Patent application number | Description | Published |
20100168778 | DEVICES FOR TRANSCATHETER PROSTHETIC HEART VALVE IMPLANTATION AND ACCESS CLOSURE - Apparatus for use in conjunction with implanting a collapsible and re-expandable prosthetic heart valve in a patient by means that are less invasive than traditional open-chest, open-heart surgery. The apparatus may include a one-way valve for preventing blood from escaping from the patient's circulatory system when that system is entered in order to get the prosthetic heart valve into that system. The apparatus may include various forms of cutters for gaining access to the patient's circulatory system. The apparatus may include various forms of devices for quickly closing the access to the patient's circulatory system after the prosthetic heart valve has been implanted. | 07-01-2010 |
20100168839 | PROSTHETIC HEART VALVES - A prosthetic heart valve ( | 07-01-2010 |
20100185277 | COLLAPSIBLE PROSTHETIC HEART VALVES - Prosthetic heart valves, which are collapsible to a relatively small circumferential size for less invasive delivery into a patient and which then re-expand to operating size at an implant site in the patient, include a collapsible/expandable stent-like supporting structure and various components of flexible, sheet-like material that are attached to the supporting structure. For example, these sheet-like other components may include prosthetic valve leaflets, layers of buffering material, cuff material, etc. Improved structures and techniques are provided for securing such other components to the stent-like supporting structure of the valve. | 07-22-2010 |
20110098800 | AXIALLY ANCHORING COLLAPSIBLE AND RE-EXPANDABLE PROSTHETIC HEART VALVES FOR VARIOUS DISEASE STATES | 04-28-2011 |
20110098802 | COLLAPSIBLE AND RE-EXPANDABLE PROSTHETIC HEART VALVE CUFF DESIGNS AND COMPLEMENTARY TECHNOLOGICAL APPLICATIONS - A prosthetic heart valve is provided with a cuff ( | 04-28-2011 |
20120078347 | STENT FEATURES FOR COLLAPSIBLE PROSTHETIC HEART VALVES - A prosthetic heart valve includes a stent having an expanded condition and a collapsed condition. The stent includes a plurality of distal cells, a plurality of proximal cells, a plurality of support struts coupling the proximal cells to the distal cells, and at least one support post connected to a plurality of proximal cells. The proximal cells are longitudinally spaced apart from the distal cells. Various strut configurations and connections of the struts to the proximal cells and of the proximal cells to the support post improve stent flexibility and reduce stress in the valve leaflets. | 03-29-2012 |
20140236292 | Transcatheter Valve Stent Anchors - A stent for use in a prosthetic heart valve has a plurality of expandable and collapsible closed cells, a portion of which form an annulus section adapted for placement within the annulus of the native heart valve. Anchor features of the stent residing within at least some closed cells are adapted to engage tissue of the heart, including native valve leaflets, the sinotubular junction, or another implanted device when the prosthetic valve is implanted in the heart. The anchor features may help to retain the prosthetic valve in position, without interfering with the opening and closing of the valve leaflets. Furthermore, the anchor features may be configured to allow the stent to be resheathed into a delivery device after the portion of the stent with the anchor feature has expanded out of the delivery device. | 08-21-2014 |
20140277389 | RADIOPAQUE TRANSCATHETER VALVE AND ANATOMICAL MARKERS - A prosthetic valve assembly for implantation in a patient's circulatory system includes a stent, a valve member coupled to the stent and defining a preferred landing zone relative to anatomical structures in the patient's circulatory system, and at least one marker positioned in a predetermined relationship relative to the landing zone of the valve member, the marker being visually distinguishable from the stent using an imaging technique. By observing the marker, the prosthetic valve assembly may be implanted in the patient so that certain ones of the anatomical structures lie within the landing zone. | 09-18-2014 |
20150073545 | STENT DESIGNS FOR PROSTHETIC HEART VALVES - A prosthetic heart valve includes a collapsible and expandable stent, a cuff attached to an annulus section of the stent, and leaflets attached to the cuff between a first location and a second location distal to the first location in a flow direction. The stent may include struts shaped to form a plurality of cells connected to one another in annular rows around the stent. The cuff may have top and bottom edges and may occupy a first group of the cells, such that cells above the top edge are open cells at least partially devoid of the cuff. The cuff may have a landing zone extending at least one-third of a length of the stent in the flow direction between the bottom edge of the cuff and a proximal end of a most proximal cell of the open cells when the stent is in an expanded use condition. | 03-12-2015 |
