Prosthesis (i.e. – artificial body members) – parts thereof – or ai – Arterial prosthesis – Stent structure
Reexamination Certificate
1998-10-05
2002-04-02
Willse, David H. (Department: 3738)
Prosthesis (i.e., artificial body members), parts thereof, or ai
Arterial prosthesis
Stent structure
C623S001340, C623S001270
Reexamination Certificate
active
06364902
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to tubes used in medical devices, particularly stents.
Stents, used for reopening and maintaining patent lumens in natural conduits, are made from slotted tubing. Slotted tube stents are expandable, in situ, by dilators, such as balloons. Usually, the unexpanded stent is placed over a deflated balloon which is located on the end of a catheter. The catheter is then inserted into the body with the balloon and stent positioned in the constricted area of the conduit. The balloon is then inflated to expand the stent into contact with the interior wall of the conduit thereby opening the constricted area. The balloon is subsequently deflated and the catheter is removed leaving the stent in place in the enlarged opening. Such stents are implanted in the vascular, digestive and urinary systems, or in any orifice or lumen, to hold the site open and reinforce the wall of the orifice.
Examples of such tubes and devices can be found in U.S. Pat. Nos. 5,679,470; 5,630,840; 5,628,787; 5,213,111; 5,725,570; 2,947,078; 2,215,477 and 2,371,348. Also there is a PCT document, WO 93/19803, concerning filled wires. Other publications include,
Handbook of Precious Metals
, Savitskii, Hemisphere Publishing Co. 1989 on the subject of hydrostatic extrusion and manufacturing of clad metals and composites, specifically for RF cables, and
Metals Handbook
, 9th Ed. Vol. 14, “Forming and forging”, ASM International, 1988, Chapter on Wire, Rod and Tube Drawing.
Slotted tube stents may be made from stainless steel, nickel or cobalt based alloys, or nitinol. However, these stents exhibit poor visibility under fluoroscopy. In some cases, separate radiopaque markers are required for adequate visibility.
It is of critical importance to the accurate placement of the stent to be able to visually place the stent in the area of the constriction.
This shortcoming has been addressed in stents braided from wire. The approach was to braid the stents from composite wire, wherein the wire is comprised of an outer layer of high strength material and an inner core of a radiopaque material. However, no such approach has been available for stents made from slotted metal tubing.
Two approaches are available for enchancing the radiopacity of stents made from metal tubing. One approach is to use a layered composite tube i.e., one tube layered on top of another. If one of the layers were radiopaque, the composite tube stent would have improved radiopacity. Another approach is to use filaments of a radiopaque material embedded in the cylindrical wall of the tube. In either case, what is needed is a composite tube that offers strength, biocompatibility, and radiopacity.
SUMMARY OF THE INVENTION
One embodiment of the present invention includes a composite tube for a stent, said tube having one or more filaments [or layers] of radiopaque material within the wall of a high strength, biocompatible tube. The filaments [or layers] are preferably parallel to the axis of the tube, and they may be distributed in any pattern advantageous to the properties of the stent. The filaments are preferably tantalum, but they could also be any other radiopaque and biocompatible material like platinum, gold, or another high Z material (heavy metals) or alloys of these materials. The matrix of the tube is preferably stainless steel, but it may also be a nickel, cobalt, or titanium based alloy or a nickel-titanium shape memory alloy. A pattern of slots can be cut into the composite tube. The form produced, comprising an alternating pattern of solid material and slots, imparts the property of expandability by radial force, to the tube.
In another embodiment of the present invention, the filaments are a highly conductive material (e.g. silver, gold, copper, or aluminum). The filaments improve the electrical and thermal conductivity of the tube. This enhances the use of the tube as an electrode in a biomedical device such as an electrophysiology catheter.
In another embodiment of the present invention, the filaments are a material that enhance the mechanical properties of the tube. For example, nickel-titanium shape memory filaments would improve the kink resistance of the tube.
In another embodiment of the present invention, one or more of the filaments are removed, thereby leaving an open lumen within the tube wall. An external wire could be inserted in this open lumen and welded, soldered or crimped in place. This provides an advantageous way of attaching wires to a tube. This lumen can also be used for infusion of fluids such as pharmacological agents for therapeutic purposes or saline for flushing a treatment site. In another embodiment of the present invention, the filaments are a shape other than round, and/or the tube is a shape other than round.
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Dickenson Roger C.
Freeland John
Jackson Suzette J.
Noble-Met, Ltd.
Rosenbaum Fred
Willse David H.
Wright Bryan D.
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