Characterization and Determination of the Biocompatibility of Porous Polytetrafluoroethylene Membranes Fabricated via Electrospinning

The structure and properties of polytetrafluoroethylene (PTFE) polymeric membranes obtained by electro-spinning from a suspension of PTFE in a solution of polyvinyl alcohol (PVA) with subsequent thermal treatment were presented. The effect of the PTFE suspension ratio in spinning solutions on the morphology, crystal structure, chemical composition, strength, and cytotoxicity of the formed PTFE membranes was evaluated. We found that a decrease in the PTFE suspension content in spinning solutions leads to a decrease in the number of defects in the membrane fibers, which increasing the strength and elongation. Membranes made from spinning solutions with a lower content of PTFE suspension have a higher degree of crystallinity and a more perfect crystal structure. It has been suggested that the products of PVA destruction during the heat treatment of PTFE/PVA membranes are capable of plasticizing effects on PTFE particles, improving the strength of PTFE membranes. The membranes after thermal treatment were not cytotoxic regardless of the PTFE suspension content in the spinning solutions. High biocompatibility of membranes was established during implantation into soft tissues.

Automated summary

The study presented the structure and properties of polytetrafluoroethylene (PTFE) polymeric membranes obtained by electro-spinning from a suspension of PTFE in a solution of polyvinyl alcohol (PVA) with subsequent thermal treatment. It was found that decreasing the PTFE suspension content in spinning solutions led to a decrease in the number of defects in membrane fibers, increasing strength and elongation, with higher crystallinity and improved crystal structure. The membranes after thermal treatment showed no cytotoxicity and high biocompatibility during implantation into soft tissues.