| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 623200190 | Trileaflet | 27 |
| 20100023120 | TISSUE ATTACHMENT DEVICES AND METHODS FOR PROSTHETIC HEART VALVES - A multi-leaflet valve, which includes at least two leaflets, an outer tube, and a seam protector for each seam. Each seam protector is positioned to be in contact with a portion of the outer tube, with tube portions and leaflet ends being positioned between adjacent seam protection pieces. The seam protectors provide a lower stress surface about which the leaflets can bend or flex during their opening and closing. The seam protectors may include an enlarged end portion with an extending straight surface, an inverted U-shaped structure, or a sinusoidal-shaped structure, for example. The valve can further be provided with a seam cover or protector that is stitched onto the seam allowance of the layers of one or more of the seams. The seams can be provided with one or more inserts to fill spaces between adjacent tissue layers and create tension in certain material sheets. | 01-28-2010 |
| 20110153008 | ARTIFICIAL VALVE - The invention relates to a valve endoprosthesis, characterised in that it substantially comprises an extensible stent or frame ( | 06-23-2011 |
| 20110160849 | BIMODAL TRICUSPID ANNULOPLASTY RING - A prosthetic remodeling tricuspid annuloplasty ring having two free ends can be configured to more accurately mimic native valve anatomy (e.g., shape) and movement during the cardiac cycle. A tricuspid ring can be provided with a substantially elliptical shape in the X-Y plane, and a bimodal saddle shape in the Z direction. The tricuspid ring can be configured to contract and expand during each cardiac cycle such that the area of the orifice and/or the diameter of the ring decrease with each contraction. Further, the elevation or non-planarity of the bimodal saddle shape can increase with each contraction. Movement of the tricuspid ring can vary in each different segment of the tricuspid ring. Tricuspid annuloplasty rings can be provided in a set, with changing ratios of diameter, changing out-of-plane static amplitudes, and changing amounts of dynamic movement in each different size of tricuspid ring. | 06-30-2011 |
| 20120101572 | Mitral Bioprosthesis with Low Ventricular Profile - A heart valve prosthesis configured for placement at a mitral valve in the heart is disclosed that includes a stent-like support structure for supporting a prosthetic mitral valve. The support structure is configured to have a low ventricular profile with only a short length thereof protruding into the left ventricle when deployed in vivo. The support structure includes an upstream section that is outwardly expandable to sit against the atrial wall so as to at least partially anchor the prosthesis therein and a downstream section to which the prosthetic mitral valve is coupled that extends between the left atria and ventricle through the native mitral valve. The low-ventricular profile of the prosthesis is achieved by shaping the support structure such that the downstream section extends within and overlaps with the upstream section at given regions around the circumference of the support structure in an expanded configuration. | 04-26-2012 |
| 20120123530 | PROSTHETIC HEART VALVE WITH DISSIMILAR LEAFLETS - An anatomically approximate prosthetic heart valve includes dissimilar flexible leaflets, dissimilar commissures and/or a non-circular flow orifice. The heart valve may be implanted in the mitral position and have one larger leaflet oriented along the anterior aspect so as to mimic the natural anterior leaflet. Two other smaller leaflets extend around the posterior aspect of the valve. A basic structure providing peripheral support for the leaflets includes two taller commissures on both sides of the larger leaflet, with a third, smaller commissure between the other two leaflets. The larger leaflet may be thicker and/or stronger than the other two leaflets. The base structure defines a flow orifice intended to simulate the shape of the mitral annulus during the systolic phase. | 05-17-2012 |
| 20120185039 | Methods of treating a native aortic valve insufficiency - A method of treating a native aortic valve insufficiency includes positioning the closed ends of a stent's three first arches within respective native valve pockets such that the closed ends engage the respective native valve pockets. The method further includes clamping three native valve leaflets between the three first arches and the three second arches such that the three native valve leaflets are disposed radially inward of the three first arches and radially outward of the three second arches. | 07-19-2012 |
