Device with biological tissue scaffold for percutaneous closure of an intracardiac defect and methods thereof
First Claim
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1. An intracardiac occluder clip for permanent implantation in the percutaneous transluminal space to treat an intracardiac defect so as to substantially close the intracardiac defect through host tissue endothelialization, said occluder comprising:
- a resilient wire forming opposing proximal and distal support structures for occlusion shells, wherein each support structure is formed of two external stems and two internal stems forming a M-shaped arcuate length of the wire, wherein both external stems of each M-shaped support structure are joined to the external stems of the opposing M-shaped support structure;
a proximal occlusion shell providing a scaffold for endothelialization, wherein the shell is formed of a non-porous bioresorbable sheet and is fitted securely between the external and internal stems of the M-shaped proximal support structure; and
,a distal occlusion shell providing a scaffold for endothelialization, wherein the shell is formed of a non-porous bioresorbable sheet and is fitted securely between the external and internal stems of the M-shaped distal support structure.
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Abstract
The invention provides an intracardiac occluder, which has biological tissue scaffolds as occlusion shells, for the percutaneous transluminal treatment of an intracardiac defect. The intracardiac occluder includes a proximal support structure supporting the proximal occlusion shell and a distal support structure supporting the distal occlusion shell. In one embodiment, biological tissue derived from the tunica submucosa layer of the porcine small intestine forms the occlusion shells.
181 Citations
13 Claims
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1. An intracardiac occluder clip for permanent implantation in the percutaneous transluminal space to treat an intracardiac defect so as to substantially close the intracardiac defect through host tissue endothelialization, said occluder comprising:
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a resilient wire forming opposing proximal and distal support structures for occlusion shells, wherein each support structure is formed of two external stems and two internal stems forming a M-shaped arcuate length of the wire, wherein both external stems of each M-shaped support structure are joined to the external stems of the opposing M-shaped support structure; a proximal occlusion shell providing a scaffold for endothelialization, wherein the shell is formed of a non-porous bioresorbable sheet and is fitted securely between the external and internal stems of the M-shaped proximal support structure; and
,a distal occlusion shell providing a scaffold for endothelialization, wherein the shell is formed of a non-porous bioresorbable sheet and is fitted securely between the external and internal stems of the M-shaped distal support structure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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Specification
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Current AssigneeWL Gore and Associates Incorporated (W.L. Gore and Associates)
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Original AssigneeWL Gore and Associates Incorporated (W.L. Gore and Associates)
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InventorsDevellian, Carol A., Carr, Robert M.
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Primary Examiner(s)HOFFMAN, MARY C
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Application NumberUS13/893,270Publication NumberTime in Patent Office953 DaysField of SearchUS Class Current1/1CPC Class CodesA61B 17/0057 Implements for plugging an ...A61B 17/12122 within the heart for closin...A61B 17/12172 having a pre-set deployed t...A61B 2017/00575 for closure at remote site,...A61B 2017/00592 Elastic or resilient implem...A61B 2017/00606 Implements H-shaped in cros...A61B 2017/1205 Introduction devicesA61F 2310/00365 Proteins; Polypeptides; Deg...
