Patent application number | Description | Published |
20130253309 | IMPLANTABLE MEDICAL DEVICE DEPLOYMENT WITHIN A VESSEL - In one example, this disclosure is directed to a method for intravascular implantation of an implantable medical device comprising positioning a distal end of an elongated outer sheath forming an inner lumen adjacent a target site within a vasculature of a patient, and partially deploying an implantable medical device from the distal opening, wherein the implantable medical device includes an expandable fixation element. A portion of the expandable fixation element assumes an expanded position when the implantable medical device is partially deployed from the distal opening. The method including advancing the distal end of the outer sheath within the vasculature with the implantable medical device partially deployed from the distal opening, and monitoring at least one of the vasculature and the portion of the expandable fixation element for deflection to determine when the size of the portion of the expandable fixation element corresponds to the size of the vasculature. | 09-26-2013 |
20130253346 | PASS-THROUGH IMPLANTABLE MEDICAL DEVICE DELIVERY CATHETER WITH REMOVEABLE DISTAL TIP - In one example, this disclosure is directed to a kit for intravascular implantation of an implantable medical device, the kit comprising an outer sheath, the outer sheath sized to traverse a vasculature of the patient, and an elongated inner sheath with a tapered distal end. The inner sheath is slidable within the inner lumen of the outer sheath and is selectably removable from the inner lumen of the outer sheath by sliding the inner sheath out of the proximal opening of the outer sheath. The kit includes an elongated deployment receptacle including a deployment bay slidable within the inner lumen of the outer sheath when the inner sheath is not within the inner lumen of the outer sheath. The deployment bay carries an implantable medical device through the inner lumen of the outer sheath and facilitates deployment of the implantable medical device from the distal end of the outer sheath. | 09-26-2013 |
20130338787 | SYSTEMS AND METHODS FOR DEPLOYING A PORTION OF A STENT USING AT LEAST ONE COILED MEMBER - The present embodiments provide systems and methods for deploying at least a portion of a stent. In one embodiment, the system comprises a cannula having an outer surface, and at least one coiled member having proximal and distal ends and a plurality of turns disposed therebetween. One of the proximal and distal ends of the coiled member is secured to the outer surface of the cannula, and the other of the proximal and distal ends of the coiled member is unsecured relative to the outer surface of the cannula. A portion of a stent is looped around the unsecured end of the coiled member and disposed within spacing between adjacent turns of the coiled member. Rotation of the cannula subsequently causes the portion of the stent to disengage from the coiled member. | 12-19-2013 |
20130338788 | SYSTEMS AND METHODS FOR DEPLOYING A PORTION OF A STENT USING AT LEAST ONE COILED MEMBER - The present embodiments provide systems and methods for deploying at least a portion of a stent. In one embodiment, the system comprises a cannula having an outer surface, and a coiled member having proximal and distal ends and a plurality of turns disposed therebetween. At least a portion of the coiled member is secured to the outer surface of the cannula. A stent is releasably secured to a portion of the coiled member. A protective cage may encircle the coiled member. | 12-19-2013 |
20130345789 | SYSTEMS AND METHODS FOR DEPLOYING A PORTION OF A STENT USING AT LEAST ONE COILED MEMBER - The present embodiments provide systems and methods for deploying at least a portion of a stent. In one embodiment, the system comprises a cannula having an outer surface, and at least one coiled member having proximal and distal ends and a plurality of turns disposed therebetween. One of the proximal and distal ends of the coiled member is secured to the outer surface of the cannula, and the other of the proximal and distal ends of the coiled member is unsecured relative to the outer surface of the cannula. A portion of a stent is looped around the unsecured end of the coiled member. Rotation of the cannula causes the portion of the stent to disengage from the coiled member. The end of the coiled member that is secured relative to the cannula is secured using at least two securing members. | 12-26-2013 |
