Three-dimensional braided covered stent
First Claim
Patent Images
1. A prosthesis, including:
- a three-dimensionally braided structure including a plurality of resilient structural strands formed of a structural material and a plurality of compliant textile strands interbraided with the structural strands and having a textile strand melting temperature;
wherein each of the structural strands has a nominal shape when in a relaxed state under no external stress, and further is thermally formable to acquire a selected nominal shape different from an original nominal shape by a heating of the structural strand at least to a thermal forming temperature while maintaining the structural strand in the selected nominal shape, wherein the structural strands are thermally formable only when heated at least to the thermal forming temperature;
wherein the structural strands are so altered, and in their respective selected nominal shapes define tubular profiles and are oriented within the braided structure to impart to the braided structure a tubular predetermined nominal shape corresponding to said tubular profiles;
further characterized in that said textile strand melting temperature of the compliant textile strands is lower than the thermal forming temperature of the resilient structural strands.
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Abstract
A prosthesis for transluminal implantation consists of a flexible tubular three-dimensionally braided structure of metal or polymeric monofilaments, and polymeric multifilament yarns. The prosthesis can be elastically deformed to reduce its diameter through axial elongation. The monofilaments and multifilament yarns are arranged in axially spaced apart helices, concentric on a common central axis of the prosthesis. The monofilaments are selectively shaped before their interbraiding with the multifilament yarns, either by an age-hardening or other heat-setting stage, or a cold-working stage that controllably plastically deforms the strands. The shaped structural strands cooperate to impart to the prosthesis its nominal shape and resilience. The textile strands cooperate to provide one or more layers of sheeting that reduce permeability and thereby enhance the utility of the prosthesis as a vascular graft. An alternative embodiment prosthesis includes elastically and plastically deformable structural strands, selectively plastically deformed by cold working, then three-dimensionally braided to form the prosthesis.
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Citations
42 Claims
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1. A prosthesis, including:
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a three-dimensionally braided structure including a plurality of resilient structural strands formed of a structural material and a plurality of compliant textile strands interbraided with the structural strands and having a textile strand melting temperature;
wherein each of the structural strands has a nominal shape when in a relaxed state under no external stress, and further is thermally formable to acquire a selected nominal shape different from an original nominal shape by a heating of the structural strand at least to a thermal forming temperature while maintaining the structural strand in the selected nominal shape, wherein the structural strands are thermally formable only when heated at least to the thermal forming temperature;
wherein the structural strands are so altered, and in their respective selected nominal shapes define tubular profiles and are oriented within the braided structure to impart to the braided structure a tubular predetermined nominal shape corresponding to said tubular profiles;
further characterized in that said textile strand melting temperature of the compliant textile strands is lower than the thermal forming temperature of the resilient structural strands. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
the structural strands cooperate to form a latticework, and the textile strands cooperate to form a textile sheeting supported by the latticework and occupying interstices between adjacent structural strands and the latticework.
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3. The prosthesis of claim 1 wherein:
the structural strands and the textile strands are three-dimensionally braided into at least first and second discrete layers of the composite structure.
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4. The prosthesis of claim 3 wherein:
at least one of the strands of the first layer is braided into the second layer to interlock the first and second layers.
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5. The prosthesis of claim 3 wherein:
said first layer incorporates finer strands and has a greater permeability than the second layer.
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6. The prosthesis of claim 1 wherein:
said structural material is selected from the group consisting of;
stainless steel, an alloy including cobalt, and an alloy including titanium.
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7. The prosthesis of claim 1 wherein:
said structural material is a polymer selected from the group consisting of;
PET, polypropylene, PEEK, HDPE, polysulfone, PTFE, FEP, polycarbonate urethane, and polyurethane.
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8. The prosthesis of claim 1 wherein:
the compliant textile strands are formed of a material selected from the group consisting of;
PET, polypropylene, polyurethane, polycarbonate urethane, HDPE, polyethylene, silicone, PTFE, ePTFE, and polyolefin.
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9. The prosthesis of claim 1 wherein:
the structural strands cooperate to form a latticework including first and second sets of helices running in respective first and second opposite directions, wherein the interstices of the latticework are rhombic.
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10. The prosthesis of claim 9 wherein:
the first and second sets of helices define a braid angle in the range of about 60-150 degrees.
