IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0726826
(2003-12-03)
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등록번호 |
US-7597705
(2009-10-20)
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발명자
/ 주소 |
- Forsberg, Andrew Thomas
- Paprocki, Loran
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출원인 / 주소 |
- St. Jude Medical Puerto Rico LLC
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
121 인용 특허 :
131 |
초록
▼
The present invention provides a method and apparatus for sealing a subcutaneous tissue puncture. The method and apparatus increases the reliability of device function by creating a multi-level anchor nest in a carrier tube of a tissue puncture closure device. The multi-level nest allows an insertio
The present invention provides a method and apparatus for sealing a subcutaneous tissue puncture. The method and apparatus increases the reliability of device function by creating a multi-level anchor nest in a carrier tube of a tissue puncture closure device. The multi-level nest allows an insertion sheath or other deployment member to slide between the carrier tube and the anchor to rotate and deploy the anchor within an artery or other lumen.
대표청구항
▼
We claim: 1. A method of sealing a tissue puncture in an internal tissue wall accessible through a percutaneous incision, comprising: providing a tissue puncture closure device comprising a carrier tube with a filament extending therethrough, an insertion sheath, an anchor, and a sealing plug, the
We claim: 1. A method of sealing a tissue puncture in an internal tissue wall accessible through a percutaneous incision, comprising: providing a tissue puncture closure device comprising a carrier tube with a filament extending therethrough, an insertion sheath, an anchor, and a sealing plug, the filament connected at a distal end of the carrier tube to the anchor, the anchor seated in a multi-level nest disposed in the carrier tube, the filament also connected to the sealing plug, the sealing plug being located proximal of the anchor for disposition and anchoring about the tissue puncture, wherein the multi-level nest comprises: a first surface contacting the anchor; a second surface spaced from the anchor in a direction radially inward relative to the first surface when the anchor is in an undeployed position; wherein the first surface and the second surface are part of an outer surface of the carrier tube; inserting the tissue puncture closure device into the percutaneous incision; deploying the anchor into the tissue puncture by advancing the anchor at least partially out of a distal end of the insertion sheath followed by inserting a portion of the insertion sheath between the anchor and at least one of the first and second surfaces of the multi-level nest to rotate the anchor into a deployed position; withdrawing the closure device from the percutaneous incision; and tamping the sealing plug toward the anchor. 2. A method of sealing a tissue puncture in an internal tissue wall accessible through a percutaneous incision according to claim 1 wherein the deploying the anchor further comprises sliding a monofold tip of the insertion sheath into a gap formed between the anchor and the multi-level nest disposed in the carrier tube. 3. The method of sealing the tissue puncture of claim 1 wherein the tissue puncture is a blood vessel puncture. 4. The method of sealing the tissue puncture of claim 1 wherein deploying the anchor includes moving the anchor away from the carrier tube and rotating the anchor to be transverse to the carrier tube. 5. A method of reducing anchor shuttle in a subcutaneous tissue puncture sealing device, the tissue puncture sealing device including a carrier tube, an insertion sheath, an anchor, and a sealing plug, the method comprising: providing a gap that extends between the carrier tube and the anchor in a direction that is transverse to the carrier tube, the gap being created by a multi-level nest in the carrier tube, wherein the multi-level nest comprises: a first surface contacting the anchor; a second surface spaced from the anchor in a direction radially inward relative to the first surface when the anchor is in an undeployed position; wherein the first surface and the second surface are part of an outer surface of the carrier tube; inserting at least a portion of the insertion sheath into the gap to rotate the anchor into a deployed position. 6. A method of reducing anchor shuttle in a subcutaneous tissue puncture sealing device according to claim 5 wherein the anchor initially seats in the multi-level nest. 7. A method of reducing anchor shuttle in a subcutaneous tissue puncture sealing device, comprising providing a gap according to claim 5, further comprising coupling the puncture sealing device to the insertion sheath, the insertion sheath having a one-way valve allowing the anchor to pass therethrough in one direction, but not allowing the anchor to pass back in an opposite direction. 8. A method of sealing a tissue puncture comprising: inserting a tissue puncture closure device into the tissue puncture, the tissue puncture closure device including a carrier tube, an insertion sheath, a sealing plug, and an anchor, the carrier tube including an outer surface, the outer surface including a first surface portion that is in contact with the anchor and a second surface portion that is adjacent to the anchor and recessed in the carrier tube relative to the first surface portion; inserting at least a portion of the insertion sheath between the anchor and at least one of the first and second surface portions to rotate the anchor; positioning the sealing plug and the anchor across the tissue puncture to close the tissue puncture. 9. The method of claim 8 wherein the tissue puncture is a blood vessel puncture. 10. The method of claim 8 wherein the second surface is positioned adjacent to one end of the anchor. 11. The method of claim 8 wherein the tissue puncture closure device includes a filament configured to couple the sealing plug and the anchor together across the tissue puncture. 