Encapsulated radiopaque markers
First Claim
1. A radiopaque locating marker for fluoroscopic visualization, wherein the marker is entirely contained within an implantable device, comprising a member made of a pliable biocompatible material;
- and a radiopaque metal incorporated onto or into the member.
2 Assignments
0 Petitions
Accused Products
Abstract
A radiopaque marker that is incorporated into an implantable biocompatible device for precise imaging as the device is delivered and deployed within a body vessel. The radiopaque marker can take on a variety of forms which can be excised from a thin foil made of radiopaque metal or from an ePTFE sheet that has been coated on one or both surfaces with a radiopaque metal. The radiopaque markers, in forms such as rings, strips, disks, rectangles or spheres are encapsulated or contained within the implantable device to prevent the radiopaque metal from dissolving or escaping into the blood stream. Strategic placement of the radiopaque markers at each end of the implantable device enables the physician to fluoroscopically view its exact location prior to deployment and in subsequent follow-up examinations.
-
Citations
17 Claims
-
1. A radiopaque locating marker for fluoroscopic visualization, wherein the marker is entirely contained within an implantable device, comprising
a member made of a pliable biocompatible material; - and
a radiopaque metal incorporated onto or into the member. - View Dependent Claims (2, 3, 4, 5, 6)
- and
-
7. A method for making a locating marker for fluoroscopic visualization, comprising the steps of:
-
depositing a layer of radiopaque metal on at least one surface of a pliable biocompatible material, wherein the layer is of sufficient thickness or density to be viewed fluoroscopically when implanted within a patient; and
cutting the layered pliable biocompatible material into individual pieces. - View Dependent Claims (8, 9, 10)
-
-
11. An implantable biocompatible device for fluoroscopic visualization, comprising:
-
a tubular radially expandable support member having a plurality of openings passing through walls of the support member, an expanded polytetrafluoroethylene tubular member, including a luminal and an abluminal layer bonded together, circumferentially surrounding and encapsulating a portion of the support member, wherein at least one end of the support member is bare; and
at least one radiopaque locating marker disposed at each terminal end of the encapsulated portion of the implantable biocompatible device, wherein the at least one radiopaque locating marker is contained within the expanded polytetrafluoroethylene tubular member. - View Dependent Claims (12, 13, 14, 15, 17)
-
-
16. A method for making an endoluminal graft structure for fluoroscopic visualization, the graft structure including at least two ePTFE tubes, comprising the steps of:
-
depositing a layer of radiopaque metal on a portion of the outer surface of a first ePTFE tube;
depositing a layer of radiopaque metal on a portion of the inner surface of a second ePTFE tube having an inner diameter greater than the outer diameter of the first ePTFE tube, wherein the layers of radiopaque metal deposited on the first and second ePTFE tubes are of sufficient thickness or density to be viewed fluoroscopically when the tubes are implanted within a patient;
positioning the second ePTFE tube over the first ePTFE tube; and
combining the first and second ePTFE tubes, wherein the layers of radiopaque metal are completely contained therein.
-
Specification
-
- Resources
-
Current AssigneeIMPRA Incorporated (Becton, Dickinson & Co)
-
Original AssigneeIMPRA Incorporated (Becton, Dickinson & Co)
-
InventorsEdwin, Tarun J., Druyor-Sanchez, Roberta L.
-
Application NumberUS09/760,254Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current623/1.13CPC Class CodesA61F 2/07 Stent-graftsA61F 2/90 characterised by a net-like...A61F 2002/072 Encapsulated stents, e.g. w...A61F 2250/0098 radio-opaque, e.g. radio-op...
