Entries |
Document | Title | Date |
20080208332 | Valve Prosthesis Systems and Methods - Valve prostheses are disclosed that are adapted for secure and aligned placement relative to a heart annulus. The valve prostheses may be placed in a non-invasive manner, e.g., via trans-catheter techniques, and may be positioned/repositioned until proper alignment and positioning is achieved. The valve prosthesis may include a resilient ring, a plurality of leaflet membranes mounted with respect to the resilient ring, and a plurality of positioning elements movably mounted with respect to the flexible ring, each of the positioning elements defining a first tissue engaging region and a second tissue engaging region spaced from the first tissue engaging region. The positioning elements are adapted to substantially completely invert by rotating relative to the resilient ring between a first position in which each of the first and second tissue engaging regions is inwardly directed for facilitating positioning of the valve prosthesis within a delivery catheter, and a second position in which each of the first and second tissue engaging regions is outwardly directed for engaging tissue. The valve prosthesis may also include a valve skirt mounted with respect to the resilient ring. | 08-28-2008 |
20090112311 | MEDICAL DEVICE FOR PERCUTANEOUS PARAVALVULAR LEAK AND RELATED SYSTEMS AND METHODS - The present invention provides devices, systems and methods for closing a paravalvular leak. In accordance with one embodiment, a medical device includes at least one multicellular frame member configured to be implanted at a paravalvular leak. The medical device further includes at least one tissue in-growth member associated with the frame member, the tissue in-growth member being configured to promote tissue growth and permanently maintain the frame member at the leak. The frame member may be self expanding device formed, for example, of a shape-memory alloy. The tissue in-growth member may be formed from a polymer material. In one particular embodiment, the frame member may be a substantially tubular structure and the tissue in-growth member may be disposed within an interior space defined by the tubular structure. In another embodiment, the frame ember may be a substantially flat or planar structure. | 04-30-2009 |
20090132037 | Valve Frame - The disclosure relates to support frames for prosthetic implantable valves. The support frames may include a plurality of symmetrically arrayed interconnected U-shaped member structures. Preferred support frames are tubular structures enclosing a longitudinal axis and including a plurality of U-shaped member structures facing a distal or a proximal end of the support frame. Each U-shaped member structure may be connected to a single longitudinally adjacent U-shaped member facing in an opposite longitudinal direction, as well as two laterally adjacent U-shaped members. | 05-21-2009 |
20090210052 | PROSTHETIC HEART VALVES, SUPPORT STRUCTURES AND SYSTEMS AND METHODS FOR IMPLANTING SAME - Described herein are systems and methods for operation of a prosthetic valve support structure ( | 08-20-2009 |
20090222084 | SUTURELESS HEART VALVE ATTACHMENT - A prosthetic heart valve having spaced apart anchoring flanges that change shape when the valve is implanted and contact the surrounding annulus to prevent migration of the valve. The heart valve may be non-expandable and the anchoring flanges may provide the primary anchoring structure of the valve. Alternatively, the valve may be expandable wherein the anchoring flanges supplement the inherent anchoring capacity of the valve structure. The anchoring flanges are at least partly made of a material that increases in size, i.e., swells, due to absorption of body fluids. For instance, the anchoring flanges may be formed of an inner material that swells upon contact with body fluids enclosed by a cover. The anchoring flanges may be provided on an anchoring sleeve that changes shape to provide the spaced apart annular flanges for securing the valve around a fibrous annulus. An anchoring sleeve for a prosthetic heart valve having an expandable frame surrounds a majority of the frame and may define an external hourglass configuration. | 09-03-2009 |
