Heart Patents (Class 623/910)
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Patent number: 11464632Abstract: Some embodiments are directed to a transcatheter and serially-expandable artificial heart valve, e.g., to be minimally-invasively implanted into a pediatric patient during a first procedure, and then expanded during a second procedure to accommodate for the pediatric patient's growth. Some embodiments include an expandable frame having a compressed, delivery configuration, and an expanded, deployed configuration, in which the valve is implantable within the patient. The valve can have a first working condition when the frame is expanded to a first diameter and a second working condition when the frame is expanded to a second diameter greater than the first diameter. The valve can include a plurality of leaflets configured to accommodate the expansion of the frame and growth of the patient.Type: GrantFiled: September 13, 2021Date of Patent: October 11, 2022Assignees: Baylor College of Medicine, William Marsh Rice UniversityInventors: Henri Justino, Daniel Harrington, Kwonsoo Chun
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Patent number: 8057396Abstract: Devices for assessing the size, shape, and topography of vessel lumens and hollow portions of organs are described. The devices are particularly adapted for determining the size, shape, topography, and compliance of the native heart valves to facilitate the later implantation of a prosthetic heart valve. The devices are typically catheter-based having an assessment mechanism fixed to a distal end of the catheter. The assessment mechanism generally includes an expandable member, such as a balloon. The assessment mechanism may also include an imaging member, a physical assessment member, an electronic mapping construction, an alignment mechanism, a valvuloplasty balloon, or any combination thereof.Type: GrantFiled: May 7, 2010Date of Patent: November 15, 2011Assignee: Phoenix Biomedical, Inc.Inventors: David C. Forster, Brian Beckey, Brandon Walsh, Scott Heneveld
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Patent number: 7981153Abstract: A heart valve assembly includes a first annular prosthesis for implantation within a tissue annulus, a second valve prosthesis, and a plurality of magnets on the first and second prostheses to secure the second prosthesis to the first prosthesis. In one embodiment, the magnets are arranged to allow the second prosthesis to be secured to the first prosthesis in a predetermined angular orientation. During use, the first annular prosthesis is implanted into the annulus, and the second valve prosthesis is inserted into the annulus. The magnets orient the second prosthesis relative to the first prosthesis to align the second prosthesis with the first prosthesis in a predetermined angular orientation; and secure the second prosthesis to the first prosthesis in the predetermined angular orientation.Type: GrantFiled: March 14, 2005Date of Patent: July 19, 2011Assignee: Medtronic, Inc.Inventors: Thomas J. Fogarty, Michael J. Drews, Neil Holmgren, D. Bruce Modesitt
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Patent number: 7854761Abstract: A venous valve apparatus, system and method for valve replacement. The valve includes a valve frame, a valve leaflet joined to the valve frame, and a support frame. The valve leaflet includes surfaces defining a reversibly sealable opening for unidirectional flow of a liquid. The support frame meets the valve frame on an axis, where the valve frame and the support frame extend from the axis in an opposing direction. The system further includes a catheter, where the valve can be reversibly joined to the catheter at a location between a proximal end and a distal end of the catheter. The system can be used to deploy the valve from the catheter at a predetermined location.Type: GrantFiled: December 19, 2003Date of Patent: December 21, 2010Assignee: Boston Scientific Scimed, Inc.Inventors: Leonard B. Richardson, Jason P. Hill
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Patent number: 7331991Abstract: An implantable prosthetic valve that is transformable from a first helical pre-implantation configuration to a second valvular functional configuration, and methods of delivery.Type: GrantFiled: February 24, 2006Date of Patent: February 19, 2008Assignee: California Institute of TechnologyInventors: Arash Kheradvar, Guruswami Ravichandran, Morteza Gharib
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Patent number: 7303526Abstract: A method and a device for improving cardiac function are provided. The device is packaged in a collapsed state in an end of a catheter. Portions of a frame construction of the device spring outwardly when the catheter is withdrawn from the device. Anchoring formations on the frame construction secure the frame construction to a myocardium of the heart. A membrane secured to the frame construction then forms a division between volumes of an endocardial cavity of the heart on opposing sides of the membrane.Type: GrantFiled: August 1, 2002Date of Patent: December 4, 2007Assignee: Cardiokinetix, Inc.Inventors: Hugh R. Sharkey, Serjan D. Nikolic, Branislav Radovancevic
