Pressure lamination method for forming composite ePTFE/textile and ePTFE/stent/textile prostheses
First Claim
1. A method of forming a composite textile and ePTFE implantable device comprising the steps of:
- (a) providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils;
(b) providing a textile layer having opposed surfaces;
(c) applying a coating of an elastomeric bonding agent to one of said opposed surfaces of said ePTFE layer or said textile layer;
(d) providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with said fluid passageway;
(e) concentrically placing said ePTFE layer and said textile layer onto said hollow member and over said at least one hole of said hollow member to provide an interior composite layer and an exterior composite layer, thereby defining a composite assembly, wherein said interior composite layer is one of said ePTFE layer or said textile layer and said exterior composite layer is the other of said ePTFE layer or said textile layer;
(f) expanding an elastic silicone barrier member;
(g) disposing the expanded elastic silicone barrier member over an exterior surface of said exterior composite layer;
(h) placing said hollow member with said composite assembly within a pressure chamber;
(i) applying a positive pressure to said chamber so that the positive pressure within said chamber is higher than a pressure outside of said chamber;
(j) applying a pressure differential so that the pressure within said chamber is greater than a pressure within said fluid passageway of said hollow member;
(k) applying heat to said bonding agent to adhesively bond said textile layer and said ePTFE layer to provide a laminated composite assembly; and
(l) removing said elastic silicone barrier member from said laminated composite assembly, to provide a composite textile and ePTFE implantable device having an improved bond peel strength of at least 32 g/mm and a variation of said bond peel strength of less than about 4.
5 Assignments
0 Petitions
Accused Products
Abstract
A method of forming a composite textile and ePTFE implantable device includes the steps of (a) providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils; (b) providing a textile layer having opposed surfaces; (c) applying a coating of an elastomeric bonding agent to one of the opposed surfaces of the ePTFE layer or the textile layer; (d) providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with the fluid passageway; (e) concentrically placing the ePTFE layer and the textile layer onto the hollow member and over the at least one hole of the hollow member to provide an interior composite layer and an exterior composite layer, thereby defining a composite assembly, wherein the interior composite layer is one of the ePTFE layer or the textile layer and the exterior composite layer is the other of the ePTFE layer or the textile layer; (f) placing the hollow member with the composite assembly within a pressure chamber; (g) applying a pressure differential so that the pressure within the chamber is greater than a pressure within the fluid passageway of the hollow member; and (h) applying heat to the bonding agent to adhesively bond the textile layer and the ePTFE layer to provide a laminated composite assembly.
182 Citations
33 Claims
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1. A method of forming a composite textile and ePTFE implantable device comprising the steps of:
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(a) providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils; (b) providing a textile layer having opposed surfaces; (c) applying a coating of an elastomeric bonding agent to one of said opposed surfaces of said ePTFE layer or said textile layer; (d) providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with said fluid passageway; (e) concentrically placing said ePTFE layer and said textile layer onto said hollow member and over said at least one hole of said hollow member to provide an interior composite layer and an exterior composite layer, thereby defining a composite assembly, wherein said interior composite layer is one of said ePTFE layer or said textile layer and said exterior composite layer is the other of said ePTFE layer or said textile layer; (f) expanding an elastic silicone barrier member; (g) disposing the expanded elastic silicone barrier member over an exterior surface of said exterior composite layer; (h) placing said hollow member with said composite assembly within a pressure chamber; (i) applying a positive pressure to said chamber so that the positive pressure within said chamber is higher than a pressure outside of said chamber; (j) applying a pressure differential so that the pressure within said chamber is greater than a pressure within said fluid passageway of said hollow member; (k) applying heat to said bonding agent to adhesively bond said textile layer and said ePTFE layer to provide a laminated composite assembly; and (l) removing said elastic silicone barrier member from said laminated composite assembly, to provide a composite textile and ePTFE implantable device having an improved bond peel strength of at least 32 g/mm and a variation of said bond peel strength of less than about 4. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A method of forming a composite textile and ePTFE implantable device comprising the steps of:
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(a) providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils; (b) providing a textile layer having opposed surfaces; (c) providing a self-expanding, radially distensible and metallic stent; (c) applying a coating of an elastomeric bonding agent to one of said opposed surfaces of said ePTFE layer or said textile layer; (e) providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with said fluid passageway; (f) concentrically placing said ePTFE layer, said textile layer and said distensible stent onto said hollow member and over said at least one hole of said hollow member to provide an interior composite layer and an exterior composite layer, wherein said distensible stent is placed between said textile layer and said ePTFE layer, thereby defining a composite assembly, wherein said interior composite layer is one of said ePTFE layer or said textile layer and said exterior composite layer is the other of said ePTFE layer or said textile layer; (g) placing said hollow member with said composite assembly within a pressure chamber; (h) applying a positive pressure to said chamber so that the positive pressure within said chamber is higher than a pressure outside of said chamber; (i) applying a pressure differential so that the pressure within said chamber is greater than a pressure within said fluid passageway of said hollow member; and (j) applying heat to said bonding agent to adhesively bond said textile layer and said ePTFE layer to provide a laminated composite assembly having a bond shear strength of at least 5.5 g/mm2 and a variation of said bond shear strength of less than about 2. - View Dependent Claims (25, 26, 30)
