Medtronic Corevalve LLC Patent applications |
Patent application number | Title | Published |
20140214155 | Methods For Deployment Of Medical Devices - Methods for delivering a medical device loaded onto a catheter include positioning a first tube relative to a second concentric tube such that sheathing material having a first end affixed to the first tube and a second end affixed to the second tube forms an inner layer and an outer layer having at least one inversion point, such that no portion of the first tube is between any portion of the inner and outer layers of the sheathing material. Upon positioning the catheter at a desired target site, the first tube can be moved relative to the second tube so that the inversion point moves to expose the medical device, thereby permitting expansion of the medical device at the target site. | 07-31-2014 |
20140214154 | Methods for delivering a self-expanding valve - Methods for delivering a prosthetic heart valve include advancing a delivery catheter containing the prosthetic heart valve to a deployment location at a native heart valve, advancing an inner core movably coupled to a restraining sheath of the delivery catheter to expose a first end of the prosthetic heart valve, and advancing the inner core and the restraining sheath to expose a second end of the prosthetic heart valve. The delivery catheter can include a distal flange located at a distal end of an outer core of the catheter body, configured to restrict distal longitudinal displacement of the prosthetic heart valve, and a retaining structure located proximally from the distal flange along the outer core of the catheter body, configured to restrict proximal longitudinal displacement of the prosthetic heart valve. | 07-31-2014 |
20140194979 | Transcatheter Heart Valves - A prosthetic heart valve comprises a collapsible and expandable support frame comprising a longitudinal axis. The frame comprises a first circumferential undulating structure defining an outflow end of the frame, and a second circumferential undulating structure spaced apart from the first circumferential undulating structure. The frame also comprises a plurality of struts longitudinally aligned with the longitudinal axis of the frame, and connecting: the first circumferential undulating structure to the second circumferential undulating structure. Each strut of the plurality of struts comprises a first end terminating at a trough of the first circumferential undulating structure, and a second end terminating at a peak of the second circumferential undulating structure. The prosthetic heat valve also comprises a biological tissue valve coupled to the frame. The prosthetic heart valve is configured to be collapsed for introduction into a patient using a catheter and to be expanded for deployment at an implantation site. | 07-10-2014 |
20140194978 | Transcatheter Heart Valves - A prosthetic heart valve comprises a biological tissue valve and a collapsible and expandable support frame comprising longitudinal axis. The frame comprises an outflow circumferential structure defining an outflow end of the frame and defining a single row of expandable cells, and a circumferential undulating strut structure spaced apart from the outflow circumferential structure. The frame also comprises three struts longitudinally aligned with the longitudinal axis, configured to facilitate mounting the biological tissue valve to the frame, and interconnecting the outflow circumferential structure to the circumferential undulating structure. Each strut comprises a first end terminating at a respective junction between two adjacent expandable cells of the outflow circumferential structure, and a second end terminating at the circumferential undulating strut structure. The prosthetic heart valve is configured to be collapsed for introduction into a patient using a catheter and to be expanded for deployment at an implantation site. | 07-10-2014 |
20140188220 | Heart Valve Assemblies - An implantable prosthetic valve assembly includes a radially expandable frame including an inflow portion and a second portion. The inflow portion is configured, in an expanded state, to bear against a native cardiac annulus in a manner so as to resist migration. The second portion extends from the inflow zone in an outflow direction, and is configured, in an expanded state, not to bear against the native cardiac annulus and an ascending aorta. The valve assembly also includes a prosthetic valve coupled to the frame substantially within the second portion. | 07-03-2014 |
20140163672 | Transcatheter Heart Valves - A prosthetic heart valve comprises a biological tissue valve and a collapsible and expandable support frame having a longitudinal axis. The frame comprises an outflow circumferential structure defining an outflow end of the frame and consisting essentially row of diamond-shaded expandable cells. The frame also comprises three V-shaped structures spaced apart from the outflow circumferential structure and three struts longitudinally aligned with the longitudinal axis of the frame. The three struts are configured to facilitate mounting the biological tissue valve to the frame and interconnect the outflow circumferential structure to the three V-shaped structures. The frame also includes three undulating structures, each of the three undulating structures interconnecting respective adjacent V-shaped structures of the three V-shaped structures. The prosthetic heart valve is configured to be collapsed for introduction into a patient using; a catheter and to be expanded for deployment at an implantation site. | 06-12-2014 |
