Braided branching stent, method for treating a lumen therewith, and process for manufacture thereof
First Claim
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1. A process for constructing a braided, branched stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising the steps of:
- a) braiding each plurality of continuous filaments to individually form at least first leg portions of each of the legs;
b) braiding at least one filament from each plurality of continuous filaments together to form a first body portion of the body; and
c) configuring at least a fraction of one plurality of leg filaments into a non-braided configuration in a second portion of the leg, configuring at least a fraction of each plurality of leg filaments into a non-braided configuration in a second portion of the body, or a combination thereof.
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Accused Products
Abstract
A bifurcated, braided stent has a body that branches into a plurality of legs and is adapted for deployment in a lumen. At least a portion of each leg of the stent comprises a discrete plurality of continuous filaments braided together, and at least a portion of the body comprises one or more of the continuous filaments from each of the legs braided together. The stent can be used for treating a diseased bifurcated lumen of a human being by deploying the stent therein. The stent can be constructed by a process comprising braiding each plurality of filaments to form the leg sections, and braiding one or more filaments from each plurality of filaments together to form the body. The process may be performed by creating the legs first and then the body, or vice versa. The stent may be constructed on a mandrel using a braiding machine.
88 Citations
22 Claims
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1. A process for constructing a braided, branched stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising the steps of:
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a) braiding each plurality of continuous filaments to individually form at least first leg portions of each of the legs;
b) braiding at least one filament from each plurality of continuous filaments together to form a first body portion of the body; and
c) configuring at least a fraction of one plurality of leg filaments into a non-braided configuration in a second portion of the leg, configuring at least a fraction of each plurality of leg filaments into a non-braided configuration in a second portion of the body, or a combination thereof. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A process for constructing a braided, branched stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising the steps of:
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a) braiding each plurality of filaments to individually form at least first leg portions of each of the legs; and
b) braiding at least one filament from each plurality of continuous filaments together to form a first body portion of the body;
wherein step (b) is performed prior to step (a). - View Dependent Claims (11, 12)
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13. A process for constructing a braided, branched stent using a braiding machine having a predetermined plurality of bobbins adapted to revolve in a pattern about a longitudinal axis, a first set of bobbins adapted to revolve in a first circumferential direction and a second set of bobbins adapted to revolve in a second circumferential direction, each bobbin mounted upon a bobbin carrier adapted to carry at least one bobbin, each bobbin adapted to provide one or more filaments for braiding within the stent, the stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising braiding the stent around a mandrel having a mandrel body, a first detachable mandrel lea, and a second detachable mandrel leg, the process comprising the steps of:
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(a)(i) braiding a first discrete plurality of continuous filaments to individually form at least first leg portions of a first leg, using filaments from a first portion of the predetermined plurality of bobbins to braid the first leg about the first detachable mandrel leg positioned substantially along the longitudinal axis in a braiding zone, the braiding zone comprising a conical zone defined by the filaments extending from the bobbins to the stent on the mandrel;
(a)(ii) braiding a second discrete plurality of continuous filaments to individually form at least first leg portions of a second leg, using filaments from a second portion of the predetermined plurality of bobbins to braid the second leg about the second detachable mandrel leg positioned in the braiding zone;
(b) braiding the first plurality of continuous filaments and the second plurality of continuous filaments together to form a first body portion of the body, using filaments from both portions of the predetermined plurality of bobbins to braid the body about the mandrel body positioned in the braiding zone;
wherein the process comprising a sequence comprising; A) first performing step (a)(i);
B) then removing the first portion of the predetermined plurality of bobbins from the braiding machine, and removing the first mandrel leg from the braiding zone;
C) then performing step (a)(ii);
D) then returning the first portion of the predetermined plurality of bobbins to the braiding machine, attaching the first mandrel leg and the second mandrel leg to the mandrel body, and positioning the mandrel body in the braiding zone; and
E) then performing step (b);
wherein prior to removing the first portion of the predetermined plurality of bobbins from the machine, the process further comprises grouping the first portion of the predetermined plurality of bobbins on a first side of the machine; and
prior to returning the first portion of the predetermined plurality of bobbins to the first side of the machine, the process further comprises grouping the second portion of the predetermined plurality of bobbins onto a second side of the machine; andwherein after or during the step of returning the first portion of the predetermined plurality of bobbins to the machine in step D, the process further comprises the steps of; D1) identifying at least one adjacent pair of bobbins comprising a first bobbin from the first portion of the predetermined plurality of bobbins and a second bobbin from the second portion of the predetermined plurality of bobbins; and
D2) crossing the filaments attached to the first and second bobbins so that the first leg and the second leg of the stent are interlocked together by the crossed filaments.
