Claims
- 1. A self-expanding stent and delivery system for deploying the self-expanding stent in a curved body lumen, comprising:a cylindrically-shaped self-expanding stent including a superelastic alloy, wherein the superelastic alloy includes a low temperature phase that induces a first shape to the stent, and a high temperature phase that isothermally induces a second shape with a bend along a length of the stent, wherein the bend substantially conforms to the curved body lumen; a delivery sheath having a hollow interior at least partially containing the stent in the first shape; a radiopaque pattern disposed in the delivery sheath, wherein the pattern includes a tubular shape affangement of rings interconnected by a spine; wherein the stent is positioned in the delivery sheath so that the bend in the stent is oriented relative to the spine.
- 2. The self-expanding stent and delivery system of claim 1, wherein the radiopaque pattern includes a radiopaque material selected from the group consisting of gold, platinum, tantalum, tungsten, barium, or bismuth.
- 3. The self-expanding stent and delivery system of claim 1, wherein the high temperature corresponds to an austenitic phase and the low temperature corresponds to a martensitic phase.
- 4. The self-expanding stent and delivery system of claim 1, wherein the spine includes a circular cross-sectional shape.
- 5. The self-expanding stent and delivery system of claim 1, wherein the superelastic alloy includes nickel and titanium.
- 6. The self-expanding stent and delivery system of claim 1, wherein the second shape includes a tapered profile.
- 7. The self-expanding stent and delivery system of claim 1, wherein the superelastic alloy includes a nickel-titanium alloy with at least 30 to 52 percent titanium, and a ternary element that is selected from the group of elements consisting of palladium, platinum, chromium, iron, cobalt, vanadium, manganese, boron, copper, aluminum, tungsten, tantalum, or zirconium.
- 8. The self-expanding stent and delivery system of claim 7, wherein the superelastic alloy includes at least 38 percent nickel and up to 10 percent of the ternary element.
- 9. The self-expanding stent and delivery system of claim 1, wherein the radiopaque pattern is embedded to the delivery sheath.
- 10. A self-expanding stent and delivery system for deploying the self-expanding stent in a curved body lumen, comprising:a cylindrically-shaped self-expanding stent including a superelastic alloy, wherein the superelastic alloy includes a low temperature phase that induces a first shape to the stent, and a high temperature phase that induces a second shape without application of heat and with at least one bend along a length of the stent, wherein the at least one bend substantially conforms to at least a curved section of the curved body lumen; an elastic delivery sheath having a hollow interior at least partially restraining the stent in the first shape; a flexible radiopaque pattern disposed in the delivery sheath, wherein the pattern includes a tubular shape arrangement of rings interconnected by a spine; wherein the stent is held in the delivery sheath so that the bend in the stent is oriented relative to the spine.
- 11. The self-expanding stent and delivery system of claim 10, wherein the bend in the stent is aligned proximate to the spine when the stent is held inside the delivery sheath.
- 12. The self-expanding stent and delivery system of claim 10, wherein the bend in the stent is oriented approximately 180 degrees rotation from the spine when the stent is held inside the delivery sheath.
- 13. The self-expanding stent and delivery system of claim 10, wherein the second shape includes a taper along a length thereof.
- 14. The self-expanding stent and delivery system of claim 10, wherein the superelastic alloy includes nickel-titanium alloy having an austenitic phase above approximately 37 degrees C.
- 15. The self-expanding stent and delivery system of claim 10, wherein the delivery sheath includes a polymer and the radiopaque pattern is embedded in the polymer.
- 16. A process for deploying a self-expanding stent in a curved body lumen with a delivery system, comprising:providing a cylindrically-shaped self-expanding stent including a superelastic alloy, wherein the superelastic alloy includes a low temperature phase that induces a first shape to the stent, and a high temperature phase that isothennally induces a second shape with a bend along a length of the stent, wherein the bend substantially conforms to the curved body lumen; providing a delivery sheath having a hollow interior at least partially containing the stent in the first shape; providing a radiopaque pattern in the delivery sheath, wherein the pattern includes a tubular shape arrangement of rings interconnected by a spine; installing the stent in the first shape inside the delivery sheath; positioning the stent in the delivery sheath so that the bend in the stent is oriented relative to the location of the spine.
- 17. The process for deploying a self-expanding stent in a curved body lumen of claim 16, wherein the process includes orienting the bend in the stent in approximate alignment with the spine.
- 18. The process for deploying a self-expanding stent in a curved body lumen of claim 16, wherein the process includes orienting the bend in the stent approximately 180 rotational degrees from the spine.
- 19. The process for deploying a self-expanding stent in a curved body lumen of claim 16, wherein the superelastic alloy includes a nickel-titanium alloy having a low temperature martensitic phase and a high temperature austenitic phase.
- 20. The process for deploying a self-expanding stent in a curved body lumen of claim 16, wherein the radiopaque strut pattern is fabricated from wire.
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is a continuation-in-part of co-pending application having U.S. Ser. No. 09/586,211, filed Jun. 2, 2000, entitled “Curved Nitinol Stent For Extremely Tortuous Anatomy,” the entire contents of which are hereby incorporated by reference.
US Referenced Citations (44)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09/586211 |
Jun 2000 |
US |
Child |
09/796183 |
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US |