20140121765 | Methods For Transluminal Delivery Of Prosthetic Valves - A prosthetic valve assembly for use in replacing a deficient native valve comprises a replacement valve supported on an expandable valve support. If desired, one or more anchors may be used. The valve support, which entirely supports the valve annulus, valve leaflets, and valve commissure points, is configured to be collapsible for transluminal delivery and expandable to contact the anatomical annulus of the native valve when the assembly is properly positioned. Portions of the valve support may expand to a preset diameter to maintain coaptivity of the replacement valve and to prevent occlusion of the coronary ostia. A radial restraint, comprising a wire, thread or cuff, may be used to ensure expansion does not exceed the preset diameter. The valve support may optionally comprise a drug elution component. The anchor engages the lumen wall when expanded and prevents substantial migration of the valve assembly when positioned in place. The prosthetic valve assembly is compressible about a catheter, and restrained from expanding by an outer sheath. The catheter may be inserted inside a lumen within the body, such as the femoral artery, and delivered to a desired location, such as the heart. A blood pump may be inserted into the catheter to ensure continued blood flow across the implantation site during implantation procedure. When the outer sheath is retracted, the prosthetic valve assembly expands to an expanded position such that the valve and valve support expand at the implantation site and the anchor engages the lumen wall. Insertion of the catheter may optionally be performed over a transseptally delivered guidewire that has been externalized through the arterial vasculature. Such a guidewire provide dual venous and arterial access to the implantation site and allows additional manipulation of the implantation site after arterial implantation of the prosthetic valve. Additional expansion stents may be delivered by venous access to the valve. | 05-01-2014 |
20140100653 | Stents For Prosthetic Heart Valves - A stented valve including a stent structure having a generally tubular body portion, an interior area, a longitudinal axis, an first end, an second end, and an outer surface; at least one outflow barb extending from the outer surface of the stent adjacent to the first end of the stent structure and toward the second end of the stent structure; at least one inflow barb extending from the outer surface of the stent adjacent to the second end of the stent structure and toward the first end of the stent structure; and a valve structure attached within the interior area of the stent structure. | 04-10-2014 |
20140088693 | Methods for Treating a Heart Valve, in Particular a Mitral Valve - An apparatus for treating a heart valve apparatus includes at least two anchoring elements designed to be anchored at the annulus and/or heart wall of the valve to be treated. Each anchoring element has a support surface. At least one linking element includes a central branch and two curved side branches, one of which is designed to be engaged on the support surface of an anchoring element, while the other is designed to be engaged on the support surface of another anchoring element, the linking element then being designed to be pivoted to a position such that the anchoring elements interconnect and in which the ends of the central branch are located in the vicinity of the support surfaces. | 03-27-2014 |
20140005774 | Prosthetic Valve For Transluminal Delivery | 01-02-2014 |
20130035758 | Apparatus for Treating a Heart Valve, In Particular a Mitral Valve - An apparatus for treating a heart valve apparatus includes at least two anchoring elements designed to be anchored at the annulus and/or heart wall of the valve to be treated. Each anchoring element has a support surface. At least one linking element includes a central branch and two curved side branches, one of which is designed to be engaged on the support surface of an anchoring element, while the other is designed to be engaged on the support surface of another anchoring element, the linking element then being designed to be pivoted to a position such that the anchoring elements interconnect and in which the ends of the central branch are located in the vicinity of the support surfaces. | 02-07-2013 |
20120143316 | Prosthetic Valve for Transluminal Delivery - A prosthetic valve comprises a valve assembly having a base, a plurality of leaflets, and commissures. The valve also comprises a support stent having a plurality of expandable cells and a plurality of longitudinal struts. The support stent is configured to be collapsible for transluminal delivery and expandable to contact the anatomical annulus of the native valve when the prosthetic valve is positioned in situ. The support stent supports the base. The commissures of the valve assembly are secured at the longitudinal struts and adjacent one or more of the expandable cells. The longitudinal struts of the support stent further comprise a plurality of holes, and the plurality of leaflets are secured to the longitudinal struts via threads passing through the plurality of holes. | 06-07-2012 |
20120083878 | Prosthetic Valve For Transluminal Delivery - A prosthetic valve assembly for use in replacing a deficient native valve comprises a replacement valve supported on an expandable valve support. If desired, one or more anchors may be used. The valve support, which entirely supports the valve annulus, valve leaflets, and valve commissure points, is configured to be collapsible for transluminal delivery and expandable to contact the anatomical annulus of the native valve when the assembly is properly positioned. Portions of the valve support may expand to a preset diameter to maintain coaptivity of the replacement valve and to prevent occlusion of the coronary ostia. A radial restraint, comprising a wire, thread or cuff, may be used to ensure expansion does not exceed the preset diameter. | 04-05-2012 |