20140039602 | BARBED ANCHORS FOR ATTACHMENT TO ENDOLUMINAL PROSTHESIS - An endoluminal prosthesis that includes a support structure having a plurality of struts and an anchor that is attachable to the support structure. The anchor includes an anchor body and one or more barbs extending outwardly from the anchor body. The anchor body includes a cannula having a first end, a second end, and a middle section. The middle section includes a plurality of open portions arranged in a plurality of arrays around the anchor body. | 02-06-2014 |
20140058402 | ENDOLUMINAL PROSTHESIS AND DELIVERY DEVICE - A system for treating a body vessel may include a delivery device and a prosthesis retained on the delivery device. The prosthesis may include a main body and first and second legs each extending from the main body. The main body may include a lumen, and the first leg may include a lumen in fluid communication with the lumen of the main body. The second leg may include a tubular graft body and a stent attached to the graft body. The prosthesis may have a predeployment configuration in which the graft body of the second leg is inverted into and positioned within the lumen of the first leg, and the stent is positioned outside of the inverted graft body. The prosthesis may have a deployed configuration in which the second leg extends outward from the main body, and the stent is positioned within a lumen of the graft body. | 02-27-2014 |
20140180384 | SYSTEMS AND METHODS FOR DEPLOYING A PORTION OF A STENT USING AN AUGER-STYLE DEVICE - The present embodiments provide systems and methods for deploying at least a portion of a stent. In one embodiment, the system comprises a cannula having an outer surface, and an auger having a plurality of turns coupled to the outer surface of the cannula. A stent has a portion dimensioned to be disposed within a valley of the auger. Rotation of the cannula and the auger advances the portion of the stent in a predetermined longitudinal direction. | 06-26-2014 |
20140180390 | STENT DESIGNS FOR REDUCED INFOLDING OF GRAFT MATERIAL - A stent-graft comprises a substantially tubular graft material, and a stent coupled to the graft material. The stent has proximal and distal ends and further has compressed and deployed states. The proximal end is disposed proximally beyond a proximal edge of the graft material, and the distal end has at least one portion overlapping with the proximal edge of the graft material. In one example, the stent comprises at least one distal apex having a bifurcation extending into first and second leg regions. A distal end of the first leg region is positioned to overlap the graft material at a location circumferentially spaced apart from a location at which a distal end of the second leg region overlaps the graft material in the deployed state. | 06-26-2014 |
20140188207 | ENDOLUMINAL PROSTHESIS - An endoluminal prosthesis may include a tubular main body and a branch. The main body may include proximal and distal end openings, a lumen, a sidewall, and a fenestration in the sidewall. The branch may include a tubular retrograde branch segment, a tubular antegrade branch segment, and a tubular branch junction. The retrograde branch segment may include an inlet opening fluidly coupled to the fenestration of the main body and an outlet opening fluidly coupled to the branch junction and positioned longitudinally between the proximal end opening and the fenestration of the main body. The antegrade branch segment may include an inlet opening fluidly coupled to the branch junction and an outlet opening positioned longitudinally distal of the inlet opening of the antegrade branch segment. The retrograde branch segment and the antegrade branch segment may be in fluid communication with one another through the branch junction. | 07-03-2014 |
20140188212 | ENDOLUMINAL PROSTHESIS WITH FIBER MATRIX - An expandable endoluminal prosthesis may include a graft body and a support structure attached to the graft body. The graft body may include a tubular body of nonwoven electrospun fibers disposed about a longitudinal axis. A first fiber matrix segment may be attached to and extend in a transverse direction along the tubular body. A second fiber matrix segment may be attached to and extend in a longitudinal direction along the tubular body. | 07-03-2014 |
20140194743 | RECIPROCATING ULTRASOUND DEVICE - A device for internal ultrasound procedures includes a motor which rotates a drive shaft and an ultrasound transducer. A gearing assembly provides reciprocating rotational motion from a unidirectional motor. A cam assembly provides reciprocating pivotal motion to the transducer. Conductors can attach to the transducer and extend through the drive shaft. | 07-10-2014 |
