Claims
- 1. A steerable sheath, comprising:
- an elongate flexible tubular housing, having proximal and distal ends and at least one central passageway extending axially therethrough;
- a deflection element secured to the housing at a first point, and extending axially along the housing;
- a pull element secured to the housing at a second point and extending axially along the housing, said second point rotationally displaced from said first point;
- a spring coil in the wall of at least a portion of the housing; and
- an elastomeric coil interfit within at least a portion of said spring coil;
- wherein axial proximal displacement of the pull element causes a lateral displacement of a portion of the tubular housing.
- 2. A steerable sheath as in claim 1, wherein said second point is rotationally displaced from said first point by at least about 90.degree..
- 3. A steerable sheath as in claim 2, wherein said second point is rotationally displaced from said first point by approximately 180.degree..
- 4. A steerable sheath as in claim 1, wherein said first point is within about 0.5 inches of the distal end of the sheath.
- 5. A steerable sheath as in claim 1, further comprising a force transmitter in a plane extending at a perpendicular to the longitudinal axis of the steerable sheath.
- 6. A steerable sheath as in claim 5, wherein said force transmitter comprises an annular ring.
- 7. A steerable sheath as in claim 1, wherein said elastomeric coil comprises silicone.
- 8. A steerable sheath of the type having an elongate flexible tubular body with a deflectable distal end and a high central lumen to outside diameter ratio, said sheath comprising:
- a tubular housing;
- a deflection element secured to the housing and extending axially along the housing;
- a pull element extending axially through the housing and secured with respect to the distal end of the housing;
- a spring coil in the wall of at least a portion of the housing; and
- an elastomeric layer extending along and in between adjacent filars of said spring coil;
- wherein axial displacement of the pull element laterally displaces the distal tip of the housing and wherein the diameter of the central lumen extending through the housing is at least about 65% of the outer diameter of the housing.
- 9. A steerable sheath as in claim 8, wherein the diameter of the central lumen extending through the housing is at least about 75% of the outer diameter of the housing.
- 10. A steerable sheath as in claim 8, further comprising a lateral force transmitter at the distal end of the housing, for mechanically linking the distal end of the pull element to the distal end of the deflection element.
- 11. A steerable sheath as in claim 8, further comprising a proximal solid walled portion of said housing.
- 12. A steerable sheath as in claim 8, wherein said polymer comprises silicone.
- 13. A steerable sheath as in claim 12, wherein the silicone surrounds all sides of the spring coil along at least a portion of the length of the spring coil.
- 14. A steerable sheath as in claim 8, further comprising an outer tubular sleeve spaced apart from the housing.
- 15. An irrigation and aspiration tool comprising:
- a tubular spring coil body, having a flexible distal region;
- an elastomeric coil interfit within at least a portion of the spring coil body; and
- a pull wire extending proximally from a distal end of the tubular body;
- wherein proximal axial displacement of the pull wire causes a lateral deflection of the flexible end of the tubular body.
- 16. An irrigation and aspiration tool as in claim 15, further comprising a tubular sleeve radially outwardly spaced apart from the spring coil to provide an annular flow passage.
- 17. An irrigation and aspiration tool as in claim 16, wherein the tubular spring coil body is axially movably positioned within the tubular sleeve.
BACKGROUND OF THE INVENTION
This is a continuation-in-part of U.S. patent application Ser. No. 08/031,810 filed Mar. 15, 1993 which is currently pending.
US Referenced Citations (24)
Foreign Referenced Citations (1)
Number |
Date |
Country |
343509 |
Nov 1989 |
EPX |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
31810 |
Mar 1993 |
|