Patent application number | Description | Published |
20080249464 | Catheter Having Internal Mechanisms to Encourage Balloon Re-folding - A balloon catheter that comprises an inner shaft, a balloon and a sleeve that defines a lumen. A portion of the inner shaft is positioned within the lumen and the balloon is engaged to the sleeve at least two engagement points. | 10-09-2008 |
20080275390 | Balloon Catheters - A method of using a balloon catheter, comprising the steps of providing a balloon catheter, the balloon catheter comprising a balloon and a plurality of fins, the plurality of fins engaged to the balloon; inserting the balloon catheter into the vasculature; advancing the balloon catheter through the vasculature to a desired location; inflating the balloon when the balloon catheter is at the desired location; deflating the balloon; and directing the blood flow along the balloon thereby aiding rewrap. | 11-06-2008 |
20080275426 | Flexible and Durable Tip - A method of making a flexible, durable catheter tip is achieved by providing a catheter tip, and in some embodiments, applying heat energy only to the distal portion of a catheter tip. In other embodiments, the method includes ablating a portion of the outer diameter of the proximal region material. In at least one embodiment, the method includes manufacturing a catheter tip with a layer of a harder material disposed about a first layer of a relatively softer material and then ablating at least a portion of the harder material. In some embodiments, the method includes dipping at least a portion of the distal region of the catheter tip into a chemical bath. In some embodiments, the method includes providing a catheter tip made of a tip material, adding a curable adhesive to at least a portion of the distal region, and then applying heat energy to cure the curable adhesive. | 11-06-2008 |
20080281395 | RATCHETING BIO CELL DESIGNS - A bifurcated stent having a side branch constructed out of a bioabsorbable material. The side branch comprises one or more bio cells which are flexible and easily deformable when the stent is in the unexpanded state. The bio cells have a locking member which fixedly holds the bio cells in place once the stent assumes the expanded state. The locking member uses oppositely directed hooks or ratchet teeth to prevent contraction in the bio cells once the expanded state is assumed. By having an appropriate alternation between flexibility and rigidity the side branch is flexible enough to deal with the geometric difficulties of bending and deploying a side branch while being fixed and rigid enough to properly support and scaffold a side branch assembly. The deployment of the side branch can be facilitated by the use of a ratcheting device. The side branch can also have a flared shape. | 11-13-2008 |
20080312645 | Vascular Sealing Device and Method Using Clot Enhancing Balloon and Electric Field Generation - An apparatus and method for closing an opening in a blood vessel wall is disclosed. The apparatus includes at least one member which is extended through a tissue tract formed through the epidermis and subcutaneous layer of skin and through the opening in the blood vessel. The member includes a proximal end and a distal end with the distal end being positionable proximate to the opening in the blood vessel wall. A positive electrode is positioned next to the distal end with a negative electrode being positioned next to the proximal end When the electrodes are energized an electric field is created therebetween, blood cells are attracted to the positive electrode, and a thrombus is formed at the opening in the blood vessel wall. The member may include a balloon at the distal end to temporarily occlude blood flow from the blood vessel to the tissue tract to facilitate formation of the thrombus. In addition, the shape of the balloon may be tailored to facilitate the formation of the thrombus including, but not limited to, the creation of pockets and self-supporting balloons | 12-18-2008 |
20080312667 | Self-Orientating Suture Wound Closure Device - A device is disclosed for providing an indication as to the relative position of a vessel or artery opening thereby facilitating the choice of which suturing or plugging technique to thereafter use. A disclosed device includes an outer tube and a collapsible foot slidably disposed within a distal end of the outer tube. The foot is connected to a shaft that passes through the tube and exits a proximal end thereof. The device may further include one or more threaded suture needles, a biodegradable plug or other wound closing device that is connected to another shaft. The collapsed or folded foot is pushed distally out of the tube and through the opening in the vessel whereupon the foot expands. Pulling the expanded foot in the proximal direction provides an indication as to the orientation of the opening in the vessel, which assists in determining the type of closing procedure to be carried out. The shaft connected to the foot is preferably connected to an indicator that indicates to the operator or physician that the vessel opening is in one of three positions on the vessel—left, top or right. As an alternative, the indicator bar may indicate a relative position in degrees, mm or μm in deviation from a top stick (or top position). | 12-18-2008 |
