In recent years, the demand for functional small-diameter (< 6 mm) artificial vascular grafts has greatly increased due to an increase in the number of patients with vascular heart disease. However, currently, there are no available commercial small-diameter grafts. The objective of this research was to develop a porous silk fibroin (SF)-coated poly(ethylene terephthalate) (PET) graft with a diameter < 6 mm. The graft was compared with a gelatin-coated PET graft because the latter PET graft with a diameter ~ 6 mm was widely used as a commercial vascular graft. Initially, porous SF was prepared using Glyc as the porogen [termed SF(Glyc)] and the PET grafts were prepared through the double-Raschel knitting method. Subsequently, the degradation of the SF coating was monitored using protease XIV in vitro and was compared with that observed in gelatin-coated PET grafts. Finally, these grafts were also implanted into rats for an in vivo comparison. In degradation experiments, after 7 days, the SF was clearly digested by protease XIV, but the gelatin on the graft was still remained at the outer surface. In implantation experiments in rats, the SF(Glyc)-coated PET graft was rapidly degraded in vivo and remodeling to self-tissues was promoted compared with the gelatin-coated PET graft. Thrombus formation and intimal hyperplasia were observed in the gelatin-coated PET graft; however, such side reactions were not observed in the SF(Glyc)-coated PET graft. Thus, the porous SF(Glyc)-coated PET graft with a small diameter < 6 mm may be useful as a commercial vascular graft.
Keywords: Silk fibroin; degradation; remodeling; small-diameter artificial vascular graft; vascular endothelial cell.