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11. The prosthesis of claim 1 wherein:
said three-dimensionally braided structure is tubular.
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12. The prosthesis of claim 1, wherein:
said structural material is a recovery metal, and the selected nominal shape of each structural strand is the shape to which the structural strand returns when heated at least to an activation temperature of the recovery metal.
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13. The prosthesis of claim 1, wherein:
the original nominal shape of each structural strand is linear, and the selected nominal shape of each strand is helical.
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14. A prosthesis, including:
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a three-dimensionally braided structure including a plurality of structural strands and a plurality of compliant textile strands interbraided with the structural strands, wherein the structural strands are formed of a structural material and have respective nominal shapes when in a relaxed state under no external stress and are elastically deformable away from their respective nominal shapes, wherein each of the structural strands further is adapted to be altered to acquire a selected nominal shape different from an original nominal shape according to a shape-altering step selected from the group consisting of;
(i) a selective plastic deformation including application of a bending stress sufficient to cause a plastic flow and thereby alter the nominal shape from the original nominal shape to the selected nominal shape, wherein the structural strands are resilient and ductile; and
(ii) a selective thermal setting including heating at least to a heat set temperature while maintaining the structural strand in the selected nominal shape, wherein the structural strands are susceptible to said selective thermal setting only when heated at least to the heat set temperature, and the heat set temperature is higher than a melting temperature of the textile strands;
wherein the structural stands are so altered, in said respective nominal shapes define tubular profiles, and are oriented within the braided structure to impart to the braided structure a tubular predetermined nominal shape corresponding to said tubular profiles. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37)
the structural strands cooperate to form a latticework, and the textile strands cooperate to form a textile sheeting supported by the latticework and occupying interstices between adjacent structural strands of the latticework.
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16. The prosthesis of claim 14 wherein:
structural strands and textile strands are three-dimensionally braided into at least first and second discrete layers of the composite structure.
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17. The prosthesis of claims 16 wherein:
at least one of the strands of the first layer is braided into the second layer to interlock the first and second layers.
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18. The prosthesis of claim 16 wherein:
said first layer incorporates finer strands and has a greater permeability than the second layer.
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19. The prosthesis of claim 16 wherein:
said structural strands form a latticework incorporated primarily into the first layer.
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20. The prosthesis of claim 16 further including:
a plurality of drug eluting strands braided into the first layer.
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21. The prosthesis of claim 16 further including:
a plurality of absorbable strands interbraided with the structural strands and the textile strands.
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22. The prosthesis of claim 21 wherein:
the absorbable strands are braided primarily into the second layer.
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23. The prosthesis of claim 14 wherein:
said structural material is a metal selected from the group consisting of;
stainless steel an alloy including cobalt, and an alloy including titanium.
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24. The prosthesis of claim 14 wherein:
said structural material is a polymer selected from the group of polymers consisting of PET, polypropylene, PEEK, HDPE, polysulfone, PTFE, FEP, polycarbonate urethane, and polyurethane.
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25. The prosthesis of claim 14 wherein:
said textile strands are multifilament yarns in the range of about 10-400 denier.
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26. The prosthesis of claim 25 wherein:
said multifilament yams are composed of filaments, each filament being in the range of about 0.25-10 denier.
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27. The prosthesis of claim 25 wherein:
said multifilament yams are formed of a material selected from the group of materials consisting of;
PET, polypropylene, polyurethane, polycarbonate urethane, HDPE, polyethylene, silicone, PTFE, EPTFE, and polyolefin.
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28. The prosthesis of claim 14 wherein:
said selected nominal shapes of the structural strands are helical.
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29. The prosthesis of claim 28 wherein:
said structural strands cooperate to form a latticework including first and second sets of helices running in respective first and second opposite directions, wherein the interstices of the latticework are rhombic.
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30. The prosthesis of claim 29 wherein:
the first and second sets of helices are interbraided.
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31. The prosthesis of claim 29 wherein:
the first set of helices overlies the second set of helices.
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32. The prosthesis of claim 29 wherein:
the first and second sets of helices define a braid angle in the range of about 60-150 degrees.
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33. The prosthesis of claim 14 further including:
at least one radiopaque strand interbraided with the structural strands and textile strands.
