Patent application number | Description | Published |
20110301703 | DEVICES AND METHODS FOR COLLAPSING PROSTHETIC HEART VALVES - A crimping tool for use with a collapsible prosthetic valve having a stent frame with a plurality of cell openings, and a valve structure assembled in the stent frame. The crimping tool includes a plurality of resilient tines defining an array around a longitudinal axis of the crimping tool. The array has a first cross-section in an expanded state and a second cross-section less than the first cross-section in a collapsed state. The plurality of tines are adapted to intersect the plurality of cell openings in an assembled position of the crimping tool on the prosthetic valve to prevent pinching of the valve structure by the stent frame as the prosthetic valve is collapsed. | 12-08-2011 |
20120078237 | TIP FOR MEDICAL IMPLANT DELIVERY SYSTEM - A delivery system for delivering and deploying a medical implant, such as a prosthetic heart valve, includes an elongated support member, a sheath, and a tip. The sheath is movable relative to the elongated support member between a distal position overlying the medical implant and a proximal position exposing the medical implant for release from the delivery system. The tip is attached to the elongated support member and is positioned at a distal end of the sheath when the sheath is in the distal position. The tip has a compressed condition and an expanded condition, and a maximum diameter in the expanded condition that is larger than the outer diameter of the sheath. | 03-29-2012 |
20120078350 | RETAINERS FOR TRANSCATHETER HEART VALVE DELIVERY SYSTEMS - A delivery device for an implantable medical device having at least one retention member at an end thereof includes a shaft extending in a longitudinal direction, an elongated sheath surrounding a longitudinal portion of the shaft, a compartment defined inside of the sheath and adapted to receive the medical device in an assembled condition, a retainer positioned at one end of the compartment, and at least one acceptance in the retainer adapted to receive the retention member of the medical device in the assembled condition. The sheath is slidable relative to the shaft in the longitudinal direction to uncover and deploy the medical device. The retainer may be rotatable relative to the shaft to reduce torsional forces in the medical device during delivery and deployment. The retainer may have at least one recess facing the compartment for receiving a strut at an end of a stent of the medical device. | 03-29-2012 |
20120083874 | DEVICE FOR COLLAPSING AND LOADING A HEART VALVE INTO A MINIMALLY INVASIVE DELIVERY SYSTEM - A device is provided for collapsing a stented bioprosthetic valve, including first section and second sections, each spanning between first and second ends of the device. The second section of the device is associated with the first section to at least partially enclose an internal cavity formed by the first and second sections, the internal cavity tapering from an open insertion portion at a first end of the device to an open exit portion at a second end of the device. The insertion portion has a larger dimension than the exit portion. When the first section and second section are substantially enclosing the internal cavity, a stented bioprosthetic valve may be inserted into the insertion portion and collapsed as it is moved toward and through the exit portion. The valve may then be loaded on an apparatus for insertion into the body. | 04-05-2012 |
20120083875 | ASSEMBLY AND METHOD FOR LOADING A SELF-EXPANDING COLLAPSIBLE HEART VALVE - An assembly for collapsing a prosthetic heart valve includes a compression member and a pusher member. The compression member has a first open end with a first diameter, a second open end with a second diameter less than the first diameter, and a tapered wall between the first open end and the second open end. The pusher member has a base adapted to engage an end of the valve. The pusher member and the compression member are movable relative to one another between an initial position in which the base of the pusher member is relatively far from the first open end of the compression member and an operative position in which the base of the pusher member is relatively close to the first open end of the compression member. Movement of the pusher and compression members from the initial position to the operative position radially compresses the valve. | 04-05-2012 |
20120165854 | MONORAIL SYSTEM FOR VASCULAR CLOSURE DEVICE AND METHODS - A tissue puncture closure assembly including a wire assembly and first and second devices. The wire assembly includes a first wire member and a second wire member that each include a distal end portion and a proximal end portion. At least portions of the second wire member are arranged side-by-side with the first wire member. The distal end portion of the first wire member is connected to the distal end portion of the second wire member, and a proximal end portion of the first wire member is disconnected from the proximal end portion of the second wire member. The first device is operable to advance over the first wire member. The second device is operable to advance over the second wire member. | 06-28-2012 |
20120245624 | SNAP-ON VASCULAR CLOSURE DEVICE AND METHODS - A tissue puncture closure assembly including a wire assembly and a sealing pad delivery device. The wire assembly includes a proximal end portion, a distal end portion, and a temporary expandable anchor positioned at the distal end portion. The sealing pad delivery device includes a carrier tube, a sealing pad positioned in the carrier tube, and a lateral wire slot. The lateral wire slot is defined in an outer surface of the sealing pad delivery device and extends along at least a portion of a length of the sealing pad delivery device. The lateral wire slot is configured to permit mounting of the sealing pad delivery device to the wire assembly in a lateral direction. | 09-27-2012 |
20120283770 | COMPRESSIBLE ARTERIOTOMY LOCATOR FOR VASCULAR CLOSURE DEVICES AND METHODS - A tissue puncture locator device includes a temporary anchor configured for placement through a vascular puncture into a vessel. The temporary anchor includes a column member that defines a lumen. The temporary anchor is movable between an uncompressed position and a compressed position, wherein in the compressed position a portion of the column member protrudes radially outward. The column member may include a reduced thickness portion, wherein the column member protrudes radially outward at the reduced thickness portion. The column member, when expanded radially outward within the vessel, is sized to limit retraction of the temporary anchor through the vascular puncture. | 11-08-2012 |