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Patent number: 6837902Abstract: Heart valve leaflet selection methods and apparatuses which subject individual leaflets to loads and measure the resulting deflection to more reliably group leaflets of similar physical characteristics for later assembly in prosthetic heart valves. The deflection testing may be accomplished using a variety of test set ups which are designed to impart a load on the leaflet which simulates the actual loading within a heart valve. The results from a number of deflection tests are used to categorize individual leaflets, which data can be combined with other data regarding the characteristics of the leaflet to better select leaflets for assembly into a multi-leaflet heart valve. In one embodiment, the deflection test is combined with an intrinsic load test, and leaflets having similar deflection and intrinsic load values used in the same heart valve.Type: GrantFiled: October 20, 2003Date of Patent: January 4, 2005Assignee: Edwards Lifesciences CorporationInventors: Than Nguyen, Hung Ly Lam, Jianbo Zhou, Carlos M. Romero, Ralph Kafesjian, Xiaoming G. Guo, Van Le Huynh
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Publication number: 20040236411Abstract: A prosthetic valve for replacing a cardiac valve includes an expandable support member and at least two valve leaflets made of a first layer of biological material selected from peritoneal tissue, pleural tissue or pericardial tissue. A second layer of biological material is attached to the support member. The second layer is also made from peritoneal tissue, pleural tissue or pericardial tissue. The second layer includes a radially inwardly facing surface that defines a conduit for directing blood flow. The valve leaflets extend across the conduit to permit unidirectional flow of blood through the conduit. Methods for making and implanting the prosthetic valve are also provided.Type: ApplicationFiled: June 29, 2004Publication date: November 25, 2004Applicant: The Cleveland Clinic FoundationInventors: Timur Paul Sarac, Nicholas G. Smedira
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Publication number: 20030212454Abstract: A process and system for compressing bioprosthetic tissue for use in medical implants. The process involves placing the tissue between two compressive surfaces and applying a force to reduce any nonuniformity of thickness in the tissue, while at the same time reduce the overall thickness. One particularly useful application is the compression of bioprosthetic sheet during the preparation of heart valve leaflets. Bovine pericardium may be compressed to reduce its thickness by about 50%, and then formed into heart valve leaflets. The thinned leaflets have substantially the same absolute strength as those made from uncompressed tissue, and are particular desirable for use in minimally invasive valves which must be compressed into a small profile. The thin tissue enables a reduction in the overall size of the minimally invasive heart valve for delivery. For instance, rolled MIS valves may be reduced in size to as small as 20 mm in diameter.Type: ApplicationFiled: May 8, 2002Publication date: November 13, 2003Inventors: Michael J. Scott, Rajesh A. Khanna
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Publication number: 20030204250Abstract: A novel heart valve for permanent implantation inside the human heart. The heart valve includes a valve body with an outer valve body surface. The outer valve body surface has at least one projection. This projection serves to locate at least one stiffener on the valve body after the valve has been assembled. The projection includes structure that defines at least a partial interruption through the projection in a direction perpendicular to the valve body's exterior surface. In preferred embodiments, the projection extends around less than the entire outer surface of the valve body, or multiple projections jointly extend around less than the entire outer surface of the valve body.Type: ApplicationFiled: April 26, 2002Publication date: October 30, 2003Inventor: Demetrio Bicer
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Publication number: 20030181974Abstract: A bioprosthetic valve graft comprises a valve frame and valve flaps, the latter acting to open or close a valve aperture to directionally control fluid flow through the bioprosthesis. The bioprosthetic valve graft comprises a biomaterial suturelessly bonded to the valve frame, avoiding sutures and substantially reducing medical complications in implantations.Type: ApplicationFiled: March 21, 2002Publication date: September 25, 2003Inventors: Hua Xie, Lisa A. Buckley
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Patent number: 6589160Abstract: An apparatus for treatment of a failing heart by reducing the wall tension therein. In one embodiment, the apparatus includes a tension member for drawing at least two walls of a heart chamber toward each other.Type: GrantFiled: November 2, 2001Date of Patent: July 8, 2003Assignee: Myocor, Inc.Inventors: Cyril J. Schweich, Jr., Todd J. Mortier
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Publication number: 20030097175Abstract: A cardiac valve prosthesis having a frame and two or more leaflets (preferably three) attached to the frame. The leaflets are attached to the frame between posts, with a free edge which can seal the leaflets together when the valve is closed under back pressure. The leaflets are created in a mathematically defined shape allowing good wash-out of the whole leaflet orifice, including the area close to the frame posts, thereby relieving the problem of thrombus deposition under clinical implant conditions.Type: ApplicationFiled: June 6, 2002Publication date: May 22, 2003Inventors: Bernard O'Connor, David John Wheatley, Gillian Maureen Bernacca, William Stafford Haworth
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Patent number: 6514194Abstract: An apparatus for treatment of a failing heart by reducing the wall tension therein. In one embodiment, the apparatus includes a tension member for drawing at least two walls of a heart chamber toward each other. Methods for placing the apparatus on the heart are also provided.Type: GrantFiled: November 2, 2001Date of Patent: February 4, 2003Assignee: Myocor, Inc.Inventors: Cyril J. Schweich, Jr., Todd J. Mortier