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34. The prosthesis of claim 33 wherein:
said at least one radiopaque strand is incorporated within the first layer.
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35. The prosthesis of claim 28 wherein:
said structural strands are wound in a single direction, wherein the interstices are helical.
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36. The prosthesis of claim 14 wherein:
said structural material is a recovery metal, and the selected nominal shape of each structural strand is the shape to which the structural strand returns when heated at least to an activation temperature of the recovery metal.
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37. The prosthesis of claim 14 wherein:
the original nominal shape of each structural strand is linear, and the selected nominal shape of each strand is helical.
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38. A medical device, including:
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an elongate and flexible catheter;
a three-dimensionally braided prosthesis mounted to the catheter along a distal end region thereof, said prosthesis including a plurality of structural strands and a plurality of compliant textile strands interbraided with the structural strands;
wherein the structural strands are formed of a structural material and have respective nominal shapes when in a relaxed state under no external stress, and further are elastically deformable away from their respective nominal shapes, wherein each of the structural strands is adapted to be altered to acquire a selected nominal shape different from an original nominal shape according to a shape-altering step selected from the group consisting of;
(i) a selective plastic deformation including application of a bending stress sufficient to cause a plastic flow and thereby alter the nominal shape from the original nominal shape to the selected nominal shape, wherein the structural strands are resilient and ductile; and
(ii) a selective thermal setting including heating at least to a heat set temperature while maintaining the structural strands in their respective selected nominal shapes, wherein the structural strands are susceptible to said selective thermal setting only when heated at least to a heat set temperature, said heat set temperature being higher than a melting temperature of the textile strands;
wherein the structural stands are so altered, in said respective nominal shapes define tubular profiles, and are oriented within the braided prosthesis to impart to the braided prosthesis a tubular predetermined nominal shape corresponding to said tubular profiles. - View Dependent Claims (39, 40, 41, 42)
a means for releasably maintaining the prosthesis at said distal end of the catheter in a resiliently radially compressed state, and operable to release the prosthesis for a radial self-expansion at an intraluminal treatment site.
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40. The device of claim 38 wherein:
the structural material is selected from the group of materials consisting of;
stainless steel, an alloy including cobalt, an alloy including titanium, PET, polypropylene, polyurethane, polycarbonate urethane, HDPE, polyethylene, silicone, PTFE, ePTFE, and polyolefin.
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41. The device of claim 38 wherein:
the structural material is a recovery metal, and the selected nominal shape of each structural strand is the shape to which the structural strand returns when heated at least to an activation temperature of the recovery metal.
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42. The device of claim 38 wherein:
the original nominal shape of each structural stand is linear, and the selected nominal shape of each structural strand is helical.
Specification
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Current AssigneeLifeshield Sciences LLC (Acacia Research Corporation)
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Original AssigneeBoston Scientific Scimed, Inc. (Boston Scientific Corporation)
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InventorsThompson, Paul J.
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Primary Examiner(s)Prebilic, Paul B.
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Application NumberUS09/761,512Publication NumberTime in Patent Office910 DaysField of Search623/1.53, 623/23.64, 606/191, 606/198, 606/108, 87/2, 87/7, 87/13, 87/33, 87/34, 428/369US Class Current623/1.53CPC Class CodesA61F 2/0077 Special surfaces of prosthe...A61F 2/06 Blood vesselsA61F 2/07 Stent-graftsA61F 2/90 characterised by a net-like...A61F 2/95 Instruments specially adapt...A61F 2002/072 Encapsulated stents, e.g. w...A61F 2210/0004 bioabsorbableA61F 2210/0076 multilayered, e.g. laminate...A61F 2220/0008 Fixation appliances for con...A61F 2220/0016 with sharp anchoring protru...A61F 2220/0075 sutured, ligatured or stitc...A61F 2240/001 Designing or manufacturing ...A61F 2250/0067 Means for introducing or re...A61F 2250/0098 radio-opaque, e.g. radio-op...D04C 1/06 Braid or lace serving parti...D04C 3/36 FramesD04C 3/40 for making tubular braids b...D04C 3/48 Auxiliary devicesD10B 2401/061 elasticD10B 2509/06 Vascular grafts; stentsView All