| 20120232646 | SUPPORT SYSTEM FOR BIOPROSTHETIC VALVES WITH COMMISURAL POSTS WITH HEART-SHAPED OPENINGS - A novel support system for bioprosthetic cardiac valves with heart shape commissural posts (18) and intercommissural conjunctions with long openings with oval closures (8), allows the better function of the valve by diminishing the forces applied on the leaflets during the cardiac cycle. | 09-13-2012 |
| 20120290082 | MECHANICAL TRANSCATHETER HEART VALVE PROSTHESIS - A mechanical transcatheter heart valve prosthesis including a support structure that can be expanded from a first size designed for minimally invasive insertion to a functional second size and a flexible heart valve made of a composite material containing woven fabric that is embedded in an elastic matrix and locally reinforced by fibers, the heart valve comprising a plurality of leaflets. | 11-15-2012 |
| 20120330409 | Methods and Apparatus for Endovascularly Replacing a Patient's Heart Valve - 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 anchor to a vicinity of the heart valve, the anchor having a braid, and expanding the braid to a deployed configuration against the patient's tissue. The braid may be fabricated from a single strand of wire and/or may comprise at least one turn feature. | 12-27-2012 |
| 20130046379 | AORTIC CONDUIT CONFIGURED WITH TERMINAL ENDS HAVING NEOSINUSES OF VALSALVA - A prosthetic aortic conduit ( | 02-21-2013 |
| 20130053950 | DEVICE AND METHOD FOR REPLACING MITRAL VALVE - A prosthetic mitral valve assembly is disclosed. The assembly comprises a radially-expandable stent including a lower portion sized for deployment between leaflets of a native mitral valve and an upper portion having a flared end. The upper portion is sized for deployment within the annulus of the mitral valve and the flared end is configured to extend above the annulus. The stent is formed with a substantially D-shape cross-section for conforming to the native mitral valve. The D-shape cross-section includes a substantially straight portion for extending along an anterior side of the native mitral valve and a substantially curved portion for extending along a posterior side of the native mitral valve. The assembly further includes a valve portion formed of pericardial tissue and mounted within an interior portion of the stent for occluding blood flow in one direction. | 02-28-2013 |
| 20130073037 | PROSTHETIC HEART VALVE IMPLANTATION - A prosthetic heart valve includes an expandable stent and a leaflet assembly coupled to the expandable stent. The expandable stent is radially expandable from a first size for intraluminal delivery through a body passageway to a second size for implantation of the prosthetic heart valve in the body passageway. The leaflet assembly includes leaflets movable between an open position permitting flow past the expanded stent and a closed position substantially restricting flow past the expanded stent. Each of the leaflets is coaptable with each of the other leaflets in the closed position to define a coaptation region of about 15 percent to about 35 percent of the overall height of each of the plurality of leaflets. | 03-21-2013 |
| 20130096674 | MINIMALLY-INVASIVE PROSTHETIC HEART VALVE METHOD - A method of implanting a collapsible prosthetic heart valve is disclosed. The prosthetic heart valve includes three biological leaflets mounted within a self-expanding tubular leaflet frame formed of nitinol. The method comprises loading a collapsed prosthetic heart valve into a distal end of a delivery tube. The distal end of the delivery tube is inserted into a vasculature of a patient and positioned proximal to an aortic valve. The prosthetic heart valve is expelled into an annulus of the aortic valve and expanded. The prosthetic heart valve includes cusp positioners that engage sinus cavities above the valve annulus and rotationally orient the prosthetic valve. Preferred embodiments of the cusp positioners do not occlude the coronary arteries. | 04-18-2013 |
| 20130110229 | AORTAL TRICUSPID HEART VALVE PROSTHESIS | 05-02-2013 |
