System and method for promoting selective tissue in-growth for an implantable medical device
First Claim
1. A system for use with an implantable medical device (IMD) to selectively promote tissue in-growth, comprising:
- a lead having a lead body including an outer surface;
an electrode having an electrode surface and positioned along the lead body;
a first inner layer of porous Polytetrafluoroethylene (PTFE) adjacent to the electrode, the first inner layer of porous PTFE having a fibril length adapted to prevent substantially all tissue in-growth along the electrode surface;
at least one outer layer of porous PTFE adjacent to at least a predetermined portion of the first inner layer, the outer layer of porous PTFE having a fibril length adapted to selectively promote tissue in-growth along the lead body adjacent to the electrode; and
a sleeve member fixedly engaged against the outer surface of the lead body and extending over and fixedly engaging the first inner layer and the at least one outer layer within the lead body, wherein the first inner layer, the at least one outer layer, and the electrode are isodiametric with the outer surface of the lead body.
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Accused Products
Abstract
Disclosed is an improved system and method to selectively promote tissue in-growth on, or adjacent to, an implantable medical device. In one embodiment, at least one surface of the housing of a medical device is in contact with a first portion of a porous PTFE having a pore size adapted to prevent substantially all tissue in-growth. This first portion, or layer, of porous PTFE material is further in contact at predetermined locations with an additional porous PTFE layer having a pore size adapted to selectively promote tissue in-growth only at the predetermined locations. Each of the PTFE layers may be formed of porous PTFE tubing or tape. Alternatively, the two layers may comprise a single composite structure that has a more porous material exposed on a first surface, and a less porous, more dense, material on a second surface. Another embodiment of the invention involves forming the layers of PTFE into a removable member that is adjacent to at least one surface of the implantable medical device. The removable member may take the form of a sleeve that surrounds a portion of a the medical device and is adapted to remain in the body during an extraction process. For example, during the removal of a lead, the sleeve remains within the body and is capable of receiving a replacement lead, making it unnecessary to disturb tissue in-growth attached to the sleeve.
86 Citations
13 Claims
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1. A system for use with an implantable medical device (IMD) to selectively promote tissue in-growth, comprising:
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a lead having a lead body including an outer surface;
an electrode having an electrode surface and positioned along the lead body;
a first inner layer of porous Polytetrafluoroethylene (PTFE) adjacent to the electrode, the first inner layer of porous PTFE having a fibril length adapted to prevent substantially all tissue in-growth along the electrode surface;
at least one outer layer of porous PTFE adjacent to at least a predetermined portion of the first inner layer, the outer layer of porous PTFE having a fibril length adapted to selectively promote tissue in-growth along the lead body adjacent to the electrode; and
a sleeve member fixedly engaged against the outer surface of the lead body and extending over and fixedly engaging the first inner layer and the at least one outer layer within the lead body, wherein the first inner layer, the at least one outer layer, and the electrode are isodiametric with the outer surface of the lead body. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A system for use with an implantable medical device (IMD) to selectively promote tissue in-growth, comprising:
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a lead having a lead body;
an electrode having an electrode surface and positioned along the lead body;
a first inner layer of porous Polytetrafluoroethylene (PTFE) adjacent to the electrode, the first inner layer of porous PTFE having a fibril length adapted to prevent substantially all tissue in-growth along the electrode surface;
at least one outer layer of porous PTFE adjacent to at least a predetermined portion of the first layer, the outer layer of porous PTFE having a fibril length adapted to selectively promote tissue in-growth along the lead body adjacent to the electrode; and
a sleeve member fixedly engaging the first inner layer and the at least one outer layer with the lead body, wherein the lead body includes an outer surface and the electrode is positioned along the outer surface of the lead body.
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Specification