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14. A process for constructing a braided, branched stent using a braiding machine having a predetermined plurality of bobbins adapted to revolve in a pattern about a longitudinal axis, a first set of bobbins adapted to revolve in a first circumferential direction and a second set of bobbins adapted to revolve in a second circumferential direction, each bobbin mounted upon a bobbin carrier adapted to carry at least one bobbin, each bobbin adapted to provide one or more filaments for braiding within the stent, the stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising braiding the stent around a mandrel having a mandrel body, a first detachable mandrel leg, and a second detachable mandrel leg, the process comprising the steps of:
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(a)(i) braiding a first discrete plurality of continuous filaments to individually form at least first leg portions of a first leg, using filaments from a first portion of the predetermined plurality of bobbins to braid the first leg about the first detachable mandrel leg positioned substantially along the longitudinal axis in a braiding zone, the braiding zone comprising a conical zone defined by the filaments extending from the bobbins to the stent on the mandrel;
(a)(ii) braiding a second discrete plurality of continuous filaments to individually form at least first leg portions of a second leg, using filaments from a second portion of the predetermined plurality of bobbins to braid the second leg about the second detachable mandrel leg positioned in the braiding zone;
(b) braiding the first plurality of continuous filaments and the second plurality of continuous filaments together to form a first body portion of the body, using filaments from both portions of the predetermined plurality of bobbins to braid the body about the mandrel body positioned in the braiding zone;
wherein the process comprising a sequence comprising; A) first performing step (a)(i);
B) then removing the first portion of the predetermined plurality of bobbins from the braiding machine, and removing the first mandrel leg from the braiding zone;
C) then performing step (a)(ii);
D) then returning the first portion of the predetermined plurality of bobbins to the braiding machine, attaching the first mandrel leg and the second mandrel leg to the mandrel body, and positioning the mandrel body in the braiding zone; and
E) then performing step (b);
wherein the step of returning the first portion of the predetermined plurality of bobbins to the machine in step D comprises placing each bobbin from the first portion of the predetermined plurality of bobbins in a position located circumferentially between two bobbins from the second portion of the predetermined plurality of bobbins.
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15. A process for constructing a braided, branched stent using a braiding machine having a predetermined plurality of bobbins adapted to revolve in a pattern about a longitudinal axis, a first set of bobbins adapted to revolve in a first circumferential direction and a second set of bobbins adapted to revolve in a second circumferential direction, each bobbin mounted upon a bobbin carrier adapted to carry at least one bobbin, each bobbin adapted to provide one or more filaments for braiding within the stent, the stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising braiding the stent around a mandrel having a mandrel body, a first detachable mandrel leg, and a second detachable mandrel leg, the process comprising the steps of:
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(a)(i) braiding a first discrete plurality of continuous filaments to individually form at least first leg portions of a first leg, using filaments from a first portion of the predetermined plurality of bobbins to braid the first leg about the first detachable mandrel leg positioned substantially along the longitudinal axis in a braiding zone, the braiding zone comprising a conical zone defined by the filaments extending from the bobbins to the stent on the mandrel;
(a)(ii) braiding a second discrete plurality of continuous filaments to individually form at least first leg portions of a second leg, using filaments from a second portion of the predetermined plurality of bobbins to braid the second leg about the second detachable mandrel leg positioned in the braiding zone;
(b) braiding the first plurality of continuous filaments and the second plurality of continuous filaments together to form a first body portion of the body, using filaments from both portions of the predetermined plurality of bobbins to braid the body about the mandrel body positioned in the braiding zone;
