Development of Small-diameter Polyester Vascular Grafts Coated with Silk Fibroin Sponge.

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.

Small-diameter silk vascular grafts (3 mm diameter) with a double-raschel knitted silk tube coated with silk fibroin sponge.

Small-diameter (less than 6 mm in diameter) vascular grafts are highly desirable due to the large demand for surgical revascularization; however, there are no available artificial grafts. Vascular grafts of 1.5 mm diameter prepared by our group with silk fibroin fiber have been proved to be excellent grafts with remarkably high patency and remodeling, based on rat implantation experiment (Enomoto et al., 2010). In this study, a silk fibroin vascular graft with 3 mm diameter which can be used for the coronary arteries or lower extremity arteries is prepared with a double-raschel knitted Bombyx mori silk fiber tube coated with B. mori silk fibroin sponge. Here the silk sponge is prepared from an aqueous solution of the silk fibroin and poly(ethylene) glycol diglycidyl ether as porogen. Sufficient strength, proper elasticity, and protection from loose ends in the implantation process are obtained for the silk fibroin graft; low water permeability and relatively large compliance are also attained. These excellent physical properties make silk fibroin grafts suitable to be implanted in a canine model.