20090264997 | Everting Heart Valve - The present invention provides methods and apparatus for endovascularly replacing a patient's heart valve. The apparatus includes a replacement valve and an expandable anchor configured for endovascular delivery to a vicinity of the patient's heart valve. In some embodiments, the replacement valve is adapted to wrap about the anchor, for example, by everting during endovascular deployment. In some embodiments, the replacement valve is not connected to expandable portions of the anchor. In some embodiments, the anchor is configured for active foreshortening during endovascular deployment. In some embodiments, the anchor includes expandable lip and skirt regions for engaging the patient's heart valve during deployment. In some embodiments, the anchor comprises a braid fabricated from a single strand of wire. In some embodiments, the apparatus includes a lock configured to maintain anchor expansion. The invention also includes methods for endovascularly replacing a patient's heart valve. In some embodiments, the method includes the steps of endovascularly delivering a replacement valve and an expandable anchor to a vicinity of the heart valve, wrapping at least a portion of the replacement valve about the anchor, and expanding the anchor to a deployed configuration. | 10-22-2009 |
20100070029 | HEART VALVE ASSEMBLIES AND METHODS FOR USING THEM - A heart valve assembly includes a base including a multi-lobular annular shape within a plane, a valve member or other annular body including a multi-lobular shape complementary to the shape of the base, and cooperating connectors on the base and the annular body for connecting the annular body to the base. The base includes an anchoring ring, and a flexible cuff for attaching the base to a biological annulus. The base and the annular body include guides for aligning their multi-lobular shapes, e.g., visual, tactile, or other markers, or tethers that extend from the base that are slidable through the annular body. During use, the base is attached to a biological annulus, the annular body is directed adjacent the annulus, oriented such that the multi-lobular shape of the annular body valve member is aligned with the base, and the annular body is attached to the base. | 03-18-2010 |
20100100176 | ANCHORING STRUCTURE WITH CONCAVE LANDING ZONE - A method and device for reducing paravalvular leakage upon implantation of a replacement heart valve is provided. The valve assembly includes a tissue or bioprosthetic heart valve attached to an anchoring structure. The anchoring structure includes an inlet rim that is substantially C-shaped in cross section to form a concave landing zone. The anchoring structure self-seats when implanted in the sinus of a patient with the proximal and distal ends of the C-shaped inlet rim pushed against the aorta to effectively prevent paravalvular leakage. | 04-22-2010 |
20100185279 | SURGICAL FASTENING DEVICE - Apparatus for the affixing of prosthetic, mechanical devices to body tissue. Often referred to as a “surgical attachment ring.” At least a portion of the outside edge of said ring is substantially of a non-convex profile. The application may also characterised by the feature of pre-attached or pre-loaded sutures or by the presence of one or more suture—receiving passageways in the body of the ring. | 07-22-2010 |
20110125258 | CARDIAC VALVE PROSTHESIS SYSTEM - The present invention concerns a cardiac valve prosthesis system ( | 05-26-2011 |
20110137411 | HEART VALVE ANNULUS DEVICE AND METHOD UF USING SAME - A heart valve implant has a body sized and configured to rest near or within a heart valve annulus. A plurality of spaced-apart retainers extend outwardly from the body to contact tissue near or within the heart valve annulus. The retainers are sized and configured to secure the body to the heart valve annulus. The implant can be secured, e.g., without the use of sutures. | 06-09-2011 |
20110301705 | Cardiac Valve, System, and Method - A cardiac valve with a support frame having a first end member and a second end member opposing the first end member in a substantially fixed distance relationship, and a cover extending over the support frame to allow for unidirectional flow of a liquid through the valve. | 12-08-2011 |
20120041551 | PROSTHETIC VALVE FOR CATHETER DELIVERY - A prosthetic valve for catheter delivery is disclosed. The prosthetic valve comprises a valve assembly having an inlet, a plurality of leaflets and commissural points. The prosthetic valve also includes a support stent comprising a web-like construction and plurality of longitudinal support beams. The support stent is configured to be collapsible for percutaneous delivery through a blood vessel and expandable to contact the the native valve. The support stent supports the inlet of the valve assembly and the commissural points of the valve assembly are secured at the longitudinal support beams. The longitudinal support beams comprise a plurality of bores and the leaflets are secured to the longitudinal support beams via threads passing through the plurality of bores. | 02-16-2012 |
20120209380 | INTRA-ANNULAR MOUNTING FRAME FOR AORTIC VALVE REPAIR - An intra-annular mounting frame for an aortic valve having native aortic cusps is provided which includes a frame body with native leaflet reorienting curvatures and interconnecting points; the curvatures shaped to be received inside the valve below the native aortic cusps and to reorient the native aortic cusps within the aortic valve, where each of the curvatures extends concavely upward from a reference latitudinal plane tangential to each curvature's base. | 08-16-2012 |
