Evaluation of the biodurability of polyurethane-covered stent using a flowphantom

Objective: To evaluate the biodurability of the covering material in retrie vable metallic stents covered with polycarbonate polyurethane. Materials and Methods: Using a peristaltic pump at a constant rate of 1 ml/ min, bile was recirculated from a reservoir through a long tube containing four stents. Each of these was removed from the system every two weeks and a radial tensile strength test and scanning electron microscopy (SEM) were performed. Each stent, removed at 2, 4, 6 and 8 weeks, was compared with a control stent not exposed to bile juice. Results: Gross examination showed that stents were intact at 2 weeks, but a t 4, 6 and 8 weeks cracks were observed, The size of these increased gradua lly in accordance with the duration of exposure, and at 8 weeks several lar ge holes in the polyurethane membrane were evident. With regard to radial t ensile strength, extension and peak load at break were 84.47% and 10.030 N/ mm, 54.90% and 6.769 N/mm, 16.55% and 2.452 N/mm, 11.21% and 1.373 N/mm at 0, 2, 4 and 6 weeks, respectively. Scanning electron microscopy at 2 weeks revealed intermittent pitting and cracking, and examination at 4, 6 and 8 w eeks showed that the size of these defects was gradually increasing. Conclusion: When the polyurethane membrane was exposed to bile, biodegradat ion was first observed at week two and increased gradually according to the duration of exposure.