| Patent application number | Description | Published |
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| 20080228258 | MEDICAL SYSTEMS AND RELATED COMPONENTS AND METHODS - This invention relates to medical systems and related components and methods. In some embodiments, the systems include a sleeve configured to be disposed between an adaptor and a catheter assembly including an outer sheath surrounding an inner member. | 09-18-2008 |
| 20090171430 | BIFURCATION STENT DELIVERY SYSTEM AND METHODS - A catheter assembly may include a main balloon arranged to reside within the main vessel, and a branch balloon configured to extend from the main vessel into the branch vessel. A stent may be situated around the main balloon and may include a branch aperture at a location between proximal and distal open ends of the stent. The branch balloon may extend from within the stent, through the branch aperture, and into the branch vessel. The branch balloon, when inflated, may extend into the branch vessel. The main balloon, when inflated, may also expand the stent within the main vessel. In some arrangements, the branch balloon, when inflated, can function as an anchor within the branch vessel that resists radial and axial movement of the stent relative to the branch vessel and main vessel during expansion of the stent by the main balloon. | 07-02-2009 |
| 20090177119 | ARTICULATING INTRACORPOREAL MEDICAL DEVICE - Guidewires and design, material, manufacturing method, and use alternatives for the same. An example method for advancing a guidewire to a target site in the anatomy of a patient may include providing the guidewire and advancing the guidewire through a blood vessel to a position adjacent the target site. Advancing the guidewire through a blood vessel may include disposing the hinge portion across a bifurcation in the blood vessel. The guidewire may have a proximal end and a distal end. The guidewire may include an elongate tubular member including a proximal portion, a distal portion extending to the distal end of the guidewire, and a hinge portion disposed between the proximal portion and the distal portion. The proximal portion may have a plurality of slots formed therein and a first lateral flexibility. The distal portion may have a plurality of slots formed therein and a second lateral flexibility. The hinge portion may have plurality of slots formed therein and a third lateral flexibility that is greater than both the first lateral flexibility and the second lateral flexibility. | 07-09-2009 |
| 20100036477 | STENT EDGE PROTECTION AND METHODS - A catheter assembly and related methods directed to stent edge protection for an edge of a stent. One example stent edge protect member is positioned with a distal end portion of the stent edge protect member arranged proximal of and adjacent to a proximal end of the stent. The stent edge protect member defines an outer surface that transitions from an outer surface of the stent at the proximal end of the stent to an outer surface of the catheter branch on which the stent edge protect member is positioned. The stent edge protect member can be positioned on a single catheter branch or multiple catheter branches. | 02-11-2010 |
| 20100094398 | Rolling Membrane with Hydraulic Recapture Means for Self Expanding Stent - A medical device comprising a catheter having a retractable outer sheath and a rolling membrane. The catheter includes a catheter inner shaft about which a stent in a reduced diameter configuration may be disposed. A stent retaining region of the sheath is disposed about the stent to retain the stent in the reduced diameter state prior to delivery. The rolling membrane is engaged to a portion of the outer sheath at an engagement region. The rolling membrane is positioned between the catheter inner shaft and the outer sheath and prior to retraction of the sheath the rolling membrane is disposed about at least a proximal section of the stent and is rollingly retracted therefrom when the sheath is retracted to deliver the stent. The device also recaptures a stent by pressurizing a intra-catheter space, which results in the longitudinal movement of the outer sheath in a distal direction to recover and retain the stent. | 04-15-2010 |
| Patent application number | Description | Published |
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| 20100100176 | ANCHORING STRUCTURE WITH CONCAVE LANDING ZONE - A method and device for reducing paravalvular leakage upon implantation of a replacement heart valve is provided. The valve assembly includes a tissue or bioprosthetic heart valve attached to an anchoring structure. The anchoring structure includes an inlet rim that is substantially C-shaped in cross section to form a concave landing zone. The anchoring structure self-seats when implanted in the sinus of a patient with the proximal and distal ends of the C-shaped inlet rim pushed against the aorta to effectively prevent paravalvular leakage. | 04-22-2010 |
| 20110056064 | CRIMPING DEVICE AND METHOD OF USE - A crimping tool for crimping a stented heart valve comprises a housing having a front wall and a back wall, a compression assembly disposed between the front wall and the back wall and including a stent receiving chamber therewithin for receiving a stented heart valve, and a delivery device holder slidably coupled to the front wall of the housing. The compression assembly is movable between an uncrimped position and a crimped position to reduce the diameter of the stented heart valve. | 03-10-2011 |
| 20110060404 | SURGICAL DELIVERY DEVICE AND METHOD OF USE - A delivery device for a stented heart valve comprises a handle, an elongate shaft extending from a distal end of the handle, and a conical housing having a proximal end coupled to the elongate shaft and an open distal end, the conical housing having a conical lumen therein with a first internal diameter adjacent to the proximal end of the conical housing and a larger second internal diameter adjacent to the open distal end of the conical housing. | 03-10-2011 |
| 20110106246 | TRANSAPICAL DELIVERY DEVICE AND METHOD OF USE - A delivery device for a stented heart valve comprises a handle, an inner catheter shaft extending from the handle and having an enlarged bumper element at a distal end, an outer catheter shaft extending from the handle and slidably coupled around the inner catheter shaft, and a retraction mechanism for controlling longitudinal movement of the outer catheter shaft relative to the inner catheter shaft. The outer catheter shaft includes a generally cylindrical housing at a distal end that is structured to receive the bumper element therein. | 05-05-2011 |