20120310336 | Device For The Implantation And Fixation Of Prosthetic Valves - A device for the transvascular implantation and fixation of prosthetic heart valves having a self-expanding heart valve stent ( | 12-06-2012 |
20120330413 | Biomedical Valve Devices, Support Frames for Use in Such Devices, and Related Methods - Biomedical valve devices, support frames for use in such devices, methods of making such devices, and methods of treating animals, including humans, for valve-related conditions are described. The biomedical valve devices can includes a native tissue valve attached to a support frame or a tissue attached to a support frame in a manner to form a valve. The tissue valve or tissue can be autogenous to the animal being treated. | 12-27-2012 |
20130023985 | DEVICE, SYSTEM, AND METHOD FOR TRANSCATHETER TREATMENT OF VALVE REGURGITATION - The invention relates to a device for use in the transcatheter treatment of mitral valve regurgitation, specifically a coaptation enhancement element for implantation across the valve; a system including the coaptation enhancement element and anchors for implantation; a system including the coaptation enhancement element, catheter and driver; and a method for transcatheter implantation of a coaptation element across a heart valve. | 01-24-2013 |
20130035759 | TECHNIQUES FOR PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus is described for use with a native heart valve of a subject, the apparatus including (1) a prosthetic valve support, comprising an upstream support portion, the upstream support portion having (a) a compressed configuration and an uncompressed configuration in which the upstream support portion has an inner perimeter that defines an opening; and (2) a prosthetic valve, advanceable into the opening defined by the upstream support portion, and intracorporeally couplable to the upstream support portion by being expanded within the opening defined by the upstream support portion, the apparatus being configured such that, when the prosthetic valve is expanded within the opening defined by the upstream support portion, the expansion of the prosthetic valve is restricted by the inner perimeter of the upstream support portion, without causing the prosthetic valve support to apply a radially-expansive force to the native annulus. Other embodiments are also described. | 02-07-2013 |
20130090729 | PROFILE REDUCTION SEAL - The disclosure pertains to profile reduction seals associated with heart valve replacements which may reduce or eliminate paravalvular regurgitation and methods of fabricating such seals. The generally cylindrical multilayer seals of the disclosure include a crown-like end and reinforcing elements which facilitate compression of the seal and associated device by minimizing bunching of the seal as it enters a delivery system. | 04-11-2013 |
20130110230 | SUTURE AND METHOD FOR REPAIRING A HEART | 05-02-2013 |
20130131793 | REPLACEMENT HEART VALVE AND METHOD - A heart valve includes a valve body made of a flexible material such as pericardium. The valve body is made of two layers of material, an outer layer, and an inner layer that defines a plurality of leaflets. The leaflets of the inner layer are attached to the outer layer. In some embodiments the valve body is made by cutting a single piece of flat source tissue, folding the cut tissue and forming it into a tubular pattern having the inner and outer layers. The multi-layer valve body can be mounted on a stent for delivery within a patient's heart. | 05-23-2013 |
20130190865 | VALVE ASSEMBLY WITH A BIOABSORBABLE GASKET AND A REPLACEABLE VALVE IMPLANT - A percutaneous prosthetic heart valve assembly comprising a radially expandable anchor docking member, the anchor docking member having an unexpanded state and an expanded state, in the expanded state, the anchor docking member comprising a mechanism for receiving and engaging an implantable heart valve and a bioabsorbable gasket member disposed about the anchor docking member, the bioabsorbable gasket member comprising a bioabsorbable polymer material, the bioabsorbable gasket member having an unexpanded and an expanded state. | 07-25-2013 |
