Patent application number | Description | Published |
20080234717 | Helical Screw Puncture Tip - A helical screw dilator system and method including a helical screw dilator having a proximal end, a distal end, and an axial length, the helical screw dilator including a piercing tip at the distal end; a threaded dilation portion operably connected to the piercing tip along the axial length, the threaded dilation portion having an outer surface increasing in circumference with distance from the distal end and having threads disposed about the outer surface; and a shaft between the threaded dilation portion and the proximal end and a guidewire lumen through the center to guide the system to its destination. | 09-25-2008 |
20090125097 | Device and Method for Stent Graft Fenestration in Situ - An anchoring balloon of an anchoring balloon catheter is advanced through the branch vessel to be adjacent to the main stent graft within a main vessel. The anchoring balloon is inflated to center an inner member of the anchoring balloon catheter within the branch vessel and to anchor the anchoring balloon within the branch vessel. A needle assembly is advanced to pierce the graft material of the main stent graft with a needle forming a needle hole in the graft material. A dilator assembly is advanced to dilate the needle hole with a dilator. | 05-14-2009 |
20090240316 | Bloused Stent-Graft and Fenestration Method - A method includes deploying a bloused stent-graft into a main vessel such that a bloused section of the bloused stent-graft covers a branch vessel emanating from the main vessel. The bloused section includes loose graft cloth. A pressure differential between the main vessel and the branch vessel causes the bloused section to be forced into an ostium of the branch vessel creating a pocket aligned with the branch vessel. A distal tip of a puncture device is located in the pocket and thus aligned with the branch vessel. An outward force is applied to the puncture device to cause the distal tip of the puncture device to fenestrate the bloused section thus creating a collateral opening in the bloused section precisely aligned with the branch vessel. | 09-24-2009 |
20090248135 | Eversible Branch Stent-Graft and Deployment Method - A method of deploying an eversible branch stent-graft includes deploying the eversible branch stent-graft into a main vessel such that a collateral opening in a main stent-graft of the eversible branch stent-graft is aligned with an ostium of a branch vessel emanating from the main vessel. A branch stent ring suture threaded though outer exposed crowns of an outer stent ring of the branch stent-graft is grasped and pulled through the collateral opening to evert the branch stent-graft into the branch vessel as a branch anchor suture is removed to release a protruding end of a branch stent-graft from a proximal end of the main stent-graft. | 10-01-2009 |
20090259290 | Fenestration Segment Stent-Graft and Fenestration Method - A method includes deploying a fenestration segment stent-graft into a main vessel such that a fenestration section of the fenestration segment stent-graft covers a first branch vessel emanating from the main vessel. The fenestration segment stent-graft includes a proximal section, a distal section, and the fenestration section attached to and between the proximal section and the distal section. The fenestration section has a greater resistance to tearing than the proximal section and the distal section facilitating formation of a collateral opening aligned with the branch vessel in the fenestration section. | 10-15-2009 |
20090264821 | Endolumenal Sealant Delivery Apparatus and Methods - Endolumenally sealing a zone around the puncture and dilation area of a stent-graft fenestration or sealing the juncture between two lumens with an expandable sealant delivery device. In exemplary embodiments, an expandable sealant delivery device includes a catheter mounted balloon, which has a microporous membrane or a plurality of pores suitable for delivering a surgical sealant. | 10-22-2009 |
20090264977 | Family of Electrodes for Use in Performing in Situ Fenestration Using a Plasma RF Catheter - To facilitate the widespread use of the RF plasma catheter to provide in situ fenestration of a main stent-graft, potential side-effects of the fenestration are ameliorated using an electrode from a family of electrodes. Specifically, a family of electrodes is provided so that for a particular application, an appropriate electrode can be selected. | 10-22-2009 |
20090264985 | Branch Vessel Suture Stent System and Method - A branch vessel suture stent system and method including a branch vessel suture stent having a stent body having a first end, a second end, and a central axis, the first end having a first periphery; and shape memory hooks disposed about the first periphery, each of the shape memory hooks being attached to the first periphery at an attachment point, the shape memory hooks being elongated in a stressed state and looped in a parent state, each of the shape memory hooks defining a loop plane in the parent state. The shape memory hooks are substantially parallel to the central axis in the stressed state, and the first periphery at the attachment point for each of the shape memory hooks is substantially orthogonal to the loop plane for each of the shape memory hooks in the parent state. The delivery system allows the main body of the branch device to expand while maintaining the hooks in an undeployed configuration using individual hypotubes. Then once the body of the suture stent has expanded allowing the suture stent shape memory hooks to be released and engage the main graft body and/or surrounding tissue. | 10-22-2009 |
20090264988 | Stent Graft Delivery System Including Support for Fenestration in Situ and a Mechanism for Modeling - A system and method for delivering a self-expanding stent graft within a segment of a body vessel having a branch vessel extending therefrom. The graft includes one or more self-expanding stents for anchoring the graft to the vessel wall and has a stent-free body portion positionable across the branch vessel. The graft delivery system includes an expandable fenestration support structure at the distal end thereof that is positioned within the graft during delivery. Once the graft has been delivered and expanded into apposition with the vessel wall, the support structure may be expanded therein to press the unsupported body portion of the graft against the branch vessel such that a separate puncture device may be delivered to create a fenestration in the graft for perfusion of the branch vessel. In addition, the expanded fenestration support structure reduces any wrinkles in the graft without a secondary procedure. | 10-22-2009 |