20150073546 | PROSTHETIC HEART VALVES - A prosthetic heart valve (e.g., a prosthetic aortic valve) is designed to be somewhat circumferentially collapsible and then re-expandable. The collapsed condition may be used for less invasive delivery of the valve into a patient. When the valve reaches the implant site in the patient, it re-expands to normal operating size, and also to engage surrounding tissue of the patient. The valve includes a stent portion and a ring portion that is substantially concentric with the stent portion but downstream from the stent portion in the direction of blood flow through the implanted valve. When the valve is implanted, the stent portion engages the patient's tissue at or near the native valve annulus, while the ring portion engages tissue downstream from the native valve site (e.g., the aorta). | 03-12-2015 |
Patent application number | Description | Published |
20100160832 | APPARATUS AND METHOD FOR MEASURING BLOOD VESSELS - An apparatus comprising a blood vessel measuring device is disclosed. The blood vessel measuring device may comprise a handle. A measuring member may be attached to the handle. The measuring member may be dimensioned to wrap around a blood vessel to measure a size of the blood vessel. The blood vessel measuring device may comprise an extension, and a first end of the extension may be attached to the handle. The blood vessel measuring device may comprise a connector attached to a second end of the extension. A method is also disclosed. The method may comprise inserting a measuring device into an incision in a patient. The measuring device may comprise a measuring member. The method may also comprise wrapping the measuring member around a blood vessel of the patient and measuring a dimension of the blood vessel with the measuring member. | 06-24-2010 |
20100160847 | SYSTEMS, APPARATUSES, AND METHODS FOR CARDIOVASCULAR CONDUITS AND CONNECTORS - A cardiovascular conduit system may comprise a connector. The connector may comprise a proximal end adapted to attach to a cardiovascular organ. The proximal end may comprise a first plurality of expandable members, and each member in the first plurality of expandable members may be deployable from a delivery position to a deployed position. The first plurality of expandable members may be dimensioned to deploy inside the cardiovascular organ to secure the connector to the cardiovascular organ. The connector may comprise a distal end adapted to attach to a conduit and an opening extending through the connector. Connectors for cardiovascular conduit systems may also include expandable stents. Connectors may be rotateably secured to a conduit, and the conduit may be reinforced. Methods for forming and using cardiovascular conduit systems are also disclosed. | 06-24-2010 |
20100160939 | SYSTEMS, APPARATUSES, AND METHODS FOR CARDIOVASCULAR CUTTING DEVICES AND VALVES - A system comprising a tube with a first end dimension to be positioned against a cardiovascular organ. The system may comprise a cutting member adapted to cut an opening in the cardiovascular organ. The system may also comprise a first valve positioned inside the tube. The first valve may be adapted to open to allow the cutting member to pass through the first valve to the cardiovascular organ. The first valve may be adapted to close after the cardiovascular coring device is retracted through the first valve. A cardiovascular coring apparatus is also disclosed. The cardiovascular coring apparatus may comprise a cutting member, a tissue retraction member, and a valve positioned inside the cutting member. A method for inserting a cutting member through a valve is disclosed. A method for inserting a tissue retraction member through a valve in a cutting member is also disclosed. | 06-24-2010 |
20100161040 | CARDIOVASCULAR VALVE AND VALVE HOUSING APPARATUSES AND SYSTEMS - A cardiovascular valve assembly is disclosed including a housing assembly comprising a first portion and a second portion removably attached to the first portion. A valve may be positioned within the housing assembly. The valve, which may be a mechanical valve, a biological tissue valve, or a polymeric valve, may be structured to allow fluid to flow through the housing assembly in a single direction. In certain embodiments, the valve assembly may further include at least one coupling structure provided on the second portion and at least one aperture defined in the first portion, with the aperture structured to receive the coupling structure to couple the first portion to the second portion. Corresponding systems incorporating cardiovascular valve assemblies are also disclosed. | 06-24-2010 |