20130190866 | ANNULOPLASTY RING WITH INTRA-RING ANCHORING - A method includes positioning an anchor deployment manipulator at least partially within a lumen of a sleeve of an annuloplasty ring, the sleeve having a lateral wall shaped to define the lumen, and the lumen extending longitudinally along a length of the sleeve. A portion of the sleeve that contains a distal end of the deployment manipulator is placed into an atrium in a vicinity of an annulus of an atrioventricular valve. An anchor is deployed from the distal end of the deployment manipulator through the lateral wall of the sleeve into cardiac tissue, while the distal end of the deployment manipulator is positioned such that a central longitudinal axis of the deployment manipulator through the distal end of the deployment manipulator forms an angle of between 45 and 90 degrees with the lateral wall of the sleeve at a point at which the anchor penetrates the lateral wall. | 07-25-2013 |
20140012373 | Method for Implanting a Prosthetic Mitral Valve - Embodiments of a method for implanting a prosthetic valve at the native mitral valve region of the heart, the prosthetic valve including a main body that is radially compressible to a radially compressed state and self-expandable from the compressed state to a radially expanded state. The prosthetic apparatus also comprises at least one ventricular anchor coupled to the main body and disposed outside of the main body with a leaflet-receiving space between the anchor and an outer surface of the main body to receive a native valve leaflet. Apparatus for delivering and implanting the prosthetic valve are also described. | 01-09-2014 |
20140081394 | Medical Device For A Cardiac Valve Implant - A medical device for holding a cardiac valve implant is disclosed comprising an elongate support defining a peripheral edge with a curvature about which the cardiac valve implant can be fitted, wherein the elongate support comprises a resilient portion for resiliently holding the cardiac valve implant in place in said device, and a support tool for holding a cardiac valve implant comprising first and second elongate support members being separate and radially movable in relation to each other, each having a curvature about which said cardiac valve implant can be fitted and a manipulator portion connected to said first and second elongate support members. | 03-20-2014 |
20140088698 | PATIENT-SPECIFIC INTRALUMINAL IMPLANTS - Methods are provided for generating intraluminal prosthetic implants designed to fit onto specific anatomical locations within regions which are stable in terms of their motion in time. | 03-27-2014 |
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 |
20140172085 | VASCULAR IMPLANT - A vascular implant for replacing a native heart valve comprises a self expanding stent supporting a valve body having leaflets. The stent preferably comprises an anchoring structure configured to prevent the implant from passing through the valve annulus. For delivery, the implant is compacted within a delivery device and secured at one end. During delivery the implant is partially released from the delivery device, and positioning of the implant can be verified prior to full release. The implant can be at least partially resheathed and repositioned if desired. | 06-19-2014 |
20140172086 | VASCULAR IMPLANT AND DELIVERY SYSTEM - A vascular implant for replacing a native heart valve comprises a self expanding stent supporting a valve body having leaflets. The stent preferably comprises an anchoring structure configured to prevent the implant from passing through the valve annulus. For delivery, the implant is compacted within a delivery device and secured at one end. During delivery the implant is partially released from the delivery device, and positioning of the implant can be verified prior to full release. The implant can be at least partially resheathed and repositioned if desired. | 06-19-2014 |
20140194982 | Valve Prosthesis and Method for Delivery - In some embodiments, a valve prosthesis includes an inlet portion that is substantially s-shaped and configured to engage the floor of the outflow tract of the native heart atrium. In some embodiments, a valve prosthesis includes a chordae guiding element configured to reduce bending of the chordae to reduce stress on the chordae during the cardiac cycle. In some embodiments, a valve prosthesis includes a central portion having an hourglass shape configured to pinch a native annulus in order to provide axial fixation of the valve prosthesis within a valve site. In some embodiments, a valve prosthesis includes a frame having an outflow end that is flared to provide a gap between an outflow end of the frame and an outflow end of prosthetic leaflets when the prosthetic leaflets are fully opened. | 07-10-2014 |
20140194983 | Valve Prosthesis and Method for Delivery - Heart valve prostheses are provided for replacing a cardiac valve. The heart valve prosthesis includes a self-expanding frame including a first portion and a second portion. In the collapsed configuration, the first portion is positioned adjacent to the second portion. In the expanded configuration, the first portion moves to be positioned within an interior area of the second portion. | 07-10-2014 |
