STENT DELIVERY SYSTEM
First Claim
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1. A stent delivery system comprising:
- an inner tube;
a stent which is compressed toward a center axis and disposed on a distal side of the inner tube at a time of insertion into a lumen of a living body, and which is restored to its pre-compression shape by expanding outward when put indwelling in the lumen of the living body;
an outer tube disposed on an outer surface side of the inner tube and possessing a lumen containing the stent, the outer tube being axially movable in a proximal direction relative to the inner tube to release the stent to an exterior of the stent delivery system;
an operating unit operatively connected to the outer tube to axially move the outer tube relative to the inner tube, the operating unit comprising;
a housing;
an operation body operable by an operator;
a displacement body which is mounted in the housing to axially move relative to the housing, the displacement body including a first block connected to the outer tube and a second block on which a load is exerted due to operation of the operation body by the operator, the second block being connected to the first block; and
a releasing mechanism by which the connection between the first block and the second block is released so that the second block is moved relative to the first block when a load of not less than a predetermined value is applied to the second block from the operation body.
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Abstract
An operating unit in a stent delivery system comprises a displacement body including a first body connected to an outer tube body and a second body which is connected to the first body and meshed with a rotary roller. A first connection surface of the first body is formed with a first convex portion and a first concave portion recessed relative to the first convex portion. The first convex portion engages a second concave portion of the second body and a second convex portion engages the first concave portion. When movement of the displacement body becomes difficult for some reason and the operator forcibly rotates the rotary roller, the engaged state of the second body and the first body is released and the second body is relatively moved, thus preventing movement of the first body in the axial direction.
16 Citations
20 Claims
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1. A stent delivery system comprising:
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an inner tube; a stent which is compressed toward a center axis and disposed on a distal side of the inner tube at a time of insertion into a lumen of a living body, and which is restored to its pre-compression shape by expanding outward when put indwelling in the lumen of the living body; an outer tube disposed on an outer surface side of the inner tube and possessing a lumen containing the stent, the outer tube being axially movable in a proximal direction relative to the inner tube to release the stent to an exterior of the stent delivery system; an operating unit operatively connected to the outer tube to axially move the outer tube relative to the inner tube, the operating unit comprising; a housing; an operation body operable by an operator; a displacement body which is mounted in the housing to axially move relative to the housing, the displacement body including a first block connected to the outer tube and a second block on which a load is exerted due to operation of the operation body by the operator, the second block being connected to the first block; and a releasing mechanism by which the connection between the first block and the second block is released so that the second block is moved relative to the first block when a load of not less than a predetermined value is applied to the second block from the operation body. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A stent delivery system comprising:
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an outer tube possessing a lumen and an inner surface; an inner tube possessing an outer surface, the inner tube being positioned in the lumen of the outer tube so that an annular space exists between the outer surface of the inner tube and the inner surface of the outer tube; an operating unit operable by a user to axially move the outer tube in a proximal direction relative to the inner tube; a stent positioned in the annular space between the outer surface of the inner tube and the inner surface of the outer tube, the stent being positioned at a distal end portion of the inner tube and being compressed radially inwardly, the stent being outwardly expandable exterior of the stent delivery system to be positioned in a lumen of a living body when the outer tube is axially moved in the proximal direction relative to the inner tube; and the operating unit comprising; a housing; an operation body mounted on the housing and operable by an operator; a first block connected to the outer tube so that axial movement of the first block results in the axial movement of the outer tube relative to the inner tube; a second block connected to the operation body so that operation of the operation body axially moves the second block; and the first block and the second block being connected to each other by a releasable connection that maintains the connection between the first and second blocks when a load less than a predetermined value is applied to the second block by the operation of the operation body to transfer axial movement of the second block resulting from the operation of the operation body to the first block to axially move the first block, and that releases the connection between the first and second blocks when a load not less than a predetermined value is applied to the second block by the operation of the operation body so that axial movement of the second block resulting from the operation of the operation body is not transferred to the first block. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method comprising:
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positioning a distal end of a stent delivery system in a lumen of a living body, the stent delivery system comprising an outer tube, an inner tube positioned in the outer tube, an inwardly compressed stent between an outer surface of the inner tube and an inner surface of the outer tube, an operation body that is operable by an operator, a first block connected to the outer tube, and a second block connected to the operation body, the second block being connected to the first block; operating the operation body to axially move the second block in a proximal direction while the distal end of the stent delivery system is in the lumen of the living body; transferring the axial movement of the second block to the first block by maintaining the connection between the second block and the first block when a load less than a predetermined value is applied to the second block by the operation of the operation body to axially move the first block in a proximal direction, the axial movement of the first block in the proximal direction causing the outer tube to axially move in the proximal direction relative to the inner tube to uncover the stent and allow the stent to outwardly expand in the lumen of the living body; and not transferring the axial movement of the second block to the first block by releasing the connection between the second block and the first block when a load not less than a predetermined value is applied to the second block by the operation of the operation body so that the axial movement of the second block does not result in axial movement of first block. - View Dependent Claims (18, 19, 20)
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Specification
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Current AssigneeTerumo Kabushiki Kaisha
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Original AssigneeTerumo Kabushiki Kaisha
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InventorsSHIMOYAMA, Masakazu
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current623/1.11
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CPC Class CodesA61F 2/82 Devices providing patency t...A61F 2/9517 handle assemblies thereforA61F 2/966 with relative longitudinal ...A61F 2250/0073 Force-limiting means
