Patent application number | Description | Published |
20080262596 | Stent Graft Fixation System and Method - A stent graft fixation system and method including a stent graft for fastening to a fixation point in a body lumen, the stent graft including a stent; a graft material supported by the stent and having a fixation region; and a guide suture joined to the graft material in the fixation region. The guide suture has a length selected to extend from the fixation point to outside of the body lumen. | 10-23-2008 |
20080262597 | Prosthesis Fixation Apparatus and Methods - Apparatus and methods for endoluminally advancing a tubular prosthesis and a plurality of fasteners to a site in a lumen in a human body and passing the fasteners from an inner surface of the prosthesis through the prosthesis and a wall of the lumen to secure the prosthesis to the wall. Embodiments include simultaneous deployment of fasteners using a graft alone or in conjunction with a stent graft. Another arrangement includes guide lines to guide the end of the fixation deployment device to a specific location of the wall of the prosthesis. | 10-23-2008 |
20090112233 | Prosthesis Fixation Apparatus and Methods - Endovascular fastener delivery apparatus comprises a flexible elongated member having a proximal end and a distal end and being configured and adapted to be endolumenally advanced through human vasculature, a flexible pusher member slidably coupled to the elongated member, and a plurality of serially aligned clip carriers secured to the pusher member, each clip carrier comprising a spring element and having a leading end adapted to seat a fastener and a trailing end fixedly secured to the pusher member. In one embodiment, a plurality of bridge clip fasteners are endolumenally advanced to a site in a lumen in a human body and the fasteners are passed from an inner surface of the prosthesis through the prosthesis and a wall of the lumen to secure the prosthesis to the lumen wall. | 04-30-2009 |
20090230167 | Endostapler Biasing Mechanism - An endostapler delivery system includes a biasing mechanism to offset or counter forces generated by a stapling device and therefore prevent the stapling device from moving during the firing of the staple. The delivery system includes a catheter having at least one lumen extending there through for receiving the stapling device. The biasing mechanism is an expandable biasing cage having a dome or semi-circular expanded shape provided at the distal portion of the catheter. When expanded, the biasing cage does not block or occlude a vessel, thereby allowing blood flow to continue during the stapling procedure. The biasing cage may include a plurality of ribbons or strands that extend generally parallel to the blood flow when expanded in situ, a mesh or braided structure, or a plurality of ribbons or strands that extend generally parallel to the blood flow when expanded in situ and a mesh or braided structure placed over the plurality of ribbons. | 09-17-2009 |
20090230169 | Endostapler Biasing Mechanism - An endostapler delivery system includes a biasing mechanism to offset or counter forces generated by a stapling device and therefore prevent the stapling device from moving during the firing of the staple. The delivery system includes a catheter having at least one lumen extending there through for receiving the stapling device. The biasing mechanism is an expandable biasing cage having a dome or semi-circular expanded shape provided at the distal portion of the catheter. When expanded, the biasing cage does not block or occlude a vessel, thereby allowing blood flow to continue during the stapling procedure. The endostapler delivery system further includes a steering wire that can be used to bend the catheter shaft. | 09-17-2009 |
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 |
20100249898 | Stent Graft - A stent graft system includes a first stent graft having a first end and a second end opposing the first end. The system further includes a second stent graft in fluid communication with the first stent graft. The second stent graft defines a lumen a third end in fluid communication with the second end. The second stent graft further includes a fourth end opposing the third end, and at least a first sleeve and second sleeve extending radially therefrom and in fluid communication with the lumen, The first sleeve is radially offset from the second sleeve. Each of the first sleeve and second sleeve comprises a flexible material configured to evert between a first position such that the sleeve is positioned within the lumen and a second position such that the sleeve is positioned exterior to the lumen. The system further includes a third stent graft. | 09-30-2010 |
20100268317 | Stent Graft Restraining Mechanism for a Delivery System (Catheter) - A prosthesis delivery system comprises a tip having a lumen, a first end and a second end; a sleeve coupled to the tip second end; a spindle comprising a spindle body and a plurality of projections extending radially outward from the spindle body, each projection having a first edge and a second edge, the first edge facing the tip and the second edge extending from the first edge, being angled toward the tip first end, and extending toward the sleeve; and endoprosthesis having an undulating spring with a plurality of crown portions having apices, where the crown portions extend over at least one of the first or second edges and the sleeve radially constrains the apices. | 10-21-2010 |
20110112524 | Hollow body cavity ablation apparatus - An ablation apparatus places electrodes at the perimeter of a cavity. In an embodiment, the alternating electric field is used to expose the cavity to enough energy to ablate the cavity. In an embodiment, two modes are used to expose different regions of the cavity to different amounts of power for so that the thermal effect is more uniform. In an embodiment, the electrodes have a relatively large surface area so as to avoid charring the cavity, but are shaped so as to fit within a body orifice. For example, the diameter of the sheathed housing the electrodes during penetration may be only 5.5 mm. | 05-12-2011 |