20090264990 | Radiopaque Imprinted Ink Marker for Stent Graft - A tubular synthetic endoluminal graft having at least one radiopaque ink marker pattern to radiographically delineate the surface of the graft cloth. The radiopaque ink marker includes a matrix of ink dots defining an annular band about a circumference of the graft. The endoluminal graft including at least one stent attached to the graft. The at least one stent may overlap or be positioned adjacent the radiopaque ink marker. The radiopaque ink marker may be utilized to facilitate creation of a fenestration in the side wall of the graft in situ to perfuse a side branch vessel. | 10-22-2009 |
20090270966 | Stent Graft System and Method of Use - A stent graft system and method of use includes a stent graft for fixation at an attachment site with graft material defining at least one opening having an opening perimeter; a support attached to the graft material; a guide rail attached around the opening perimeter; and a helical anchor having a plurality of coils with a point at one end. The plurality of coils are rotatable around the guide rail to cause the pointed end of the coils to penetrate the graft material and the adjacent tissue in contact with the stent graft to sew the stent graft to the attachment site. | 10-29-2009 |
20090270971 | Prosthesis Fixation Apparatus and Methods - A tubular prosthesis comprises a tubular graft; and an undulating stent having a plurality of apexes, a first end defined at least in part by a first group of the apexes, and a second end defined at least in part by a second group of the apexes, the first group of apexes being pivotally attached to the tubular graft so as to form a plurality of circumferentially arranged hinges about which the stent can pivot so that the second group of apexes can move between a position where they are inside the tubular graft and a position where they are outside the tubular graft. In one embodiment a tubular prosthesis comprises a tubular graft having a first end margin, a second end margin and a central portion therebetween; and an undulating stent having a plurality of apexes, a first end defined at least in part by a first group of the apexes, and a second end defined at least in part by a second group of the apexes, the undulating stent being secured to the tubular graft in a manner such that it can be inverted to extend generally in the same direction as the tubular graft with one end thereof forming an end of said tubular prosthesis and pointing away from the central portion of the tubular graft. | 10-29-2009 |
20090270976 | Stent Graft Fixation System and Method of Use - A stent graft fixation system and method of use includes a stent graft system for fixation to a vessel wall, the system having a helical anchor and a stent graft. The helical anchor has a number of coils with a point at one end and a helical anchor axis, and the stent graft has a stent graft axis. The coils are operable to sew the stent graft to the vessel wall with the helical anchor axis generally parallel to the stent graft axis. | 10-29-2009 |
20100179565 | Rail for Delivering an Endovascular Stapler - An endovascular stapler delivery apparatus having a continuous geometrically non-symmetrical delivery rail operable to guide a stapling device to one or more stapling locations within a body vessel is disclosed. The delivery rail includes a first elongated leg, a second elongated leg in parallel with the first leg, and a self-expanding distal loop extending between a distal end of the first leg and a distal end of the second leg. The distal loop self-expands at a delivery site within the vessel at an angle with a longitudinal axis of the vessel and includes at least first and second portions that abut the vessel at opposing and longitudinally offset locations of a wall of the vessel. The self-expanding distal loop operates to press and align the stapling device against one or more stapling locations. | 07-15-2010 |
20100179632 | Robotic Fenestration Device Having Impedance Measurement - A method and system for real-time continuous impedance monitoring along the surface of a graft implanted within a main vessel to aid in optimally positioning an electrode at a branch vessel ostium. Due to the conductivity differences among various kinds of solid tissue and blood, a fenestration catheter system uses impedance monitoring as a tool to detect the location of branch ostia through graft cloth. Such information enables the fenestration electrode to be properly positioned for creation of a fenestration in the graft cloth in situ. In addition, the fenestration catheter system may utilize impedance information to avoid contact between the electrode and metal stent structures used to anchor the graft during an in situ fenestration procedure. The fenestration catheter system includes a catheter shaft, an electrode, one or more reference or indifferent electrodes, an impedance analyzer, a power source and an electrode position reference to record impedance measurements in relation to position. | 07-15-2010 |
20100241218 | Branch Vessel Prosthesis With a Roll-Up Sealing Assembly - A branch prosthesis configured for placement in a branch vessel includes an expandable tubular body portion, an expandable annular flange attached to a proximal end of the body portion, and a sealing sleeve proximally extending from the annular flange. The sealing sleeve is adapted to deform to a generally straight cylindrical hollow shape during implantation. When deployed, the sealing sleeve rolls up to a tightly-wound coil that bears against the annular flange. When used in conjunction with a main prosthesis having a side opening and deployed within in a main vessel, the annular flange of the branch prosthesis engages an outer surface of the main prosthesis around a perimeter of the side opening and the sealing sleeve engages an inner surface of the main prosthesis around the perimeter of the side opening to form a fluid-tight seal between the main prosthesis and the branch prosthesis. | 09-23-2010 |
20100268319 | Mobile External Coupling for Branch Vessel Connection - An endovascular prosthesis includes a tubular body and a flexible springy mobile external coupling. The tubular body includes a graft material and stents coupled thereto with a forms a lumen therethrough. The mobile external coupling extends outwardly from the tubular body. The mobile external coupling includes a graft material and is generally frustoconically shaped. The mobile external coupling includes a base coupled to the tubular body, a top spaced from the tubular body, and a coupling lumen disposed between the base and the top, wherein the coupling lumen is in flow communication with the body lumen. A helically shaped stent may be coupled to the coupling graft material to make it flexible and springy. | 10-21-2010 |