Claims
- 1. A lead assembly, comprising:
a tubular housing having a proximal end, a fixation mechanism, and a first electrode; a lead body having a first end coupled to the proximal end of the tubular housing, a first elongated noncoiled conductor cable in electrical communication with the first electrode, an insulative sleeve coating the first noncoiled conductor cable, and a second end; and a connector having a distal end coupled to the second end of the lead body for coupling to a cardiac stimulator.
- 2. The lead assembly of claim 1, comprising a second electrode and a second elongated noncoiled conductor cable in electrical communication with the second electrode.
- 3. The lead assembly of claim 1, wherein the sleeve is composed of a body-dissolvable material.
- 4. The lead assembly of claim 1, comprising a stylet removably and slidably disposed within the sleeve for spatially manipulating the lead assembly.
- 5. The lead assembly of claim 4, wherein the stylet has a generally circular-segment cross-section.
- 6. The lead assembly of claim 1, wherein the lead body has a diameter smaller than about 4.7 French.
- 7. The lead assembly of claim 1, wherein the fixation mechanism comprises a corkscrew.
- 8. The lead assembly of claim 1, wherein the fixation mechanism comprises a tine projecting outwardly from the tubular housing.
- 9. A lead assembly, comprising:
a connector having a proximal end for coupling to a cardiac stimulator; a first noncoiled conductor cable coupled to the connector and having a first distal end; a first electrode coupled to the first distal end of the first noncoiled conductor cable, the first electrode having a fixation mechanism; and an insulative sleeve coating the first noncoiled conductor cable and being coupled proximally to the connector and distally to the first electrode.
- 10. The lead assembly of claim 9, comprising a second elongated noncoiled conductor cable coupled to the connector and having a second distal end, and a second electrode coupled to the second distal end.
- 11. The lead assembly of claim 9, wherein the sleeve is composed of a body-dissolvable material.
- 12. The lead assembly of claim 9, comprising a stylet removably and slidably disposed within the sleeve for spatially manipulating the lead assembly.
- 13. The lead assembly of claim 12, wherein the stylet has a generally circular-segment cross-section.
- 14. The lead assembly of claim 9, wherein the first noncoiled conductor cable and the sleeve have a combined diameter smaller than about 4.7 French.
- 15. The lead assembly of claim 9, wherein the fixation mechanism comprises a corkscrew.
- 16. The lead assembly of claim 9, wherein the fixation mechanism comprises a tine projecting outwardly from the tubular electrode housing.
- 17. A lead assembly, comprising:
a tubular housing having a proximal end, a fixation mechanism, and a first electrode; a lead body having a first end coupled to the proximal end of the tubular housing, a second end, a first elongated noncoiled conductor cable in electrical communication with the first electrode, a second electrode, a second noncoiled conductor cable in electrical communication with the second electrode, and an insulative sleeve coating the first and second noncoiled conductor cables; a connector having a distal end coupled to the second end of the lead body for coupling to a cardiac stimulator; and a stylet removably and slidably disposed within the sleeve for spatially manipulating the lead assembly.
- 18. The lead assembly of claim 17, wherein the sleeve is composed of a body-dissolvable material.
- 19. The lead assembly of claim 17, wherein the lead body has a diameter smaller than about 4.7 French.
- 20. The lead assembly of claim 17, wherein the fixation mechanism comprises a corkscrew.
- 21. An electrode assembly for a cardiac lead, comprising:
a first tubular sleeve having a proximal end, an interior surface, an exterior surface, a longitudinally extending lumen, and an opening extending from the interior surface to the exterior surface; a conductor cable disposed in the lumen, the conductor cable having a conductor element surrounded by a second tubular sleeve, the conductor element having a distal end not covered by the second tubular sleeve and projecting through the opening; and an electrode disposed over the first tubular sleeve and coupled to the distal end of the conductor element.
- 22. The electrode assembly of claim 21, comprising an annular member disposed over the first tubular sleeve between the first tubular sleeve and the electrode.
- 23. The electrode assembly of claim 21, comprising a seal ring disposed inside the lumen proximate the electrode, the seal ring having a passage substantially aligned with the opening through which the distal end projects, the opening having an adhesive disposed therein to secure the distal end.