20080312683 | Apparatus and Method for Closing an Opening in a Blood Vessel Using Memory Metal and Collagen - An apparatus and method for closing an arteriotomy site are disclosed. The apparatus and method employ the use of a delivery sheath within which is provided an anchoring device formed of memory metal. The delivery sheath can be inserted through a tissue tract extending from an epidermal layer to the blood vessel wall, whereupon the anchoring device can be extended from the delivery sheath into the blood vessel itself The memory metal, once freed from the delivery sheath, obtains a non-linear or coiled configuration which can then be pulled back against the inner surface of the blood vessel to form a backstop. A biodegradable plug is then introduced into the tissue tract until it engages the backstop formed by the anchoring device thereby ensuring proper positioning of the biodegradable plug. The anchoring device can then be retracted through the biodegradable plug leaving the arteriotomy site substantially closed with hemostasis being formed therearound The various biodegradable plugs disclosed provide for improved retention of the biodegradable plug and proper positioning of the plug within the tissue tract. | 12-18-2008 |
20080312684 | Apparatus and Method for Closing an Opening in a Blood Vessel Using a Permanent Implant - An apparatus and method for closing an arteriotomy site is disclosed. The apparatus includes inner and outer frames adapted to sandwich a blood vessel wall therebetween. The inner and outer frames may be manufactured from memory metals such that they can be compressed during the insertion into the tissue tract proximate the arteriotomy site, and then deployed into an expanded configuration larger than the dimensions of the arteriotomy opening itself. A universal joint connects the inner and outer frames to ensure proper pivoting therebetween. In addition, polymeric coverings can be provided on the inner and outer frames to ensure closure, while a collagen plug can also be provided between inner and outer frames to facilitate closure as well. | 12-18-2008 |
20090018635 | STENT PROTECTOR - A method for providing a catheter assembly with a protective sleeve for a stent delivery system wherein the protective sleeve has a removable portion that is removed from about the stent before the system is inserted into a patient, and the protective sleeve made thereby. | 01-15-2009 |
20090076591 | Stent Design Allowing Extended Release of Drug and/or Enhanced Adhesion of Polymer to OD Surface - The invention is directed to mechanisms and methods that reduce the delamination of a therapeutic agent from a stent. The mechanisms include holes (channels, wells, and other hole configurations), protrusions, sintered metal cores, clamps/staples, pins, and stainless steel shields. | 03-19-2009 |
20090088791 | Carotid System Simplification - A method and apparatus for simplifying carotid artery stenting and/or angioplasty provides for the use of a filter wire system, which employs a sliding sheath. The sheath has an undeployed state and a deployed state, wherein in the undeployed state a distal region of the sheath is disposed about an embolic protection filter and a proximal region extends proximal from the distal region. At least a portion of the proximal region has a first end region, a second end region and a length there between. The first end region is proximal of the second end region. The at least a portion of the proximal region has a graduated stiffness along the length, wherein the stiffness is greatest at the first end region and is least at the second end region. | 04-02-2009 |
20090138073 | Bifurcation Stent Assembly - A stent assembly comprises a stent and a side branch flap. The stent has a substantially tubular body which defines a primary lumen and is comprised of a plurality of interconnected stent members. Adjacent stent members define a plurality of stent openings that extend through the body and which are in fluid communication with the primary lumen. At least one stent opening is a side branch opening. The side branch flap is a non-tubular body having a planar structure. A first region of the planar structure is overlappingly positioned across a portion of the side branch opening prior to deployment. A second region of the planar structure is engaged to a portion of the body of the stent immediately adjacent to the perimeter of the side branch opening. When the assembly is deployed the first region of the flap is displaced radially outward from the side branch opening. | 05-28-2009 |
20090143815 | Apparatus and Method for Sealing a Vessel Puncture Opening - A device for sealing a puncture opening in a wall of a blood vessel may include a base frame including a first bi-stable material having a first stable state corresponding to a delivery configuration of the base frame, in which the base frame is retracted to have a relatively smaller overall profile, and a second stable state corresponding to a deployed configuration of the base frame, in which the base frame is extended to have a relatively larger overall profile. The base frame is sized to engage an interior surface of the blood vessel wall when in the deployed configuration. A sealing section is coupled to the base frame and includes a second bi-stable material having a first stable state corresponding to an initial configuration of the sealing section, in which the sealing section permits fluid flow, and a second stable state corresponding to a barrier configuration of the sealing section, in which the sealing section prevents fluid flow. The sealing section in the barrier configuration is sized to block fluid flow through the puncture opening when the base frame is in the deployed configuration. | 06-04-2009 |
