Prosthesis comprising an expansible or contractile tubular body
First Claim
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1. A method for forming and completely inserting a prosthesis in a body vessel, said prosthesis having a radially and axially flexible elastic tubular body with a diameter that is variable under axial movement of the ends of the body relative to each other and which is composed of a plurality of flexible and elastic thread elements, each of which extends in helix configuration along the center line of the body as a common axis, the flexible and elastic elements defining a radially self-expanding body, said self-expanding body provided by a first number of elements having a common direction of winding but being axially displaced relative to each other and crossing a second number of elements also axially displaced relative to each other but having an opposite direction of winding, said method comprising the steps of:
- (a) crossing the first and second elements such that an axially directed angle between the crossing elements is greater than 90°
, the axially directed angle being defined by the crossing of the first and second elements extending in the direction of the longitudinal axis of the cylinder;
(b) holding the prosthesis in a contracted state;
(c) inserting the prosthesis in its entirety into the body vessel at a first location;
(d) transferring the prosthesis in its entirety to a second location, remote from said first location, in the vessel; and
(e) allowing the prosthesis to expand within the vessel at said second location so as to fixedly implant said prosthesis at said second location.
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Abstract
A prosthesis for transluminal implantation comprising a flexible tubular body which has a diameter that is variable by axial movement of the ends of the body relative to each other and which is composed of several individual rigid but flexible thread elements each of which extends in helix configuration with the center line of the body as a common axis, a number of elements having the same direction of winding but being axially displaced relative to each other crossing a number of elements also axially displaced relative to each other but having the opposite direction of winding; and method for transluminal implantation.
1297 Citations
6 Claims
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1. A method for forming and completely inserting a prosthesis in a body vessel, said prosthesis having a radially and axially flexible elastic tubular body with a diameter that is variable under axial movement of the ends of the body relative to each other and which is composed of a plurality of flexible and elastic thread elements, each of which extends in helix configuration along the center line of the body as a common axis, the flexible and elastic elements defining a radially self-expanding body, said self-expanding body provided by a first number of elements having a common direction of winding but being axially displaced relative to each other and crossing a second number of elements also axially displaced relative to each other but having an opposite direction of winding, said method comprising the steps of:
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(a) crossing the first and second elements such that an axially directed angle between the crossing elements is greater than 90°
, the axially directed angle being defined by the crossing of the first and second elements extending in the direction of the longitudinal axis of the cylinder;(b) holding the prosthesis in a contracted state; (c) inserting the prosthesis in its entirety into the body vessel at a first location; (d) transferring the prosthesis in its entirety to a second location, remote from said first location, in the vessel; and (e) allowing the prosthesis to expand within the vessel at said second location so as to fixedly implant said prosthesis at said second location. - View Dependent Claims (2)
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3. A prosthesis prepared by a process by which the prothesis is formed and completely inserted into a body vessel at a fixed location, said prosthesis having a radially and axially flexible elastic tubular body with a diameter that is variable under axial movement of the ends of the body relative to each other and which is composed of a plurality of flexible and elastic thread elements, each of which extends in helix configuration along the center line of the body as a common axis, the flexible and elastic elements defining a radially self-expanding body, said self-expanding body provided by a first number of elements having a common direction of winding but being axially displaced relative to each other and crossing a second number of elements also axially displaced relative to each other but having an opposite direction of winding, said process comprising the steps of :
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(a) crossing the first and second elements such that an axially directed angle between the crossing elements is greater than 90°
, the axially directed angle being defined by the crossing of the first and second elements extending in the direction of the longitudinal axis of the cylinder and completely form said prosthesis;(b) holding the prosthesis in a contracted state; (c) introducing the prosthesis in its entirety into the body vessel at a first location; (d) transferring the prosthesis in its entirety to a second location, remote from said first location, in the vessel; and (e) allowing the prosthesis to expand within the vessel at said second location so as to fixedly implant said prosthesis at said second location and complete said insertion process. - View Dependent Claims (4)
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5. A method for using a prosthesis in a body vessel, said prosthesis having a radially and axially flexible elastic tubular body with a diameter that is variable under axial movement of the ends of the body relative to each other and which is composed of a plurality of flexible and elastic thread elements, each of which extends in helix configuration along the center line of the body as a common axis, the flexible and elastic elements defining a radially self-expanding body, said self-expanding body provided by a first number of elements having a common direction of winding but being axially displaced relative to each other and crossing a second number of elements also axially displaced relative to each other but having an opposite direction of winding, said method of use comprising the steps of:
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(a) crossing the first and second elements such that an axially directed angle between the crossing elements is greater than 90°
, the axially directed angle being defined by the crossing of the first and second elements extending in the direction of the longitudinal axis of the cylinder;(b) holding the prosthesis in a contracted state; (c) inserting the prosthesis in its entirety into the body vessel at a first location; (d) transferring the prosthesis in its entirety to a second location, remote from said first location, in the vessel; and (e) allowing the prosthesis to expand within the vessel at said second location so as to fixedly implant said prosthesis at said second location. - View Dependent Claims (6)
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Specification
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Litigation Data
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Current AssigneeAMS Medinvent SA
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Original AssigneeShepherd Patents SA
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InventorsWallsten, Hans I.
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Primary Examiner(s)NOT, DEFINED
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Application NumberUS07/330,975Time in Patent Office525 DaysField of Search128/343, 128/344, 128/345, 623/1, 623/12, 600/36, 606/191, 606/198US Class Current600/36CPC Class CodesA61F 2/0105 Open ended, i.e. legs gathe...A61F 2/011 Instruments for their place...A61F 2/07 Stent-graftsA61F 2/90 characterised by a net-like...A61F 2/958 Inflatable balloons for pla...A61F 2002/016 made from wire-like elementsA61F 2002/018 made from tubes or sheets o...A61F 2220/0008 Fixation appliances for con...A61F 2230/005 Rosette-shaped, e.g. star-s...A61F 2230/0069 cylindricalD04C 1/06 Braid or lace serving parti...
