Patent ID: 7875233

Claim:
A method for fabricating a stent having increased strength, comprising: providing a first polymeric tube having a cylindrical axis; providing a stent pattern defining an orientation and shape of a bending portion of a stent strut relative to the cylindrical axis; applying a radial pressure and axial tension to the tube, including the steps of raising the temperature of the tube to above the glass transition temperature of the tube, and while at the raised temperature expanding the tube including simultaneously applying the axial tension and radial pressure to the tube according to a selected axial and radial draw ratio, respectively, wherein the axial and radial draw ratios are selected to cause polymer chains to align with the direction of stress and strain for the bending portion, after expanding the tube, cooling the tube to a temperature below the glass transition temperature while maintaining the applied pressure and tension to the tube; forming the stent from the deformed tube according to the stent pattern; crimping the stent to create a crimped state of the stent and then examining the stent's mechanical properties when in the crimped state; deploying the stent from the crimped state to a deployed state and then examining the stent's mechanical properties in the deployed state; selecting a new axial and radial draw ratio; providing a second polymeric tube having a cylindrical axis; and repeating the applying, forming, crimping and deploying step using the second tube and the new axial and radial draw ratio.