20090288468 | CRIMPER - In one embodiment, an apparatus for shaping an article may comprise a plurality of movable dies arranged to form a chamber whose size may be varied by moving the dies. Each of the dies may have a contacting surface for contacting the article to be shaped. The chamber may have a first portion having a first cross-section and a second portion having a second cross-section. Either portion may include a taper. The first portion may have a differently shaped cross-section than the second portion. The first portion may have a cross-section of greater area than the second portion. The longitudinal axis of the first portion may be offset from the longitudinal axis of the second portion. | 11-26-2009 |
20090312830 | Balloon arc profile control - The present invention is directed to a delivery system including a stent protector to protect an end of the stent and/or stent body for delivery of the stent to an intended fixation site or treatment site within a body lumen. More specifically, the present invention is directed to balloon catheter which protects the distal end, proximal end and/or body of a stent during delivery to the deployment site and/or shipping of a preloaded system. | 12-17-2009 |
20090318848 | MEDICAL DEVICES EMPLOYING CONDUCTIVE POLYMERS FOR DELIVERY OF THERAPEUTIC AGENTS - In accordance with one aspect, the invention relates to medical devices which comprise at least one reservoir, a therapeutic-agent-containing region disposed within the reservoir and an electrode comprising a conductive polymer. The devices of the invention are configured such that a rate of release of the therapeutic agent from the reservoir changes upon a change in the oxidation state of the conductive polymer. | 12-24-2009 |
20090318943 | VASCULAR INTERVENTION CATHETERS WITH PACING ELECTRODES - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a pacemaker and delivered through pacing electrodes incorporated onto percutaneous transluminal vascular intervention (PTVI) devices during the revascularization procedure. Examples of the PTVI devices include a guide catheter, a guide wire, and an angioplasty catheter such as a balloon catheter used in the revascularization procedure. The pacing electrodes are incorporated onto such PTVI devices in various ways. | 12-24-2009 |
20090318989 | PACING CATHETER WITH STENT ELECTRODE - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a pacemaker and delivered through one or more pacing electrodes incorporated onto one or more percutaneous transluminal vascular intervention (PTVI) devices during the revascularization procedure. In one embodiment, at least one pacing electrode is constructed as, or incorporated onto, a stent at a distal end portion of a stent catheter. | 12-24-2009 |
20090318990 | PACING CATHETER WITH EXPANDABLE DISTAL END - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a pacemaker and delivered through one or more pacing electrodes incorporated onto one or more percutaneous transluminal vascular intervention (PTVI) devices during the revascularization procedure. In one embodiment, a PTVI device includes an expandable distal end to provide a stable electrical contact between a pacing electrode and the vascular wall of a blood vessel when the distal end is placed in the blood vessel. | 12-24-2009 |
20090318991 | PACING CATHETER FOR ACCESS TO MULTIPLE VESSELS - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a pacemaker and delivered through a plurality of pacing leads introduced into a patient's body through a percutaneous transluminal vascular intervention (PTVI) catheter have a plurality of exit ports. In one embodiment, the exit ports are arranged for the pacing leads to enter multiple specified blood vessels. | 12-24-2009 |
20090318992 | PACING CATHETER RELEASING CONDUCTIVE LIQUID - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a pacemaker and delivered through one or more pacing electrodes incorporated onto one or more percutaneous transluminal vascular intervention (PTVI) devices during the revascularization procedure. In one embodiment, a PTVI device releases a conductive liquid to provide a conductive medium between a pacing electrode and tissue of pacing site. | 12-24-2009 |
20090318993 | PACEMAKER INTEGRATED WITH VASCULAR INTERVENTION CATHETER - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a flexible pacemaker circuit integrated with a percutaneous transluminal vascular intervention (PTVI) device and delivered through pacing electrodes incorporated onto the PTVI device during the revascularization procedure. | 12-24-2009 |
20090318994 | TRANSVASCULAR BALLOON CATHETER WITH PACING ELECTRODES ON SHAFT - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with myocardial infarction (MI) and revascularization procedure. Pacing pulses are generated from a pacemaker and delivered through one or more pacing electrodes incorporated onto one or more percutaneous transluminal vascular intervention (PTVI) devices during the revascularization procedure. In one embodiment, at least one pacing electrode is incorporated onto the shaft of a PTVI device to allow the pacing pulses to be delivered to a site remote from an infarcted region where the distal end portion of the PTVI device is placed. | 12-24-2009 |
20100004594 | BIFURCATED STENT DELIVERY SYSTEM - Systems for treating a vessel bifurcation comprise a bifurcated catheter having a first branch and a second branch. Each branch defining an exchange region that extends from the distal end of the shaft to the guidewire port of the shaft. The catheter has a radial alignment mechanism which provides improved radial alignment characteristics of at least the exchange region of the branches. | 01-07-2010 |