| 20130268068 | SUPPORT DEVICE FOR HEART VALVE PROSTHESES - A support device for implanting a stentless heart valve prosthesis having three leaflets adapted for coapting and defining three corresponding commissures is disclosed. The support device includes a shaft defining a manipulation axis, the shaft having a proximal portion and a distal portion, and three support formations integrally formed and extending from the proximal end of the shaft, the support formations angularly distributed about the manipulation axis of the shaft, such that each of the support formations correspond to locations of each of the commissures of the stentless heart valve prosthesis. The shaft includes a connection portion flexibly connecting the shaft and the support formations to permit a displacement of the manipulation axis with respect to the support formations. The shaft, the plurality of support formations and the connection portion are integrally formed from a single tubular element. | 10-10-2013 |
| 20130274874 | CURVED FIBER ARRANGEMENT FOR PROSTHETIC HEART VALVES - A leaflet including fibers oriented at an angle relative to at least one free edge of the leaflet. A leaflet comprising mechanisms for increasing coaptation height, preventing billowing, and reducing stress in critical regions of the leaflet. A prosthetic heart valve, including three leaflets operatively attached together. A method of using a prosthetic heart valve, by applying pressure to the valve, forming a pocket with material of three leaflets operatively attached together and increasing coaptation height, reducing billowing of the leaflets toward a ventricle, and reducing stress in critical regions of the leaflet. A chorded valve including at least one leaflet, wherein bundles of fibers exit said free edges as tethers and can be anchored to tissue. A method of using the chorded valve, by anchoring the tethers to tissue, forming a pocket with the material of leaflets and increasing coaptation height, and reducing billowing of leaflets toward an atrium. | 10-17-2013 |
| 20130282114 | HEART VALVE ASSEMBLY SYSTEMS AND METHODS - Heart valve assembly systems and methods configured for medical interventional procedures. In one aspect, the methods and systems involve a modular approach to treatment. | 10-24-2013 |
| 20130338766 | Replacement Heart Valve - A replacement heart valve assembly has a stent frame and a replacement valve. The replacement valve has a plurality of leaflets and a valve frame. The leaflets are attached to the valve frame. Further, the assembly has a plurality of suspension struts attached to the stent frame and the valve frame. The valve frame is suspended within the stent frame via the suspension struts. In some embodiments, the assembly further has a sealing member attached to the stent frame to prevent leakage around the replacement heart valve assembly. | 12-19-2013 |
| 20140243967 | Methods and Apparatus for Endovascular Heart Valve Replacement Comprising Tissue Grasping Elements - The present invention provides an apparatus for endovascularly replacing a patient's heart valve. In some embodiments, the apparatus includes an expandable anchor supporting a replacement valve, the anchor and replacement valve being adapted for percutaneous delivery and deployment to replace the patient's heart valve, the anchor having a braid having atraumatic grasping elements adapted to grasp tissue in a vicinity of the patient's heart valve. | 08-28-2014 |
| 20140303724 | POLYMERIC HEART VALVE - A polymeric valve which may include a heart valve, and also may include a trileaflet heart valve includes a stent having a base and a plurality of outwardly extending posts from the base and equidistant from each other. A plurality of leaflets each connected to a corresponding one of the posts at one end, and each of the leaflets connected to the base. Each of the leaflets having an operative end opposite the end connected to the post, and the operative ends of the leaflets being biased in a closed position such that the operative ends abut each other. The operative ends are configured to rhythmically open and close in relation to each other, and the leaflets include multiple cross sectional thicknesses at different portions of the leaflets. | 10-09-2014 |
| 20140336755 | TUBULAR SCAFFOLD FOR FABRICATION OF HEART VALVES - A tubular braided mesh scaffold for fabrication of heart valves is described. The tubular braided scaffold can be formed of a shape memory metal, such as Nitinol, and pinched or pressed to form a leaflet shape. When heat treated, the braided mesh scaffold holds and retains its valve-like shape. | 11-13-2014 |