20140200662 | ANCHORING ELEMENTS FOR INTRACARDIAC DEVICES - An intracardiac device comprising a ring-shaped body and one or more anchoring or stabilizing elements attached to said body, said elements being selected from the group consisting of levered anchoring arms, elongate anchoring arms, and lateral extension elements, wherein said device is able to move between two conformations, a collapsed conformation suitable for insertion into a delivery catheter, and an open conformation, suitable for implantation at a cardiac valve annulus. | 07-17-2014 |
20140200663 | MEDICAL APPARATUS FOR THE THERAPEUTIC TREATMENT OF AN INSUFFICIENT CARDIAC VALVE - The present invention relates to a medical apparatus for the therapeutic treatment of an insufficient cardiac valve ( | 07-17-2014 |
20140222144 | Anti-Paravalvular Leakage Component for a Transcatheter Valve Prosthesis - A transcatheter valve prosthesis includes an expandable tubular stent, a prosthetic valve within the stent, and an anti-paravalvular leakage component coupled to and encircling the tubular stent. The anti-paravalvular leakage component includes a radially-compressible annular scaffold, which is a sinusoidal patterned ring of self-expanding material, and an impermeable membrane extending over the annular scaffold. The anti-paravalvular leakage component has an expanded configuration in which at least segments of the annular scaffold curve radially away from the tubular stent. Alternatively, the anti-paravalvular leakage component includes a plurality of self-expanding segments and an annular sealing element coupled to inner surfaces of the segments. The anti-paravalvular leakage component has an expanded configuration in which the segments curve radially away from the tubular stent and the annular sealing element is positioned between an outer surface of the tubular stent and inner surfaces of the segments. | 08-07-2014 |
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 |
20140243969 | PROSTHETIC HEART VALVE WITH EXPANDABLE MICROSPHERES - A prosthetic heart valve includes a valve assembly mounted to an expandable stent. The prosthetic heart valve includes a cuff coupled to the stent. The cuff includes a pocket formed between an outer side and an inner side of the cuff. The pocket includes a plurality of biocompatible and irreversibly expandable microspheres. After implantation of the prosthetic heart valve into a patient, any gaps existing between the cuff and the native heart valve are exposed to bodily fluid, such as blood. The blood enters the pocket of the cuff through pores in the outer side of the cuff. The blood interacts with the microspheres, causing irreversible expansion of the microspheres. The microspheres expand to fill any gaps between the prosthetic heart valve and the native heart tissue, sealing the gaps and preventing leakage through the gaps. | 08-28-2014 |
20140257475 | PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus is provided for use with a prosthetic valve for implantation at a native valve of a subject, the native valve including at least one native leaflet, the apparatus including (1) a prosthetic valve support, including (a) an upstream support portion, being configured to be placed against an upstream side of the native valve, and having an inner perimeter that defines an opening that is configured to receive the prosthetic valve, and (b) at least one clip (i) comprising at least two clip arms and a clip-controller interface, the clip-controller interface being coupled to at least one of the clip arms, and (ii) being configured to be coupled to a native leaflet of the native valve; and (2) at least one clip controller, reversibly couplable to the clip-controller interface, and configured to facilitate opening and closing of the clip. Other embodiments are also described. | 09-11-2014 |
20140257476 | Disk-Based Valve Apparatus and Method for the Treatment of Valve Dysfunction - The present invention comprises a novel and safer mechanism of deployment using a self-positioning, self-centering, and self-anchoring method. To embody the present invention, a disk-based valve apparatus allowing the repositioning and retrieval of the implantable valve while working on a dysfunctional valve structure is disclosed. The disk-based valve apparatus may comprise one or more disks, either proximal or distal, a valve-housing component and a valve component. The one or more disks may be either proximal or distal, may be either connected to each other or disconnected from each other and may either be symmetrical or have different shapes and dimensions. The disk-based valve apparatus may be self anchoring, such as anchored by pressure from the one or more disk, or may be anchored using any anchoring. | 09-11-2014 |