20100004737 | ASYMMETRIC BIFURCATED CROWN - An expandable stent for percutaneous procedures comprises a tubular structure disposed about a longitudinal axis and a plurality of fingers. The plurality of fingers, upon expansion of the stent, extends from the tubular structure about a second longitudinal axis which is angularly offset from the first longitudinal axis. At least one of the plurality of fingers has a length that is greater than that of the other fingers. | 01-07-2010 |
20100022949 | BALLOON ASSEMBLY WITH A TORQUE - An expandable medical balloon for use in combination with a catheter assembly, the balloon having a torque in a first and second unexpanded state, and to methods of making and using the same. | 01-28-2010 |
20100047317 | USING BUCKY PAPER AS A THERAPEUTIC AID IN MEDICAL APPLICATIONS - Methods, systems, and uses of bucky paper are provided in the present invention. These embodiments include covering medical implants with single or multiple layers of bucky paper, treating bucky paper with various therapeutics to be released through the bucky paper to a target site, shaping bucky paper into non-conventional configurations for improved therapeutic deliver, and using bucky paper alone or in conjunction with other materials to treat a target site. | 02-25-2010 |
20100069838 | DEVICES AND SYSTEMS FOR DELIVERY OF THERAPEUTIC AGENTS TO BODY LUMENS - In accordance with one aspect, the invention provides medical devices that comprise an elongated drug delivery member, which is adapted to take on a radially expanded configuration upon actuation in vivo. | 03-18-2010 |
20100069882 | MEDICAL DEVICE WITH PREFERENTIAL BENDING - Medical devices such as catheters may provide advantages in flexibility, strength and other desired properties. Some medical devices may include a hypotube that has a plurality of slots disposed therein. The hypotube or another portion of the medical device may cause or permit the medical device to exhibit preferential bending in a single direction. | 03-18-2010 |
20100145437 | Stent Design Allowing Extended Release of Drug and/or Enhanced Adhesion of Polymer to OD Surface - The invention is directed to mechanisms and methods that reduce the delamination of a therapeutic agent from a stent. The mechanisms include holes (channels, wells, and other hole configurations), protrusions, sintered metal cores, clamps/staples, pins, and stainless steel shields. | 06-10-2010 |
20100191221 | Rotatable Catheter Assembly - A catheter assembly comprises a catheter shaft, a balloon and a pair of collars. The collars may be fixed or rotatable about a catheter shaft prior to exposure to an electric current. Where the collars are fixed to the shaft, the balloon is rotatable about the collars. When exposed to the electric current the collars expand to engage the waists of the balloon thereby sealing the balloon. Where the collars are rotatable about the shaft, the each waist of the balloon is engaged to a respective collars. When the rotatable collars are exposed to the electric current the collars expand to engage the shaft of the catheter thereby sealing the balloon. | 07-29-2010 |
20100312322 | Medical Balloon Incorporating Electroactive Polymer and Methods of Making and Using the Same - An expandable medical balloon having at least one static state, at least one expanded state, and at least one deflated state, the expandable medical balloon including at least one active region, the at least one active region including electroactive polymer. | 12-09-2010 |
20110100086 | CRIMPER - In one embodiment, an apparatus for shaping an article may comprise a plurality of movable dies arranged to form a chamber whose size may be varied by moving the dies. Each of the dies may have a contacting surface for contacting the article to be shaped. The chamber may have a first portion having a first cross-section and a second portion having a second cross-section. Either portion may include a taper. The first portion may have a differently shaped cross-section than the second portion. The first portion may have a cross-section of greater area than the second portion. The longitudinal axis of the first portion may be offset from the longitudinal axis of the second portion. | 05-05-2011 |
20110152912 | Catheter Having Internal Mechanisms to Encourage Balloon Re-folding - A balloon catheter that comprises an inner shaft, a balloon and a sleeve that defines a lumen. A portion of the inner shaft is positioned within the lumen and the balloon is engaged to the sleeve at least two engagement points. | 06-23-2011 |
20110282433 | Stent Design Allowing Extended Release of Drug and/or Enhanced Adhesion of Polymer to OD Surface - The invention is directed to mechanisms and methods that reduce the delamination of a therapeutic agent from a stent. The mechanisms include holes (channels, wells, and other hole configurations), protrusions, sintered metal cores, clamps/staples, pins, and stainless steel shields. | 11-17-2011 |
20120035592 | MEDICAL DEVICES INCLUDING SHAPE MEMORY MATERIALS - Medical devices, such as catheters, including shape memory materials, are provided, as well as related methods of making and using such medical devices. | 02-09-2012 |