| 20150320554 | REPLACEMENT HEART VALVES AND THEIR METHODS OF USE AND MANUFACTURE - A prosthetic valve has a support structure that meets with a plurality of leaflets capable of transitioning between open and closed states. The support structure can include a base frame with a polymer coating and the leaflets can be artificial. The interface between the support structure and each leaflet can be at least partially convex when viewed from an exterior of the support structure along a normal to a plane formed by a central axis of the support structure and a central axis of the leaflet. | 11-12-2015 |
| 20150320555 | REPLACEMENT HEART VALVES AND THEIR METHODS OF USE AND MANUFACTURE - A prosthetic valve has a support structure that meets with a plurality of leaflets capable of transitioning between open and closed states. The support structure can include a base frame with a polymer coating and the leaflets can be artificial. The interface between the support structure and each leaflet can be at least partially convex when viewed from an exterior of the support structure along a normal to a plane formed by a central axis of the support structure and a central axis of the leaflet. | 11-12-2015 |
| 20150359631 | Prosthetic Valve With Vortice-Inducing Baffle - A prosthetic valve comprising a stent frame, a valve structure, and a baffle structure. The stent frame defines a lumen. The valve structure is disposed within the lumen, and defines an inflow side and an outflow side. An outflow track is established within the lumen downstream of the outflow side and along which fluid flow from the valve structure progresses. The baffle structure is connected to the stent frame downstream of the outflow side and is configured to induce vortical flow, for example including a vortex ring. In some embodiments, the prosthetic valve is a transcatheter prosthetic mitral valve having three leaflets. | 12-17-2015 |
| 20160038284 | PROSTHETIC HEART VALVE AND METHOD - A prosthetic heart valve comprises a radially crimpable and radially expandable, net-like, annular support frame and a valve assembly disposed therein, the valve assembly comprising a conduit tapering from an inlet towards an outlet thereof. Some embodiments or the support frame comprise a proximal portion and a distal portion, a diameter of the proximal portion smaller than a diameter of the distal portion. The proximal portion is dimensioned for deployment in an annulus of a native aortic valve and a distal portion for deployment in an ascending aorta. Some embodiments of the conduit comprise a support construction with a three-cusp, crown-shaped cut line, the support construction sutured to the support frame around a bottom portion thereof and around the cut line. A method for using the prosthetic heart valve to replace a defective native aortic valve uses a minimally invasive procedure. | 02-11-2016 |
| 20160106539 | CARDIAC VALVE SUPPORT DEVICE FITTED WITH VALVE LEAFLETS - The present invention provides a cardiac valve support device adapted for endovascular delivery to a cardiac valve, wherein said support device comprises either a single support element with valve leaflets connected thereto or two interconnected support elements having valve leaflets connected to one of said two elements. The invention further encompasses a two-stage method for implanting a replacement cardiac valve, wherein the first stage comprises delivering a valve support device fitted with one or more valve leaflets to a location near a subject's cardiac valve, such that said valve leaflets fulfill the function previously fulfilled by the native valve. | 04-21-2016 |
| 20170232170 | SUPPORT STENT FOR TRANSVALVULAR CONDUIT | 08-17-2017 |
| 20090036993 | Patellar implant - A patellar implant for a knee joint prosthesis including a femoral component and a tibial assembly having a post. The patellar implant includes an anterior anchoring surface, and a posterior surface articulating with the femoral component. The posterior surface has an articulating portion and a non-articulating portion, and the non-articulating portion defines a depression that substantially prevents impingement of the patellar implant on the post during flexion. | 02-05-2009 |
| 20090248167 | PATELLO-FEMORAL PROSTHESIS - A patello-femoral prosthesis is provided for replacing the engagement surfaces between the patella and the femur. The prosthesis is configured to cover the trochlear groove and extend into the intercondylar notch without extending onto the articulating surfaces of the condyles. A method is also provided for implanting a patello-femoral prosthesis in which a portion of the trochlear groove and intercondylar notch are resected and the prosthesis is implanted over the femur that had portions resected. | 10-01-2009 |