20140277423 | SELF-ACTUATING SEALING PORTIONS FOR PARAVALVULAR LEAK PROTECTION - A prosthetic heart valve for replacing a native valve includes a collapsible and expandable stent having a proximal end and a distal end, and a valve assembly including a plurality of leaflets, the valve assembly being disposed within the stent. The heart valve further includes a plurality of elongated legs each with a first end coupled to the stent and a free end, the elongated legs being configured to transition from an extended configuration to a relaxed configuration. A sealing portion connected to the plurality of legs forms a sealing structure when the legs transition to the relaxed configuration to reduce perivalvular leakage between the implanted valve and surrounding tissue. | 09-18-2014 |
20140277424 | PARAVALVULAR LEAK PROTECTION - A prosthetic heart valve includes a collapsible and expandable stent having a proximal end and a distal end, and a collapsible and expandable valve assembly, the valve assembly including a plurality of leaflets connected to at least one of the stent and a cuff. The heart valve further includes a conformable band disposed about the perimeter of the stent near the proximal end for filling gaps between the collapsible prosthetic heart valve and a native valve annulus. | 09-18-2014 |
20140277425 | PARAVALVULAR LEAK OCCLUSION DEVICE FOR SELF-EXPANDING HEART VALVES - An occluder for sealing gaps between a medical device and adjacent body tissue includes an expandable body configured to fill the gaps between the medical device and the body tissue. The occluder includes a fastener at one end of the body and adapted to couple to a first end of the medical device, and an expandable disk at the other end of the body and adapted to couple to the medical device at a position spaced from the first end. | 09-18-2014 |
20140277426 | Paravalvular Leak Occlusion Device for Self-Expanding Heart Valves - An occluder device for occluding a gap between a medical device and adjacent body tissue includes a conformable body having a hollow interior, a leading end and a trailing end; and a port disposed at the trailing end of the body and in fluid communication with the interior of the body. | 09-18-2014 |
20140277427 | PROSTHESIS FOR ATRAUMATICALLY GRASPING INTRALUMENAL TISSUE AND METHODS OF DELIVERY - A prosthesis can comprise an expandable frame, a plurality of distal anchors and a plurality of proximal anchors. The anchors can extend outwardly from the frame. The frame can be configured to radially expand and contract for deployment within a body cavity. The frame and anchors can have one of many different shapes and configurations. For example, when the frame is in an expanded configuration, the frame can have a larger cross-sectional dimension in a middle portion of the frame and a smaller cross-sectional dimension in a proximal portion and a distal portion of the frame, wherein the middle portion is between the proximal and distal portions. As another example, the anchors can have looped ends, the entire anchor may loop out from the frame. | 09-18-2014 |
20140379077 | Sinus-Engaging Valve Fixation Member - A prosthesis is provided for implantation at a native semilunar valve of a native valve complex, the native valve complex having three semilunar sinuses and three native commissures. The prosthesis includes a valve prosthesis support, which comprises a support structure comprising exactly three engagement arms that meet one another at three respective junctures. The engagement arms are shaped so as define three peak complexes at the three respective junctures, and three trough complexes, each of which is between two of the peak complexes. Upon implantation of the prosthesis, each of the engagement arms is at least partially disposed within a respective one of the semilunar sinuses, such that each of the peak complexes is disposed distal to and in rotational alignment with a respective one of the native commissures, and each of the trough complexes is disposed at least partially within the respective one of the semilunar sinuses. | 12-25-2014 |
20150039084 | Heart Anchor Device - A medical implant including an anchor portion including a plurality of arms adapted to engage an internal tissue wall of a body from two opposite faces, wherein the anchor portion is configured such that at least one of the arms does not have an entirely overlapping arm on the other side of the wall and an opening portion adapted to define an opening for blood flow through the internal tissue wall, when the anchor portion engages the wall. | 02-05-2015 |
20150045881 | ANCHORING DEVICE FOR A PROSTHETIC HEART VALVE - The invention relates to an anchoring device ( | 02-12-2015 |
