Major advances have been made in coronary artery stent technology over the last decades. Drug-eluting stents reduced in-stent restenosis and have shown better outcomes compared with bare metal stents, yet some limitations still exist to their use. Because they delay healing of the vessel wall, longer dual antiplatelet therapy is mandatory to mitigate against stent thrombosis and this limitation is most concerning in subjects at high risk for bleeding. The COBRA PzF nanocoated coronary stent has been associated with accelerated endothelialization relative to drug-eluting stents, reduced inflammation and thromboresistance in preclinical studies, suggesting more flexible dual antiplatelet therapy requirement with potential benefits especially in those at high bleeding risk. Here, we discuss the significance of COBRA PzF in light of recent experimental and clinical studies.
Keywords: COBRA PzF stent; Polyzene F; healing; high bleeding risk; oral anticoagulation; stent.
Coronary artery disease occurs when the inner walls of the coronary arteries thicken due to plaque build-up. As the plaque develops, the inside of the artery narrows, and blood flow to the heart muscle is restricted. Coronary stents act as a miniature circular scaffolding that flexes to fit the shape of the artery. In the COBRA PzF nanocoated coronary stent, Polyzene F nanocoating (PzF) has been applied to the stent’s surface. Experimental studies have shown that PzF nanocoatings promote healing after stent implantation and reduce the attachment of platelets and inflammatory cells. The principal safety and effectiveness for the COBRA PzF stent has been proven by clinical studies, showing that the COBRA PzF stent was as safe and effective as other approved bare metal coronary stents. Here, we summarize the findings of experimental and clinical studies with the COBRA PzF stent and discuss potential future directions of anti-platelet and anti-coagulant medications following COBRA PzF stent implantation.