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Publication number: 20020188350Abstract: An annuloplasty prosthesis having at least one inner support element of elastomeric material and an outer fabric covering the support element. The elastomeric material impregnates the facing portions of the covering fabric so that the support element is fixed firmly to the covering fabric, preventing relative sliding movements between the fabric and the support element.Type: ApplicationFiled: June 5, 2002Publication date: December 12, 2002Inventors: Pietro Arru, Francesco Bonetti, Carla Stacchino
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Patent number: 6364905Abstract: A bioprosthetic heart valve is disclosed. In a first aspect of the invention, a prosthetic heart valve comprises three mammalian heart valve leaflets, each valve leaflet including a full root length of tissue, the valve leaflets being affixed to one another to define a fluid flow passage, the fluid flow through which may be governed by the valve leaflets. In a second aspect the heart valve comprises a plurality of heart valve leaflets affixed to one another to define a fluid flow passage, the fluid flow through which may be governed by the valve leaflets; and a permanent trimming guide on at least one of the plurality of valve leaflets. In yet a third aspect of the invention, a bioprosthetic heart valve comprises a plurality of assembled parts, wherein the assembled parts are sutured together by hidden and locking stitches.Type: GrantFiled: July 23, 1999Date of Patent: April 2, 2002Assignee: Sulzer Carbomedics Inc.Inventors: Charles L. Simpson, Brian K. McIlroy, Lisa G. O'Connor, Ivan Casagrande, Stephen Westaby
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Patent number: 6197143Abstract: A method of making a bioprosthetic conduit, comprises the steps of: (a) taking a cylindrical mould, having circumferentially spaced protuberances which extend radially from the axis; (b) curving a layer of a biocompatible sheet material around the cylindrical mould, and joining the opposed edges of the layer together along a longitudinal axis, parallel to the axis of the mould to form a tubular layer; and (c) removing the tubular layer from the mould and turning it inside out to form a cylindrical conduit with sinuses, the conduit being fully fixed by a chemical means; after removal or while still on the mould.Type: GrantFiled: October 26, 1998Date of Patent: March 6, 2001Inventor: Endre Bodnar
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Patent number: 6165215Abstract: A method for producing valves for blood flow control having an outer sleeve and a plurality of flexible leaflets fixed to an inner surface of the sleeve, including: molding the valve to a first shape, in which the valve leaflets are in a closed position; holding the valve in a second desired shape, in which the valves are in an open position; and immersing the valve in a hot liquid while holding it in the second shape.Type: GrantFiled: October 29, 1998Date of Patent: December 26, 2000Assignee: H.D.S. Systems Ltd.Inventors: Dan Rottenberg, Ehad Sondak, Dudu Haimovich
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Patent number: 6126686Abstract: A method for preparing vascular valves from submucosal tissue is described. Both bicuspid and tricuspid valve constructs are described. The bicuspid constructs can be formed with or without a supporting stent. The tricuspid constructs are formed by fixing submucosal tissue to a supporting stent, folding the submucosal tissue, and forming the valve commissures from the folded submucosal tissue by cutting along the folds. The artificial vascular valves are useful for replacing damaged or diseased valves of a warm-blooded vertebrate.Type: GrantFiled: June 10, 1999Date of Patent: October 3, 2000Assignee: Purdue Research FoundationInventors: Stephen F. Badylak, Arthur C. Coffey, Leslie A. Geddes, Michael C. Hiles, James Hong, Rebecca Roeder
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Patent number: 6102944Abstract: Improved, adaptable tissue-type heart valves and methods for their manufacture are disclosed wherein a dimensionally stable, pre-aligned tissue leaflet subassembly is formed and its peripheral edge clamped between and attached to an upper shaped wireform and a lower support stent. A variety of adaptable structural interfaces including suture rings, flanges, and conduits may be attached to the support stent with or without an outlet conduit disposed about the wireform to provide a tissue-type heart valve adaptable for use in either a natural heart or in mechanical pumping devices. The methods include forming individual leaflets with a template and using the template to attach the leaflets together to form a tissue leaflet subassembly. The template and leaflets include a straight edge terminating in oppositely directed tabs, and a curvilinear cusp edge extending opposite the straight edge.Type: GrantFiled: March 9, 1999Date of Patent: August 15, 2000Assignee: Edwards Lifesciences CorporationInventors: Van Le Huynh, Than Nguyen, Hung Ly Lam, Xiaoming G. Guo, Ralph Kafesjian
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Patent number: 6074419Abstract: A prosthetic stentless aortic tissue valve includes a substantially annular valve body having a leaflet carried therein for occluding blood flow therethrough. A root extends generally coaxially from the valve body. Visual marking are provided on the root and act as a sculpting guide for a surgeon during implantation of the prosthetic heart valve to sculpt portions of sinus areas of the root.Type: GrantFiled: December 31, 1996Date of Patent: June 13, 2000Assignee: St. Jude Medical, Inc.Inventors: Steven J. Healy, Richard F. Schroeder