IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0121484
(2002-04-12)
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등록번호 |
US-7463934
(2008-12-09)
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발명자
/ 주소 |
- Tronnes,Carole
- Swoyer,John M.
- Gerber,Martin T.
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출원인 / 주소 |
|
대리인 / 주소 |
Shumaker & Sieffert, P.A.
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인용정보 |
피인용 횟수 :
38 인용 특허 :
28 |
초록
▼
An implantable intramuscular lead system, such as for use as a gastric lead, and method of use in which electrodes along the lead are imbedded in tissue. First and second anchors are mounted on an elongate lead. At least the second anchor is movable along the length of the lead relative to the first
An implantable intramuscular lead system, such as for use as a gastric lead, and method of use in which electrodes along the lead are imbedded in tissue. First and second anchors are mounted on an elongate lead. At least the second anchor is movable along the length of the lead relative to the first anchor to capture the tissue between the anchors so that the lead is retained in position. The system facilitates implantation of the lead in tissue, and may be particularly suited for minimally invasive implantation, such as laparoscopically.
대표청구항
▼
The invention claimed is: 1. An implantable intramuscular lead system comprising: at least one elongate lead for at least partially implanting in tissue, the lead having a length, and opposite ends; a first anchor preattached to the lead; and a second anchor mounted on the lead for movement along t
The invention claimed is: 1. An implantable intramuscular lead system comprising: at least one elongate lead for at least partially implanting in tissue, the lead having a length, and opposite ends; a first anchor preattached to the lead; and a second anchor mounted on the lead for movement along the length of the lead relative to the first anchor to capture the tissue between the anchors so that the lead is retained in position, a portion of the second anchor comprising a surface configured to abut the tissue, wherein the surface is oriented at an angle with respect to a center axis of the second anchor, wherein the surface tapers from a distal outer perimeter of the portion of the second anchor to a narrower proximal outer perimeter of the portion of the second anchor, wherein the second anchor is mounted on the lead such that the proximal outer perimeter of the portion of the second anchor is located along the lead between the first anchor and the distal outer perimeter of the portion of the second anchor. 2. The lead system of claim 1 in which the lead has at least one electrode along the length of the lead, the first and second anchor being mounted along the length of the lead in opposite directions from the electrode so that the electrode is embedded in the tissue. 3. The lead system of claim 1 in which the lead has a plurality of electrodes along the length of the lead body. 4. The lead system of claim 1 in which the first anchor is movable along the length of the lead. 5. The lead system of claim 1 in which the first anchor is permanently affixed to the lead. 6. The lead system of claim 1 further comprising locking means for locking the second anchor in position along the lead. 7. The lead system of claim 6 in which the looking means comprises a crimp band. 8. The lead system of claim 6 in which the locking means comprises a readjustable locking means for locking the second anchor in position along the lead. 9. The lead system of claim 6 in which the locking means comprises a surgical clip placed on lead adjacent the second anchor to retain the second anchor against the tissue. 10. The lead system of claim 1 in which the first and second anchors are collapsible to allow introduction through a cannula. 11. The lead system of claim 10 in which at least one of the anchors has a plurality of resiliently-foldable wings that are adapted for fixation to the tissue. 12. The lead system of claim 11 in which the wings include suture holes for receiving sutures. 13. The lead system of claim 1 in which at least one of the first and second anchors is mounted for movement within range. 14. The lead system of claim 13 in which at least one of the first and second anchors is spring-loaded relative to the lead so that the anchor is biased against the tissue. 15. The lead system of claim 1 in which the second anchor is separate from the lead but mountable on the lead so that the second anchor can be mounted on the lead after the lead has been inserted in the tissue. 16. The lead system of claim 1 further comprising a line extending from one end of the lead, and a needle attached to the line whereby the needle and line are passed through the tissue and then used to pull the lead through the tissue. 17. The lead system of claim 16 in which the needle has a length corresponding to a desired spacing between the first and second anchors to facilitate placement of the lead in the tissue. 18. The lead system of claim 17 in which the line comprises a polypropylene monofilament line. 19. The lead system of claim 17 in which the line and needle are removable. 20. A combination of a lead system of claim 1 with a delivery system comprising a cannula through which the lead system is introduced, wherein the first and second anchors are adapted to pass through the cannula. 21. The combination of claim 20 in which the first and second anchors are collapsible to allow introduction through the cannula. 22. The combination of claim 21 in which the cannula has a internal diameter of 2-5 mm, the first and second anchors are collapsible to allow passage through the cannula. 