Effect of luminal surface structure of decellularized aorta on thrombus formation and cell behavior
AbstractAs the number of cardiovascular diseases increases, artificial heart valves and blood vessels have been developed. Although cardiovascular application using decellularized tissue have been studied, the mechanism of their functionality is still unknown. To find the important factor for preparing decellularized cardiovascular prothesis which shows good in vivo performance, the effect of luminal surface structure of decellularized aorta on thrombus formation and cell behavior was investigated. Various luminal surface structures of decellularized aorta were prepared by heating, drying and peeling. The luminal surface structure and collagen denaturation was evaluated by immunohistological staining, collagen hybridizing peptide (CHP) staining and scanning electron microscopy (SEM) analysis. To evaluate the effect of luminal surface structure of decellularized aorta on thrombus formation and cell behavior, blood clotting test and recellularization of endothelial cells and smooth muscular cells were performed. The results of blood clotting test showed that the closer the luminal surface structure is to native aorta, the higher the anti-coagulant property. From the result of cell seeding-test, it was suggested that vascular cells recognize the luminal surface structure and regulate adhesion, proliferation and functional expression. These results will provide important factor for preparing decellularized cardiovascular prothesis and lead to future development on decellularized cardiovascular applications.