Tough pNAGA hydrogel hybridized porcine pericardium for the pre-mounted TAVI valve with improved anti-tearing properties and hemocompatibility.

The rate of adoption of transcatheter aortic valve implantation (TAVI) is increasing rapidly, due to the procedure being less invasive. However, TAVI still faces problems relating to durability, the potential incidence of thrombosis, and the inconvenience of storage in glutaraldehyde (Glut) solution. In this work, a tough hydrogel poly(N-acryloyl glycinamide) (pNAGA) is hybridized with Glut-crosslinked porcine pericardium (Glut-PP) via in situ polymerization and glycerolization, so as to obtain dry leafet material for the fabrication of a pre-mounted bioprosthetic heart valve (BHV). The tensile strength, anti-shearing, and anti-tearing properties of the valve are significantly improved by the process of hydrogel hybridization. Following a period of dry-state compression as a simulation for the crimping process of pre-mounted TAV, pNAGA/Glut-PP showed full recovery without structural damage when fully rehydrated. The introduction of pNAGA also improved the blood compatibility of the tissue, with less clot formation and fewer blood cells adhering to the surface of pNAGA/Glut-PP than is found with Glut-PP. Subcutaneous implantation in rats showed that pNAGA/Glut-PP induced a decreased inflammatory response compared with Glut-PP. These results indicate that the strategy for hybridization with hydrogel could be a potential method for preparing pre-mounted TAVs with an improved performance.