- 24. A method comprising:
making an opening in an elongate sleeve of a cardiac lead; coupling one end of a non-coiled conductor cable to an electrode of the cardiac lead; feeding a second end of the conductor cable through the opening; slipping the electrode over the sleeve over the opening; securing the electrode to the sleeve; and positioning a stylet within the elongate sleeve parallel and offset to the conductor cable.
- 25. The method as recited in claim 24, comprising:
providing an annular member between the sleeve and the electrode; coupling the non-coiled cable to the annular member; and swaging the electrode.
- 26. The method as recited in claim 24, further comprising positioning a seal ring inside the sleeve proximate to the electrode, making a passage in the seal ring, feeding the other end of the conductor cable through the passage, and applying an adhesive in the opening to secure the second end of the conductor cable.
- 27. The method as recited in claim 24, wherein making the opening in the elongate sleeve includes making an opening in a sleeve composed of a body dissolvable material.
- 28. The method as recited in claim 27, wherein the body dissolvable material has a Shore hardness of about 55D or higher.
- 29. The method as recited in claim 24, further comprising reducing a diameter of the electrode.
- 30. A method comprising:
disposing at least one conductor cable within an elongate sleeve of a body dissolvable material; making an opening in the elongate sleeve; coupling a first end of the cable to an electrode of a cardiac lead; providing a second end of the conductor cable through the opening; slipping the electrode over the sleeve proximate to the opening; and securing the electrode to the sleeve.
- 31. The method as recited in claim 30, further comprising:
positioning a seal ring inside the sleeve proximate the electrode; making a passage in the seal ring; and feeding the second end of the conductor cable through the passage.
- 32. The method as recited in claim 31, further comprising applying an adhesive in the opening and securing the second end of the conductor cable.
- 33. The method as recited in claim 30, wherein securing the electrode includes swaging an annular electrode to a second annular member.
- 34. The method as recited in claim 30, wherein the portion of lead is an annular fitting having an opening and having at least one annular member, and further including coupling a first portion of a biocompatible sleeve to a first electrode, coupling a second portion of a biocompatible sleeve to the annular fitting, the annular fitting being supported relative to the first electrode by the biocompatible sleeve.
- 35. The method as recited in claim 34, further comprising coupling a sleeve composed of a body dissolvable material to the annular fitting.
- 36. The method as recited in claim 35, wherein coupling the sleeve of body dissolvable material includes coupling a sleeve having a Shore hardness of about 55D or higher.
- 37. The method as recited in claim 35, wherein the body dissolvable material is selected from the group consisting of polylactic acid, polyglycolic acid, and polyvinyl alcohol.
- 38. A method comprising:
disposing at least one conductor cable within an elongate sleeve of a body dissolvable material; making an opening in the elongate sleeve; coupling a first end of the cable to an electrode of a cardiac lead; providing a second end of the conductor cable through the opening; slipping the electrode over the sleeve proximate to the opening; securing the electrode to the sleeve; disposing a stylet within the elongate sleeve; and removing the sleeve from the conductor cable.
- 39. The method as recited in claim 38, wherein removing the sleeve from the conductor cable includes dissolving the sleeve from the conductor cable.
- 40. The method as recited in claim 38, further comprising removing the stylet prior to removing the sleeve from the conductor cable.
- 41. The method as recited in claim 38, wherein disposing the stylet within the elongate sleeve includes disposing a stylet having a non-cylindrical cross-section within the sleeve.
- 42. The method as recited in claim 38, wherein disposing the stylet within the elongate sleeve includes disposing a stylet offset to a longitudinal axis of the sleeve, and non-concentrical relative to the sleeve.
CROSS-REFERENCE TO RELATED APPLICATION(S)
[0001] This application is a division of U.S. patent application Ser. No. 08/902,687, filed on Jul. 30, 1997, the specification of which is hereby incorporated by reference.
Divisions (1)
|
Number |
Date |
Country |
Parent |
08902687 |
Jul 1997 |
US |
Child |
09994389 |
Nov 2001 |
US |