23. The combination of claim 20 in which the first and second anchors are sized to allow introduction through the cannula. 24. A combination of the lead system of claim 1 with an implantable pulse generator, the lead being operatively coupled to the implantable pulse generator. 25. The implantable intramuscular lead system of claim 1, wherein the portion of the second anchor defines a partial conical shape wherein the distal outer perimeter of the portion is a distal diameter of the portion and the proximal outer perimeter is a proximal diameter of the portion. 26. The implantable intramuscular lead system of claim 1, wherein the surface of the second anchor that contacts the tissue has a dimension of at least approximately 0.120 inches. 27. The implantable intramuscular lead system of claim 1, wherein the angle of the surface of the second anchor is about 10 degrees. 28. An implantable therapy delivery system, comprising: an implantable therapy delivery device; at least one elongate therapy delivery element for at partial implantation in tissue and coupled to the implantable therapy delivery device, the therapy delivery element having a length and opposite ends; a first anchor preattached to the therapy delivery element; and a second anchor mounted on the therapy delivery element for along the length of the therapy delivery element relative to the first anchor to capture the tissue between the anchors so that the therapy delivery element is retained in position for delivery of a therapy, a portion of the second anchor comprising a surface configured to abut the tissue, wherein the surface is oriented at an angle with respect to a center axis of the second anchor, wherein the surface tapers from a distal outer perimeter of the portion of the second anchor to a narrower proximal outer perimeter of the portion. 29. The implantable therapy delivery system of claim 28 in which the implantable therapy delivery device is an implantable pulse generator, and the elongate therapy delivery element is an implantable medical lead. 30. The implantable therapy delivery system of claim 28 in which the implantable therapy delivery device is an implantable drug pump, and the elongate therapy delivery element is a cannula. 31. The implantable therapy delivery system of claim 28 in which the first and second anchors are collapsible to allow introduction through en endoscopic or laparoscopic cannula. 32. The implantabie therapy delivery system of claim 31 in which at least one of the anchors has a plurality of resiliently-foldable wings that are adapted for fixation to the tissue. 33. The implantable therapy delivery system of claim 32 in which the wings include suture holes for receiving sutures. 34. The implantable therapy delivery system of claim 28, wherein the portion of the second archor defines a partial conical shape wherein the distal outer perimeter of the portion is a distal diameter of the portion and the proximal outer perimeter is a proximal diameter of the portion. 35. A method of implanting a therapy delivery system, comprising the following steps: providing an elongate therapy delivery element having a length and opposite ends, a first anchor preattached to the therapy delivery element; and a second anchor mounted on the therapy delivery element for movement along the length of the therapy delivery element relative to the first anchor; introducing therapy delivery element through tissue so that the first anchor engages the tissue; advancing the second anchor along the therapy delivery element to capture the tissue between the first and second anchors, thereby retaining the therapy delivery element in position for delivery of a therapy, a portion of the second anchor comprising a oriented at an angle with respect to a center axis of the second anchor, the surface tapering from a distal outer perimeter of the portion of the second anchor to a narrower proximal outer perimeter of the portion; and coupling and implanting an implaritable therapy delivery device to the therapy delivery element. 36. The method of claim 35 further comprising the step of locking the second anchor in position along the therapy delivery element after the step of advancing the second anchor along the therapy delivery element to capture the tissue between the first and second anchors. 37. The method of claim 35 further comprising the step of introducing the therapy delivery element through an endoscopic or laparoscopic cannula. 38. The method of claim 37 wherein the step of introducing the therapy delivery element through an endoscopic or laparoscopic cannula includes resiliently collapsing the first and second anchors as they pass through the cannula. 39. The method of claim 35 wherein a line and a needle are provided, the line extending from one end of the therapy delivery element, and the needle being attached to the line, the step of introducing the therapy delivery element through tissue includes introducing the needle and line through the tissue and pulling the therapy delivery element through the tissue with the line. 40. The method of claim 39 in which the needle has a length corresponding to a desired spacing between the first and second anchors the step of introducing the therapy delivery element though tissue includes gauging a desired bite of tissue with the needle to facilitate capture of a quantity of tissue to obtain the desired spacing between the first and second anchors. 41. The method of claim 35, wherein the portion of the second anchor defines a partial conical shape wherein the distal outer perimeter of the portion is a distal diameter of the portion and the proximal outer perimeter is a proximal diameter of the portion. 