Nonglutaraldehyde treated porcine pericardium with good biocompatibility, reduced calcification and improved Anti-coagulation for bioprosthetic heart valve applications

“…6 Recent studies showed that the pathogenesis of SVD involves multiple active processes, which are heavily related to the cytotoxicity, thrombosis, protein deposition, immune response, calcification and endothelialization. 7 The immunogenicity of xenografts can be reduced by Glut cross-linking, while the current study shows that Glut treatment is insufficient to eliminate the immune response completely from the host. The foreign body reaction is considered as a nonspecific immune reaction during the implantation, which can be further enhanced by the nonspecific adhesion of serum proteins on the implanted surface.…”

Poly(2-methoxyethyl acrylate) coated bioprosthetic heart valves by copolymerization with enhanced anticoagulant, anti-inflammatory, and anti-calcification properties

“…6 Recent studies showed that the pathogenesis of SVD involves multiple active processes, which are heavily related to the cytotoxicity, thrombosis, protein deposition, immune response, calcification and endothelialization. 7 The immunogenicity of xenografts can be reduced by Glut cross-linking, while the current study shows that Glut treatment is insufficient to eliminate the immune response completely from the host. The foreign body reaction is considered as a nonspecific immune reaction during the implantation, which can be further enhanced by the nonspecific adhesion of serum proteins on the implanted surface.…”

Poly(2-methoxyethyl acrylate) coated bioprosthetic heart valves by copolymerization with enhanced anticoagulant, anti-inflammatory, and anti-calcification properties

“…A kind of nonglutaraldehyde-treated porcine pericardium treated with a bicyclic oxazolidine (OXOH) for the application of BHVs has been developed for the first time by Wang and co-workers (Figure 4). [108,109] Compared to the Glut-treated porcine pericardium, great biocompatibility, reduced anticalcification, improved anticoagulation, and proliferation of endothelial cells along with the similar satisfactory mechanical properties were proved for the OXOH-crosslinked porcine pericardium. Furthermore, the transcatheter aortic valve from OXOHcrosslinked porcine pericardium has also been manufactured, exhibiting desirable hydrodynamic and fatigue performance and great potential in the clinical application for BHVs.…”

“…Illustration of nonglutaraldehyde crosslinker OX-OH for bioprosthetic heart valve preparation with better biocompatibility, improved anticoagulation, reduced calcification, and enhanced endothelial cell adhesion properties. Reproduced with permission [108]. Copyright 2021, Elsevier.…”

Development of Innovative Biomaterials and Devices for the Treatment of Cardiovascular Diseases

“…Heart valve diseases are one of the critical factors causing high morbidity and mortality of cardiovascular diseases. [207] Tissue engineering heart valve is a novel idea for the development of artificial valve and the optimal option in valve surgery. Liu et al [51] fabricated PCL valve stents by coating 3D-printed valve cores with the PCL electrospinning membrane.…”

Combination of 3D Printing and Electrospinning Techniques for Biofabrication