20120330408 | SYSTEM FOR LOADING A COLLAPSIBLE HEART VALVE - An assembly for collapsing a self-expanding prosthetic heart valve includes a compression member, a support member and a constricting member. The compression member has a tapered wall between its first open end and its second open end, the tapered wall defining an open space adapted to receive the valve. The support member has a base and a recess adapted to receive an end of the valve. The support member and the compression member are movable toward one another to compress the valve and push it through a relatively small aperture in the second open end of the compression member. The second end of the constricting member is sized to receive the compressed valve from the second open end of the compression member for loading into a delivery device. | 12-27-2012 |
20130166020 | SYSTEM FOR LOADING A COLLAPSIBLE HEART VALVE - An assembly for collapsing a self-expanding prosthetic heart valve includes a compression member, a support member, a constricting member, and a spacer which may be used for smaller sized heart valves. The compression member has a tapered wall between its first open end and its second open end, the tapered wall defining an open space adapted to receive the heart valve. The support member has a base and a recess adapted to receive an end of the heart valve. The support member and the compression member are movable toward one another to compress the heart valve and push it through a relatively small aperture in the second open end of the compression member. The second end of the constricting member is sized to receive the compressed heart valve from the second open end of the compression member for loading into a delivery device. | 06-27-2013 |
20130289698 | RETAINERS FOR TRANSCATHETER HEART VALVE DELIVERY SYSTEMS - A delivery device | 10-31-2013 |
20130297011 | DEVICES AND METHODS FOR TRANSCATHETER HEART VALVE DELIVERY - A delivery device for a collapsible prosthetic heart valve includes an operating handle and a catheter assembly. The operating handle may include a housing defining a movement space therein, a carriage assembly moveable in a longitudinal direction within the movement space, a deployment actuator coupled to the housing and rotatable relative to the housing, and a coupling assembly rotationally fixed to the deployment actuator. The catheter assembly may include a first shaft around which a compartment is defined and a distal sheath operatively connected to the carriage assembly. Movement of the carriage assembly in the longitudinal direction in the movement space may move the distal sheath between the closed condition and the open condition. The coupling assembly may have an engaged position in which rotation of the deployment actuator moves the carriage assembly, and a disengaged position in which rotation of the deployment actuator does not move the carriage assembly. | 11-07-2013 |
20140005767 | SYSTEM TO ASSIST IN THE RELEASE OF A COLLAPSIBLE STENT FROM A DELIVERY DEVICE | 01-02-2014 |
20140088641 | FILLED BALLOON ARTERIOTOMY LOCATOR FOR VASCULAR CLOSURE DEVICES AND METHODS - A tissue puncture locator device includes an anchor assembly and a sealing member. The anchor assembly includes an anchor portion, a tube portion, and a filling member. The anchor portion is positioned at a distal end of the tube portion and configured for placement through a vascular incision into a vessel. The anchor member has an unexpanded configuration that permits passage through the vascular incision and an expanded configuration that limits passage through the vascular incision. The filling member is retained in the tube portion and adapted for insertion from the tube portion into the anchor member to provide the expanded configuration, and adapted for retraction from the anchor member into the tube portion to provide the unexpanded configuration. The sealing member is configured for placement adjacent the vascular incision outside the vessel. | 03-27-2014 |
20140107758 | RETAINING CAGE TO PERMIT RESHEATHING OF A TAVI AORTIC-FIRST TRANSAPICAL SYSTEM - A delivery device for an implantable medical device includes an inner shaft extending in a longitudinal direction and an outer shaft surrounding at least a longitudinal portion of the inner shaft. The outer shaft is slidable relative to the inner shaft in the longitudinal direction. A sheath surrounds a longitudinal portion of the outer shaft, the sheath having an outer diameter and being slidable in the longitudinal direction between a first position enclosing the medical device and a second position exposing the medical device to permit full functionality of the medical device. A retaining cage is coupled to the outer shaft, the retaining cage being configured and arrange to collapse the medical device during resheathing. | 04-17-2014 |
20140128910 | SNAP-ON VASCULAR CLOSURE DEVICE AND METHODS - A tissue puncture closure assembly including a wire assembly and a sealing pad delivery device, The wire assembly includes a proximal end portion, a distal end portion, and a temporary expandable anchor positioned at the distal end portion. The sealing pad delivery device includes a carrier tube, a sealing pad positioned in the carrier tube, and a lateral wire slot. The lateral wire slot is defined in an outer surface of the sealing pad delivery device and extends along at least a portion of a length of the sealing pad delivery device. The lateral wire slot is configured to permit mounting of the sealing pad delivery device to the wire assembly in a lateral direction. | 05-08-2014 |
20140257457 | BALLOON RELEASE MECHANISM FOR TAVI IMPLANT - A delivery system for an implantable medical device having at least one retention member at an end thereof includes a shaft extending in a longitudinal direction. An elongated sheath surrounds the shaft. The sheath is slidable relative to the shaft in the longitudinal direction. A space is defined inside of the sheath and is adapted to receive the medical device in an assembled or collapsed condition. A retainer is positioned at a first end of the space. At least one recess is provided in the retainer and is adapted to receive the retention member of the medical device in the assembled condition. A selectively activable member is disposed in the compartment between the longitudinal shaft and the medical device. When in an activated state, the member expands radially relative to the shaft, thereby urging the retention member to disengage from the recess. | 09-11-2014 |