42. A method of implanting an implantable medical lead, comprising the following steps: providing an elongate medical lead having a length and opposite ends, a first anchor preattached to the lead, and a second anchor mounted on the lead for movement along the length of the lead relative to the first anchor; introducing the lead through tissue so that the first anchor engages the tissue; advancing the second anchor along the lead to capture the tissue between the first and second anchors, thereby retaining the lead in position for delivery of a therapy, wherein a portion of the second anchor comprises a surface configured to abut the tissue, the surface being angled with respect to a center axis of the second anchor, and the surface tapering from a distal, outer perimeter of the portion of the second anchor to a narrower proximal outer perimeter of the portion; and coupling an implantable pulse generator to the lead. 43. The method of claim 42 further comprising the step of locking the second anchor in position along the lead after the step of advancing the second anchor along the lead to capture the tissue between the first and second anchors. 44. The method of claim 43 further comprising the step of introducing the lead through an endoscopic or laparoscopic cannula. 45. The method of claim 44 wherein the step of introducing the lead through an endoscopic or laparoscopic cannula includes resiliently collapsing the first and second anchors as they pass through the cannula. 46. The method of claim 42 wherein a line and a needle are provided, the line extending from one end of the lead, and the needle being attached to the line, the step of introducing the lead through tissue includes introducing the needle and line through the tissue and pulling the lead through the tissue with the line. 47. The method of claim 46 in which the needle has a length corresponding to a desired spacing between the first and second anchors, the step of introducing the lead through tissue includes gauging a desired bite of tissue with the needle to facilitate capture of a quantity of tissue to obtain the desired spacing between the first and second anchors. 48. A method of implanting an implantable gastric lead in gastric tissue, comprising the following steps: providing an elongate medical lead having a length and opposite ends, a first anchor preattached to the lead; and a second anchor mounted on the lead for movement along the length of the lead relative to the first anchor, a portion of the second anchor comprising a surface configured to abut the gastric tissue, wherein the surface is oriented at an angle with respect to a center axis of the second anchor, and wherein the surface tapers from a distal outer perimeter of the portion of the second anchor to a narrower proximal outer perimeter of the portion; introducing the lead through gastric tissue so that the first anchor engages the gastric tissue; and advancing the second anchor along the lead to capture the gastric tissue between the first and second anchors, thereby retaining the lead in position for delivery of a therapy or sensing of gastric activity. 49. The method of claim 48 further comprising coupling and implanting an implantable medical device to the lead. 50. The method of claim 48 further comprising coupling and implanting an implantable pulse generator to the lead. 51. The method of claim 48 further comprising the step of locking the second anchor in position along the lead after the step of advancing the second anchor along the lead to capture the gastric tissue between the first and second anchors. 52. The method of claim 48 further comprising the step of introducing the lead through an endoscopic or laparoscopic carinula. 53. The method of claim 52 wherein the step of introducing the lead through an endoscopic or laparoscopic cannula includes resiliently collapsing the first and second anchors as they pass through the cannula. 54. The method of claim 48 wherein a line and a needle are provided, the line extending from one end of the lead, and the needle being attached to the line, the step of introducing the lead through gastric tissue includes introducing the needle and line through the gastric tissue and pulling the lead through the gastric tissue with the line. 55. The method of claim 54 in which the needle has a length corresponding to a desired spacing between the first and second anchors, the step of introducing the lead through gastric tissue includes gauging a desired bite of gastric tissue with the needle to facilitate capture of a quantity of gastric tissue to obtain the desired spacing between the first and second anchors. 56. The method of claim 48, wherein the portion of the second anchor defines a partial conical shape wherein the distal outer perimeter of the portion is a distal diameter of the portion and the proximal outer perimeter is a proximal diameter of the portion. 57. An implantable intramuscular lead system comprising: at least one elongate lead having a length extending between opposite ends; a first anchor mounted on the lead; a second anchor mounted on the lead for movement along the length of the lead relative to the first anchor to capture the tissue between the anchors so that the lead is retained in position, wherein the second anchor defines a groove; and a crimping band positioned in the groove of the second anchor. 58. The implantable intramuscular lead system of claim 57, wherein the crimping band is integral with the second anchor. 59. A combination of the implantable intramuscular lead system of claim 57 with an implantable pulse generator, the lead being operatively coupled to the implantable pulse generator.
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