20150073548 | Systems, Apparatus and Methods for Sealing Perivalvular Leaks - An expandable member that is configured to engage an interior region of a prosthetic valve and capable of transitioning from a pre-deployment configuration at a pre-deployment temperature, where the expandable member is capable of being positioned in the valve at an interior valve region when the valve is disposed in a cardiovascular structure, to a post-deployment configuration when the expandable member is subjected to cardiovascular tissue temperature, where an outer surface region of the valve proximate the interior valve region is placed in intimate contact with host cardiovascular tissue of the cardiovascular structure at a first position and seals perivalvular leaks present at the first cardiovascular structure position. | 03-12-2015 |
20150094804 | DEVICES USEFUL FOR IMPLANTATION AT A HEART VALVE - A device useful for implantation at a native heart valve can include an anchor element having a tubular configuration defining a longitudinal direction and a circumference, a heart valve prosthesis disposed within the anchor element, and a plurality of elongate members positioned at equidistant angular intervals about the circumference of the anchor element. The device can be configured to be transitioned from a radially collapsed delivery configuration to a radially expanded implantation configuration, and the plurality of elongate members can have a length extending in the longitudinal direction of the tubular member in the expanded implantation configuration. | 04-02-2015 |
20150105857 | DEVICES USEFUL FOR IMPLANTATION AT A HEART VALVE - A device useful for implantation at a native heart valve can include an anchor element having a tubular configuration defining a longitudinal direction and a circumference, a heart valve prosthesis disposed within the anchor element, and a plurality of elongate members positioned at equidistant angular intervals about the circumference of the anchor element. The device can be configured to be transitioned from a radially collapsed delivery configuration to a radially expanded implantation configuration, and the plurality of elongate members can have a length extending in the longitudinal direction of the tubular member in the expanded implantation configuration. | 04-16-2015 |
20150112433 | METHODS AND SYSTEMS FOR HEART VALVE THERAPY - Systems and methods for medical interventional procedures, including approaches to valve implantation. In one aspect, the methods and systems involve a modular approach to mitral valve therapy. | 04-23-2015 |
20150119982 | HEART VALVE PROSTHESIS - Mitral valve prosthesis are disclosed that include a frame or support structure having an inflow portion, a valve-retaining tubular portion and a pair of support arms. The inflow portion radially extends from a first end of the valve-retaining tubular portion and the pair of support arms are circumferentially spaced apart and radially extend from an opposing second end of the valve-retaining tubular portion. The inflow portion is formed from a plurality of struts that outwardly extend from the first end of the valve-retaining tubular portion with adjacent struts of the plurality of struts being joined, wherein each strut of the plurality of struts has a substantially s-shaped profile and at least one twisted area. | 04-30-2015 |
20150127100 | REDUCED PROFILE PROSTHETIC HEART VALVE - A prosthetic heart valve may include a stent body with a plurality of cells arranged in circumferential rows and a cuff attached to the stent. A leaflet attachment panel may be attached to and span a portion of one of the cells. A prosthetic valve element, such as a leaflet having a belly, may be mounted to the leaflet attachment panel. The leaflet attachment panel may not be integral with the stent body. A reduced overlap area may be defined between a proximal end of the stent body and a proximalmost point of attachment of the leaflet belly to the cuff. The reduced overlap area may have a size dependent upon the circumferential row of cells the leaflet attachment panel is attached to and a position of the portion of the leaflet attachment panel to which the leaflet is mounted. Alternately, the leaflet may be attached directly to the stent. | 05-07-2015 |
20150289977 | Valve Prosthesis and Method for Delivery - Heart valve prostheses are provided for replacing a cardiac valve. The heart valve prosthesis includes a self-expanding frame including a first portion and a second portion. In the collapsed configuration, the first portion is positioned adjacent to the second portion. In the expanded configuration, the first portion moves to be positioned within an interior area of the second portion. | 10-15-2015 |