wherein the process comprising a sequence comprising; A) first performing step (b);
B) then removing the second portion of the predetermined plurality of bobbins from the machine and attaching the first mandrel leg to the mandrel body;
C) then performing step (a)(i);
D) then returning the second portion of the predetermined plurality of bobbins to the machine and removing the first portion of the predetermined plurality of bobbins from the machine, attaching the second mandrel leg to the mandrel body, detaching the first mandrel leg from the mandrel body, and positioning the first leg of the stent outside the braiding zone so that the first leg does not interfere with performance of step (a)(ii); and
E) then performing step (a)(ii). - View Dependent Claims (16, 17, 18)
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19. A process for constructing a braided, branched stent using a braiding machine having a predetermined plurality of bobbins adapted to revolve in a pattern about a longitudinal axis, a first set of bobbins adapted to revolve in a first circumferential direction and a second set of bobbins adapted to revolve in a second circumferential direction, each bobbin mounted upon a bobbin carrier adapted to carry at least one bobbin, each bobbin adapted to provide one or more filaments for braiding within the stent, the stent having a body and a plurality of legs, each leg comprising a discrete plurality of continuous filaments, the process comprising braiding the stent around a mandrel having a mandrel body, a first detachable mandrel leg, and a second detachable mandrel leg, the process comprising the steps of:
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(a)(i) braiding a first discrete plurality of continuous filaments to individually form at least first leg portions of a first leg, using filaments from a first portion of the predetermined plurality of bobbins to braid the first leg about the first detachable mandrel leg positioned substantially along the longitudinal axis in a braiding zone, the braiding zone being a conical zone defined by the filaments extending from the bobbins to the stent on the mandrel;
(a)(ii) braiding a second discrete plurality of continuous filaments to individually form at least first leg portions of a second leg, using filaments from a second portion of the predetermined plurality of bobbins to braid the second leg about the second detachable mandrel leg positioned in the braiding zone;
(b) braiding the first plurality of continuous filaments and the second plurality of continuous filaments together to form a first body portion of the body, using filaments from both portions of the predetermined plurality of bobbins to braid the body about a mandrel body positioned in the braiding zone;
wherein; the first set of bobbin carriers revolves about a longitudinal axis in a clockwise circumferential direction, the second set of bobbin carriers revolves about the longitudinal axis in a counterclockwise circumferential direction, and the braiding process in step (a) comprises braiding each leg in a 1;
1 single filament braiding ratio and configuring each of the first set of bobbin carriers and second set of bobbin carriers with bobbins spaced one bobbin per every other carrier such that each carrier having a bobbin thereon is positioned circumferentially between two empty carriers in that set of bobbin carriers.- View Dependent Claims (20, 21, 22)
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Specification
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Current AssigneeLifeshield Sciences LLC (Acacia Research Corporation)
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Original AssigneeScimed Life Systems Incorporated (Boston Scientific Corporation)
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InventorsChouinard, Paul F., Haverkost, Patrick A., Peiffer, Dennis A.
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Primary Examiner(s)Woo, Julian W.
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Application NumberUS10/115,221Publication NumberTime in Patent Office1,259 DaysField of Search623/1.53, 623/1.15, 623/1.22, 623/1.35, 87/8, 87/11, 87/33, 87/41US Class Current623/1.35CPC Class CodesA61F 2/90 characterised by a net-like...A61F 2002/065 Y-shaped blood vesselsA61F 2002/821 Ostial stentsA61F 2230/001 Figure-8-shaped, e.g. hourg...A61F 2230/0067 conicalA61F 2250/0036 differing in thicknessA61F 2250/0039 differing in diameterD04C 1/06 Braid or lace serving parti...D04C 3/14 Spool carriersD04C 3/48 Auxiliary devicesD10B 2509/06 Vascular grafts; stents
