Viscoelastic behavior of polyurethane vascular prostheses

## Abstract In this study, the optimum electrospinning conditions for a thermoplastic polyurethane/__N,N__‐dimethylformamide solution were sought. Under these conditions, polyurethane tubes for artificial blood vessels were produced via electrospinning, and various properties of the specimen were m

Despite the compelling need for artificial connective tissue replacements for orthopedic applications, to date, there is no material which can adequately reproduce the mechanical behavior of natural tissue with necessary longterm endurance. In this work, we introduce a novel soft composite material

A new technique for the preparation of porous vascular prostheses was investigated. Polyurethane solution (5 to 15 wt%) was injected into a mold. After freezing at low temperature (OOC -196"C), solvents were dissolved out with water at 0°C to form porous tubes. The average pore size (several microns

Three polyurethane (PU) vascular grafts with novel designs were investigated and compared in terms of the microporous structure, reinforcement technology, polymer chemistry, microphase separation, and mechanical properties. The Corvita graft, composed of a poly(carbonate urethane) polymer, displayed

In order to improve understanding of the appearance of bright yellow stains in vivo (consecutive to the absorption of bilirubin) on a novel microporous, hydrophilic polyetherurethaneurea vascular prosthesis, the in vitro hemolytic activity of the material was compared with expanded polytetrafluoroet