Patent application number | Description | Published |
20140296966 | STENT FEATURES FOR COLLAPSIBLE PROSTHETIC HEART VALVES - A prosthetic heart valve includes a stent having an expanded condition and a collapsed condition. The stent includes a plurality of distal cells, a plurality of proximal cells, a plurality of support struts coupling the proximal cells to the distal cells, and at least one support post connected to a plurality of proximal cells. The proximal cells are longitudinally spaced apart from the distal cells. Various strut configurations and connections of the struts to the proximal cells and of the proximal cells to the support post improve stent flexibility and reduce stress in the valve leaflets. | 10-02-2014 |
20140350663 | COLLAPSIBLE AND RE-EXPANDABLE PROSTHETIC HEART VALVE CUFF DESIGNS AND COMPLEMENTARY TECHNOLOGICAL APPLICATIONS - A prosthetic heart valve is provided with a cuff having features which promote sealing with the native tissues even where the native tissues are irregular. The cuff may include a portion adapted to bear on the LVOT when the valve is implanted in a native aortic valve. The valve may include elements for biasing the cuff outwardly with respect to the stent body when the stent body is in an expanded condition. The cuff may have portions of different thickness distributed around the circumference of the valve in a pattern matching the shape of the opening defined by the native tissue. All or part of the cuff may be movable relative to the stent during implantation. | 11-27-2014 |
20140350665 | COLLAPSIBLE AND RE-EXPANDABLE PROSTHETIC HEART VALVE CUFF DESIGNS AND COMPLEMENTARY TECHNOLOGICAL APPLICATIONS - A prosthetic heart valve is provided with a cuff having features which promote sealing with the native tissues even where the native tissues are irregular. The cuff may include a portion adapted to bear on the LVOT when the valve is implanted in a native aortic valve. The valve may include elements for biasing the cuff outwardly with respect to the stent body when the stent body is in an expanded condition. The cuff may have portions of different thickness distributed around the circumference of the valve in a pattern matching the shape of the opening defined by the native tissue. All or part of the cuff may be movable relative to the stent during implantation. | 11-27-2014 |
20140350667 | COLLAPSIBLE AND RE-EXPANDABLE PROSTHETIC HEART VALVE CUFF DESIGNS AND COMPLEMENTARY TECHNOLOGICAL APPLICATIONS - A prosthetic heart valve is provided with a cuff having features which promote sealing with the native tissues even where the native tissues are irregular. The cuff may include a portion adapted to bear on the LVOT when the valve is implanted in a native aortic valve. The valve may include elements for biasing the cuff outwardly with respect to the stent body when the stent body is in an expanded condition. The cuff may have portions of different thickness distributed around the circumference of the valve in a pattern matching the shape of the opening defined by the native tissue. All or part of the cuff may be movable relative to the stent during implantation. | 11-27-2014 |
20150066136 | Anchoring Studs for Transcatheter Valve Implantation - An anchoring device for use within a vascular structure includes a head having a first surface and a second surface meeting at a common plane, and an anchor including a shaft having a longitudinal axis, a first end connected at a junction to the first surface of the head, and a free end. A harbor space is bounded by the shaft of the anchor, the first surface of the head, a first theoretical plane perpendicular to the longitudinal axis at a spaced distance from the junction and a second theoretical plane tangential to the head at a point in the common plane. The harbor space has an are sufficient to receive a portion of a stented device therein. | 03-05-2015 |
20150066141 | COMMISSURE ATTACHMENT FEATURES FOR IMPROVED DELIVERY FLEXIBILITY AND TRACKING - A prosthetic heart valve includes a collapsible and expandable stent having a proximal end and a distal end. A plurality of commissure attachment features (“CAFs”) is disposed on the stent, with each CAF including a body and a plurality of eyelets. The eyelets may be arranged in a single column or in a plurality of rows and columns. The prosthetic heart valve also includes a collapsible and expandable valve assembly including a plurality of leaflets connected to the plurality of commissure attachment features. The bodies of the CAFs may include a number of other features including, for example, a slot extending between columns of eyelets. | 03-05-2015 |