20110301692 | Assembly for Placing a Prosthetic Valve in a Duct in the Body - A prosthetic valve assembly can include a radially expandable stent. The stent can includea first expandable annular portion that is configured, in an expanded state, to bear against a wall of a native body lumen, a second expandable annular portion that is configured, in an expanded state, to bear against a wall of a native body lumen. The stent can also include a plurality of rods extending between the first annular portion and the second annular portion. The prosthetic valve assembly can further include an implantable prosthetic valve mounted to the stent such that the valve is between the first annular portion and the second annular portion. The prosthetic valve assembly is configured to be delivered by catheterization. | 12-08-2011 |
20110213461 | Prosthetic Valve for Transluminal Delivery - A prosthetic valve assembly for use in replacing a deficient native valve comprises a replacement valve supported on an expandable valve support. If desired, one or more anchor may be used. The valve support, which entirely supports the valve annulus, valve leaflets, and valve commissure points, is configured to be collapsible for transluminal delivery and expandable to contact the anatomical annulus of the native valve when the assembly is properly positioned. The anchor engages the lumen wall when expanded and prevents substantial migration of the valve assembly when positioned in place. The prosthetic valve assembly is compressible about a catheter, and restrained from expanding by an outer sheath. The catheter may be inserted inside a lumen within the body, such as the femoral artery, and delivered to a desired location, such as the heart. When the outer sheath is retracted, the prosthetic valve assembly expands to an expanded position such that the valve and valve support expand within the deficient native valve, and the anchor engages the lumen wall. | 09-01-2011 |
20110172765 | Heart Valve Prosthesis and Methods of Manufacture and Use - A heart valve prosthesis is provided having a self-expanding multi-level frame that supports a valve body comprising a skirt and plurality of coapting leaflets. The frame transitions between a contracted delivery configuration that enables percutaneous transluminal delivery, and an expanded deployed configuration having an asymmetric hourglass shape. The valve body skirt and leaflets are constructed so that the center of coaptation may be selected to reduce horizontal forces applied to the commissures of the valve, and to efficiently distribute and transmit forces along the leaflets and to the frame. Alternatively, the valve body may be used as a surgically implantable replacement valve prosthesis. | 07-14-2011 |
20110125257 | Prosthetic Valve For Transluminal Delivery - A prosthetic valve assembly for use in replacing a deficient native valve comprises a replacement valve supported on an expandable valve support. If desired, one or more anchor may be used. The valve support, which entirely supports the valve annulus, valve leaflets, and valve commissure points, is configured to be collapsible for transluminal delivery and expandable to contact the anatomical annulus of the native valve when the assembly is properly positioned. The anchor engages the lumen wall when expanded and prevents substantial migration of the valve assembly when positioned in place. The prosthetic valve assembly is compressible about a catheter, and restrained from expanding by an outer sheath. The catheter may be inserted inside a lumen within the body, such as the femoral artery, and delivered to a desired location, such as the heart. When the outer sheath is retracted, the prosthetic valve assembly expands to an expanded position such that the valve and valve support expand within the deficient native valve, and the anchor engages the lumen wall. | 05-26-2011 |
20100292785 | IMPLANT FOR TREATMENT OF A HEART VALVE, IN PARTICULAR A MITRAL VALVE, MATERIAL INCLUDING SUCH AN IMPLANT, AND MATERIAL FOR INSERTION THEREOF - This implant ( | 11-18-2010 |
20100036485 | Assembly For Placing A Prosthetic Valve In A Duct In The Body - The present invention is an assembly comprising a prosthetic valve to be implanted; a radially expandable stent comprising at least one zone intended to be expanded to allow the stent, in the expanded state, to bear against the wall of the body duct to be fitted with the valve, this bearing making it possible to immobilize this stent with respect to this wall; and means for mounting the valve with respect to the stent, making it possible to connect the valve to the stent in such a way that the placement of the stent allows the valve to be mounted in the body duct, and expansion means such as a balloon catheter being provided to trigger expansion of the stent at the implantation site. According to the invention, the valve and the stent are designed in such a way that, at the moment when the stent is expanded, the valve is situated outside the zone or zones of the stent that are subjected to said expansion means. The invention thus consists in separating the valve and said zone or zones to be expanded, so that the expansion of the stent can be effected with an expansion force suitable for perfect anchoring of this stent in the wall of the body duct to be fitted with the valve, and without any risk of destruction or damage of the valve. | 02-11-2010 |