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27. A method of forming a composite textile and ePTFE implantable device comprising the steps of:
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providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils; providing a textile layer having opposed surfaces; applying a coating of an elastomeric bonding agent to one of said opposed surfaces of said ePTFE layer or said textile layer; providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with said fluid passageway; providing a pressure controller at the open end of said hollow member; concentrically placing said ePTFE layer and said textile layer onto said hollow member and over said at least one hole of said hollow member to provide an interior composite layer and an exterior composite layer, thereby defining a composite assembly, wherein said interior composite layer is one of said ePTFE layer or said textile layer and said exterior composite layer is the other of said ePTFE layer or said textile layer; providing an elastic silicone barrier member; expanding the elastic silicone member to a diameter greater that that of said hollow tubular member; disposing the expanded silicone member over an exterior surface of said exterior composite layer; reducing the diameter of the expanded silicone member to cover said aligned ePTFE layer and said aligned textile layer over said hollow member; placing said hollow member with said composite assembly within a pressure chamber; applying a positive pressure to said chamber so that the positive pressure within said chamber is higher than a pressure outside of said chamber; applying a pressure differential so that the pressure within said chamber is greater than a pressure within said fluid passageway of said hollow member; controlling said positive pressure and said pressure differential by said pressure controller; applying heat to said bonding agent to adhesively bond said textile layer and said ePTFE layer to provide a laminated composite assembly; and removing said elastic silicone barrier member from said laminated composite assembly. - View Dependent Claims (31)
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28. A method of forming a composite textile and ePTFE implantable device comprising the steps of:
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providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils; providing a textile layer having opposed surfaces; applying a coating of an elastomeric bonding agent to one of said opposed surfaces of said ePTFE layer or said textile layer; providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with said fluid passageway;
concentrically placing said ePTFE layer and said textile layer onto said hollow member and over said at least one hole of said hollow member to provide an interior composite layer and an exterior composite layer, thereby defining a composite assembly, wherein said interior composite layer is one of said ePTFE layer or said textile layer and said exterior composite layer is the other of said ePTFE layer or said textile layer;providing an elastic silicone barrier member; expanding the elastic silicone barrier member to a diameter greater that that of said hollow tubular member; disposing the expanded silicone barrier member over an exterior surface of said exterior composite layer; reducing the diameter of the expanded silicone barrier member to cover said aligned ePTFE layer and said aligned textile layer over said hollow member; placing said hollow member with said composite assembly within a pressure chamber; applying a positive pressure to said chamber so that the positive pressure within said chamber is higher than a pressure outside of said chamber; applying a pressure differential so that the pressure within said chamber is greater than a pressure within said fluid passageway of said hollow member; applying heat to said bonding agent to adhesively bond said textile layer and said ePTFE layer to provide a laminated composite assembly; and removing said elastic silicone barrier member from said laminated composite assembly. - View Dependent Claims (32)
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29. A method of forming a composite textile and ePTFE implantable device comprising the steps of:
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providing an ePTFE layer having opposed surfaces comprising a microporous structure of nodes interconnected by fibrils; providing a textile layer having opposed surfaces; applying a coating of an elastomeric bonding agent to one of said opposed surfaces of said ePTFE layer or said textile layer; providing a hollow member having an open end and an opposed closed end defining a fluid passageway therebetween and having a wall portion with at least one hole extending therethrough, the hole being in fluid communication with said fluid passageway; providing a pressure controller at the open end of said hollow member;
concentrically placing said ePTFE layer and said textile layer onto said hollow member and over said at least one hole of said hollow member to provide an interior composite layerand an exterior composite layer, thereby defining a composite assembly, wherein said interior composite layer is one of said ePTFE layer or said textile layer and said exterior composite layer is the other of said ePTFE layer or said textile layer; providing a thin elastic silicone barrier member having a thickness of about 0.5 mm to about 1.25 mm; expanding the thin elastic silicone barrier to a diameter greater that that of said hollow tubular member; disposing the expanded thin elastic silicone barrier over an exterior surface of said exterior composite layer; reducing the diameter of the expanded thin elastic silicone barrier to cover said aligned ePTFE layer and said aligned textile layer over said hollow member; placing said hollow member with said composite assembly within a pressure chamber; applying a positive pressure to said chamber so that the positive pressure within said chamber is higher than a pressure outside of said chamber; applying a pressure differential so that the pressure within said chamber is greater than a pressure within said fluid passageway of said hollow member; applying heat to said bonding agent to adhesively bond said textile layer and said ePTFE layer to provide a laminated composite assembly; and removing said thin elastic silicone barrier member from said laminated composite assembly; wherein a force exerted by the thin elastic silicone barrier on said aligned ePTFE layer and said aligned textile layer is less than said pressure differential. - View Dependent Claims (33)
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Specification