12. The method of claim 8 comprising moving the anchor away from the carrier tube and rotating the anchor to be transverse to the carrier tube. 13. A method of sealing a tissue puncture comprising: inserting a tissue puncture closure device into the tissue puncture, the tissue puncture closure device including a carrier tube, an insertion sheath, a sealing plug, and an anchor, an outer surface of the carrier tube including a recess that forms a gap between the anchor and the carrier tube in a direction that is transverse to the carrier tube; moving a tip of the insertion sheath into the recess in the outer surface of the carrier tube to rotate the anchor; positioning the sealing plug and the anchor across the tissue puncture to close the tissue puncture. 14. The method of claim 13 wherein the tissue puncture is a blood vessel puncture. 15. The method of claim 13 wherein the gap is positioned adjacent to one end of the anchor. 16. The method of claim 13 wherein the tissue puncture closure device includes a filament configured to couple the sealing plug and the anchor together across the tissue puncture. 17. The method of claim 13 comprising moving the anchor away from the carrier tube and rotating the anchor to be transverse to the carrier tube. 18. A method of sealing a tissue puncture comprising: inserting a tissue puncture closure device into the tissue puncture, the tissue puncture closure device including a carrier tube, an insertion sheath, a sealing plug, and an anchor, the carrier tube including an outer surface, the outer surface including a first surface portion that is in contact with the anchor and a recess positioned adjacent to the anchor, the recess extending radially further into the outer surface of the carrier tube than the first surface portion; inserting at least a portion of the insertion sheath into the recess to rotate the anchor; positioning the sealing plug and the anchor across the tissue puncture to close the tissue puncture. 19. The method of claim 18 wherein the tissue puncture is a blood vessel puncture. 20. The method of claim 18 wherein the recess is positioned adjacent to one end of the anchor. 21. The method of claim 18 wherein the recess extends between the carrier tube and the anchor to form a gap between the carrier tube and the anchor in a direction that is transverse to the carrier tube. 22. The method of claim 18 wherein part of the recess is covered by the anchor. 23. The method of claim 18 wherein the tissue puncture closure device includes a filament configured to couple the sealing plug and the anchor together across the tissue puncture. 24. The method of claim 18 comprising moving the anchor away from the carrier tube and rotating the anchor to be transverse to the carrier tube. 25. A method of sealing a tissue puncture comprising: inserting a tissue puncture closure device into the tissue puncture, the tissue puncture closure device including a carrier tube, an insertion sheath, a sealing plug, and an anchor, the anchor and the carrier tube being positioned in contact with each other; deploying the anchor by moving a tip of the insertion sheath into a recess in an outer surface of the carrier tube so that the tip is underneath the anchor before the anchor begins to move from an undeployed position, and distally advancing the insertion sheath in the recess rotates the anchor into a deployed position; and positioning the sealing plug and the anchor across the tissue puncture to close the tissue puncture. 26. The method of claim 25 wherein the tissue puncture is a blood vessel puncture. 27. The method of claim 25 wherein the tissue puncture closure device includes a filament configured to couple the sealing plug and the anchor together across the tissue puncture. 28. The method of claim 25 wherein the insertion sheath deploys the anchor by moving the anchor away from the carrier tube and rotating the anchor to be transverse to the carrier tube. 29. A method of sealing a tissue puncture comprising: inserting a tissue puncture closure device into the tissue puncture, the tissue puncture closure device including a carrier tube, an insertion sheath, a sealing plug, and an anchor, the anchor including an indentation that forms a gap between the anchor and the carrier tube, the gap being open along a proximal edge of the anchor; positioning a tip of the insertion sheath in the gap before the anchor begins to move from an undeployed position, wherein distally advancing the insertion sheath in the gap rotates the anchor into a deployed position; positioning the sealing plug and the anchor across the tissue puncture to close the tissue puncture. 30. The method of claim 29 wherein the tissue puncture is a blood vessel puncture. 31. The method of claim 29 wherein the tissue puncture closure device includes a filament configured to couple the sealing plug and the anchor together across the tissue puncture. 32. The method of claim 29 comprising moving the anchor away from the carrier tube and rotating the anchor to be transverse to the carrier tube. 33. A method of sealing a tissue puncture comprising: inserting a tissue puncture closure device into the tissue puncture, the tissue puncture closure device including a carrier tube, an insertion sheath, a sealing plug, and an anchor, the carrier tube and the anchor being in contact with each other, the carrier tube including a recess in an outer surface of the carrier tube, the recess extending underneath the anchor; positioning a tip of the insertion sheath in the recess so that the tip is between the carrier tube and the anchor before the anchor begins to move from an undeployed position, and distally advancing the insertion sheath in the recess rotates the anchor into a deployed position; positioning the sealing plug and the anchor across the tissue puncture to close the tissue puncture. 34. The method of claim 33 wherein the tissue puncture is a blood vessel puncture. 35. The method of claim 33 wherein part of the recess is covered by the anchor. 36. The method of claim 33 wherein the tissue puncture closure device includes a filament configured to couple the sealing plug and the anchor together across the tissue puncture.
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