20160022417 | MITRAL VALVE ANCHORING - Disclosed herein are prosthetic devices and related methods for implantation at the native mitral valve of the heart by drawing an atrial portion and a ventricular portion toward each other from opposite sides of the native mitral valve, clamping the native mitral valve therebetween. One or more retention members passing through the mitral valve orifice or through a puncture in the native valve anatomy can couple the atrial and ventricular members together and keep them anchored onto the native mitral valve anatomy. The atrial portion can seat against the atrial side of the mitral annulus while the ventricular portion can include hooks and/or a sub-annular ring that engage and capture the native mitral valve apparatus to provide anchorage. The described technology can avoid the need to use sutures to anchor a prosthetic device at the mitral valve region. | 01-28-2016 |
20160022418 | EVERTING HEART VALVE - The present invention provides methods and apparatus for endovascularly replacing a patient's heart valve. The apparatus includes a replacement valve and an expandable anchor configured for endovascular delivery to a vicinity of the patient's heart valve. In some embodiments, the replacement valve is adapted to wrap about the anchor, for example, by everting during endovascular deployment. In some embodiments, the replacement valve is not connected to expandable portions of the anchor. In some embodiments, the anchor is configured for active foreshortening during endovascular deployment. In some embodiments, the anchor includes expandable lip and skirt regions for engaging the patient's heart valve during deployment. In some embodiments, the anchor comprises a braid fabricated from a single strand of wire. In some embodiments, the apparatus includes a lock configured to maintain anchor expansion. The invention also includes methods for endovascularly replacing a patient's heart valve. In some embodiments, the method includes the steps of endovascularly delivering a replacement valve and an expandable anchor to a vicinity of the heart valve, wrapping at least a portion of the replacement valve about the anchor, and expanding the anchor to a deployed, configuration. | 01-28-2016 |
20160045306 | CUT PATTERN TRANSCATHETER VALVE FRAME - A transcatheter valve frame comprising a valve frame comprising an elongate tubular member having a longitudinal axis and a circumference, the elongate tubular member comprising a plurality of struts interconnected by peaks and valleys that define a closed cell construction comprising a plurality of interconnected cells, the valve frame is formed from a single piece of material comprising a metal or metal alloy, the valve frame having a diameter that increases upon axial compression and the valve frame comprising a locking mechanism integral with the valve frame configured to fix the diameter of the valve frame. | 02-18-2016 |
20160045308 | Heart Valve Annulus Device and Method of Using Same - A heart valve implant has a body sized and configured to rest near or within a heart valve annulus. A plurality of spaced-apart retainers extend outwardly from the body to contact tissue near or within the heart valve annulus. The retainers are sized and configured to secure the body to the heart valve annulus. The implant can be secured, e.g., without the use of sutures. | 02-18-2016 |
20160045309 | ARTIFICIAL HEART VALVE WITH SCALLOPED FRAME DESIGN - Implantable prosthetic valves are disclosed, methods of their use, and related fabrication techniques are disclosed. In some cases, the prosthetic valves disclosed herein can include frame, skirt, and valve components. The frame component can have an overall, generally scalloped shape comprising fewer struts and fabricated from less raw material than known frames. In some cases, the prosthetic valves disclosed herein can be crimped to a smaller diameter than can other known valves. | 02-18-2016 |
20160045316 | PROSTHETIC HEART DEVICES HAVING DIAGNOSTIC CAPABILITIES - A prosthetic device for implanting in a patient's heart includes (i) a therapeutic device capable of restoring function to a native heart valve; and (ii) at least one sensor including a body, an inductor coil disposed within the body, and a capacitor in communication with the inductor coil, the at least one sensor being coupled to the therapeutic device, and being configured to monitor proper function of the therapeutic device within the patient's heart. | 02-18-2016 |
20160158012 | VALVE CUFF SUPPORT - A prosthetic heart valve includes a stent having a collapsed condition and an expanded condition. The stent has a proximal end, a distal end and a plurality of cells, each cell being formed by a plurality of struts. A valve assembly is secured to the stent and includes a cuff and a plurality of leaflets. The plurality of leaflets are attached to the cuff adjacent an underwire that extends about the perimeter of the cuff. | 06-09-2016 |
20160199177 | APPARATUS AND METHODS FOR IMPLANTING A REPLACEMENT HEART VALVE | 07-14-2016 |
20160250021 | Heart Valve Assemblies | 09-01-2016 |
20160250022 | PARAVALVULAR LEAK SEALING MECHANISM | 09-01-2016 |
20190142588 | VALVE PROSTHESIS AND METHOD FOR DELIVERY | 05-16-2019 |