Physicochemical characterization of a hydrophilic microporous polyurethane vascular graft

Abstract

There is still a need for a viable small‐diameter synthetic vascular graft. The expanded PTEE device appears to be the best presently available, but is still inferior to the autologous saphenous vein. Recently, a novel microporous, small‐diameter vascular graft fabricated from Mitrathane, a polyether urethane urea (PEUU), has been developed. In this article, we report the findings of an in vitro evaluation of the morphological, mechanical, and chemical properties of this new device. The results are compared with those of established vascular prostheses made from alternative materials including expanded PTFE and bovine heterograft, and with natural blood vessels. The PEUU graft displays good mechanical properties in spite of the presence of some structural defects or anomalies. In particular it compares favorably to the expanded PTFE device by providing both superior radial compliance and improved suture tearing strength.