| 20090326661 | IMPLANTABLE PATELLA COMPONENT HAVING A THICKENED SUPERIOR EDGE - An orthopaedic implant includes a patella component having a posterior bearing surface configured to articulate with the femoral condyles of a femur, and an anterior surface having a number of pegs extending outwardly therefrom. The superior edge of the patella component is thickened relative to conventional dome-shaped patella components. | 12-31-2009 |
| 20090326662 | IMPLANTABLE PATELLA COMPONENT HAVING A THICKENED SUPERIOR EDGE - An orthopaedic implant includes a patella component having a posterior bearing surface configured to articulate with the femoral condyles of a femur, and an anterior surface having a number of pegs extending outwardly therefrom. The superior edge of the patella component is thickened relative to conventional dome-shaped patella components. | 12-31-2009 |
| 20100198354 | METHOD AND SYSTEM FOR PATELLA TENDON REALIGNMENT - A method and system provide and use a patellar implant. The patellar implant includes a superior portion, an inferior portion opposite to the superior portion, and an anterior portion. The superior portion being configured to reside below a patellar tendon and to elevate and/or tilt the patellar tendon. The inferior portion is configured to be seated in proximity to a tibia. The anterior portion is between the superior portion and the inferior portion. The anterior portion is placed in proximity to a patella. In one aspect, the method includes inserting the implant beneath the patellar tendon and between the patella and a position at which the patellar tendon is affixed to the tibia. In this aspect, the method also includes affixing the implant. | 08-05-2010 |
| 20120209393 | PATELLAR PROSTHESES AND INSTRUMENTATION - A prosthetic patellar implant has a posterior articulation surface and an anterior attachment surface. The anterior attachment surface has a medial attachment surface and a lateral attachment surface. The medial and lateral attachment surfaces can be planar and angled relative to one another, meeting at a common intersection medially offset from the sagittal centerline of the implant. The medial and lateral attachment surfaces can include convexities. The anterior attachment surface can have one or more pegs and/or recesses. | 08-16-2012 |
| 20120330429 | PROSTHETIC IMPLANT AND METHOD OF IMPLANTATION - A prosthetic implant useful in a cementless application is disclosed. The implant may include a curved bone facing surface and one or more pegs or keels. Preferably, the implant is implanted on a bone surface that has been prepared so as to allow for a snap fit between the implant and the bone. | 12-27-2012 |
| 20130173008 | FEMORAL IMPLANT FOR PRESERVING CRUCIATE LIGAMENTS - A femoral prosthetic component comprises a pair of condyles having an intercondylar notch interposed substantially therebetween. Each of the pair of condyles comprises an edge that borders the intercondylar notch. At least one of the pair of condyles comprises a condylar notch disposed within the respective edge of the at least one of the pair of condyles. | 07-04-2013 |
| 20140358241 | TOTAL KNEE PROSTHESIS, AND SET OF MODULAR ELEMENTS MAKING IT POSSIBLE TO OBTAIN SUCH A PROSTHESIS - The present invention concerns to a total knee prosthesis including a femoral implant having an anterior wall that forms the upper portion of a prosthetic trochlea and two curved branches extending from the lower edge of said anterior wall, delimiting the lower portion of the prosthetic trochlea between them and forming condylar surfaces between them. The trochlea has a middle furrow bordered by two rounded convex surfaces. The trochlea has in its upper portion a flexion of approximately 50°. The trochlea has a depth smaller than the height of the longitudinal middle rib comprised by the patella and has a width larger than that of that same rib, such that the patella comes into contact with the femoral implant essentially by that rib and said concave side faces are situated at a distance from said rounded convex surfaces. In the lower portion, the trochlea has a depth greater than the height of said rib and has a width substantially equal to that of said same rib, such that the patella comes into contact with the femoral implant essentially by said concave side faces, and said rib is at a distance from the bottom of the trochlea. | 12-04-2014 |