20140194744 | ULTRASOUND TRANSDUCER DIRECTION CONTROL - Disclosed are embodiments of devices and methods for imaging the inside of a body part, such as a blood vessel. In particular embodiments, a catheter has a chamber within which is a transducer mounted to a pivot mechanism, a motor for turning the transducer, and a coil for providing a pivot force to the transducer. A magnet is attached to the transducer and is receptive of a torque applied by a magnetic field produced by energizing of the coil. | 07-10-2014 |
20140213907 | 3D CATHETER-BASED ULTRASOUND ASSEMBLY WITH GIMBAL-MOUNT TRANSDUCER AND SINGLE-COIL DRIVE - Described are embodiments of devices and methods for imaging a body conduit, such as a blood vessel. In particular embodiments, the catheter has a chamber within which is a transducer mounted to a pivot mechanism. A coil provides a pivot force to the transducer. A magnet is attached to the transducer and is receptive of a torque applied by a magnetic field produced by energizing of the coil. A driving mechanism receives an impact from the pivot member and causes the pivot mechanism to rotate about a rotation axis. | 07-31-2014 |
20140243843 | RAPID EXPANSION BALLOON CATHETER - A balloon catheter assembly including a catheter, a sleeve, and a balloon. The catheter has a body, an exterior surface, a lumen, a port providing fluid communication between the lumen and the exterior surface, and a coupling mechanism to couple the lumen to an inflation source. The sleeve has an interior surface facing the exterior surface, the sleeve being coaxial with the catheter and configured to move longitudinally about the catheter. The balloon is disposed about the catheter and has a middle segment covering the port, a distal segment coupled to the sleeve, and a proximal segment coupled to the catheter. The middle segment has a middle longitudinal stiffness, the distal segment has a distal longitudinal stiffness, and the proximal segment has a proximal longitudinal stiffness. The middle longitudinal stiffness is greater than the proximal longitudinal stiffness and the middle longitudinal stiffness is greater than the distal longitudinal stiffness. | 08-28-2014 |
20140277335 | PROSTHESIS HAVING AN EVERTING PIVOTING FENESTRATION - The present disclosure relates to an endoluminal prosthesis, such as a stent graft that includes one or more fenestrations to accommodate endovascular disease, such as an aneurysm in cases where one or more side branches is involved. In one aspect, the prosthesis includes fenestrations that are pivotable to accommodate the dynamic geometry of the aortic branches. In another aspect, the pivotable fenestrations include a first perimeter, a band of flexible material attached and surrounding the first perimeter, a second perimeter attached to and surrounding the band of flexible material and a support frame disposed about a surface of the band of flexible material. The first perimeter, band of flexible material, and second perimeter have a geometric shape. The support frame includes a plurality of support units having curved segments. The curved segments of the support units may be concave with respect to an exterior surface of the prosthesis. | 09-18-2014 |
20140277341 | WIRELESS MEDICAL DEVICE RELEASE MECHANISM - A wireless medical device release system may reduce the overall diameter of the medical device delivery system. The medical device delivery system may include a medical device with a looped portion at a section of the medical device. A capture element may be located on a delivery tool that is distal to the medical device. The looped portion of the medical device may be located in the capture element and held in the capture element by a sheath covering the delivery tool. Removal of the sheath may release the looped portion of the medical device from the capture element and delivery tool. | 09-18-2014 |
20140277345 | PROSTHESIS DELIVERY DEVICE - A prosthesis delivery device comprises a proximal end and a distal end, a prosthesis retention section at the proximal end, and a prosthesis retained on the prosthesis retention section. The prosthesis has a proximal end releasably attached at the prosthesis retention section and a distal end releasably attached at the prosthesis retention section. A sheath is slidably disposed over the prosthesis. A delivery handle near the distal end the delivery device comprises a rotatable inner cannula having a cannula lumen and cannula handle. The cannula handle is rotatable with the inner cannula. Further, a positioner handle is releasably engaged with the cannula handle. Rotation of the inner cannula releases the proximal end of the prosthesis from the delivery device and withdrawal of the sheath from over the prosthesis releases the distal end of the prosthesis from the delivery device. | 09-18-2014 |