJ20130402172114948]; China Scholarship Council [201506010197]SCI(E)ARTICLE91787-1802