20120172928 | APPARATUS AND METHOD FOR SEALING A VESSEL PUNCTURE OPENING - A device for sealing a puncture opening may include a base frame having a delivery configuration, wherein the base frame is retracted to have a relatively smaller overall profile, and a deployed configuration, wherein the base frame is extended to have a relatively larger overall profile. The base frame is sized to engage an interior surface of the blood vessel wall in the deployed configuration. A sealing section is coupled to the base frame, the sealing section having an initial configuration, wherein the sealing section permits fluid flow, and a barrier configuration, wherein the sealing section prevents fluid flow. The sealing section in the barrier configuration is sized to block fluid flow through the puncture opening when the base frame is in the deployed configuration. | 07-05-2012 |
20120239129 | TWISTING BIFURCATION DELIVERY SYSTEM - A catheter system comprises a catheter having an elongate catheter shaft such that a portion of the catheter shaft proximal a stent retaining region defines at least one bend that is bent around the longitudinal axis of a vessel. The catheter also has a side branch guidewire housing, defining a side branch guidewire lumen, and a side branch guidewire that extends through the side branch guidewire lumen. | 09-20-2012 |
20120265286 | ADJUSTABLE BIFURCATION CATHETER INCORPORATING ELECTROACTIVE POLYMER AND METHODS OF MAKING AND USING THE SAME - A medical device having at least one static state, at least one activated state, and at least one active region including electroactive polymer (EAP) capable of fine electro-activated movements. The EAP movements include bending components for proper alignment, rotating components for proper fittings, making components more rigid or flexible, and increasing and decreasing the volume of components. The fine movements allow for highly versatile and adaptable medical devices. | 10-18-2012 |
20130122060 | USING BUCKY PAPER AS A THERAPEUTIC AID IN MEDICAL APPLICATIONS - Methods, systems, and uses of bucky paper are provided in the present invention. These embodiments include covering medical implants with single or multiple layers of bucky paper, treating bucky paper with various therapeutics to be released through the bucky paper to a target site, shaping bucky paper into non-conventional configurations for improved therapeutic deliver, and using bucky paper alone or in conjunction with other materials to treat a target site. | 05-16-2013 |
20130172886 | VASCULAR SEALING DEVICE AND METHOD USING CLOT ENHANCING BALLOON AND ELECTRIC FIELD GENERATION - An apparatus and method for closing an opening in a blood vessel wall is disclosed. The apparatus includes at least one member which is extended through a tissue tract formed through the epidermis and subcutaneous layer of skin and through the opening in the blood vessel. The member includes a proximal end and a distal end with the distal end being positionable proximate to the opening in the blood vessel wall. A positive electrode is positioned next to the distal end with a negative electrode being positioned next to the proximal end When the electrodes are energized an electric field is created therebetween, blood cells are attracted to the positive electrode, and a thrombus is formed at the opening in the blood vessel wall. The member may include a balloon at the distal end to temporarily occlude blood flow from the blood vessel to the tissue tract to facilitate formation of the thrombus. In addition, the shape of the balloon may be tailored to facilitate the formation of the thrombus including, but not limited to, the creation of pockets and self-supporting balloons | 07-04-2013 |
20130282101 | Percutaneous Valve, System and Method - Apparatus, systems, and methods for percutaneous valve replacement and/or augmentation are provided. The apparatus includes a valve having a valve frame, a valve leaflet coupled to the valve frame, and a leaflet transition member coupled to the valve leaflet. The valve leaflet and leaflet transition member can transition from a first position where the valve leaflet and leaflet frame are at least partially outside a lumen of the valve frame to a second position where the valve leaflet and the leaflet transition member are within the lumen of the valve frame. | 10-24-2013 |
20130345796 | APPARATUS AND METHOD FOR AORTIC PROTECTION AND TAVI PLANAR ALIGNMENT - An assembly for guiding a medical apparatus within a patient includes an elongated shaft and a balloon affixed to the shaft and movable between a collapsed condition and an expanded condition. A mesh material may be affixed to the shaft and movable between a collapsed condition and an expanded condition. The balloon may project away from the shaft when the balloon is in the expanded condition. The mesh material may project away from the shaft when the mesh material is in the expanded condition. | 12-26-2013 |
20140039608 | APPARATUS AND METHOD FOR HEART VALVE REPAIR - A device for gathering tissue of a heart valve leaflet may include an outer tube extending in an elongated direction, a capture tool moveable in the outer tube between a contained position and a use position, and a tissue securing component disposed at a distal end of the outer tube and adapted to be applied to tissue captured by the capture tool and to hold the captured tissue in a gathered configuration. The capture tool may include two grasping members that are moveable relative to one another in the elongated direction. Each grasping member may have a proximal portion and a plurality of fingers or barbs. The grasping members may be operable to capture tissue of the heart valve leaflet therebetween and to draw the captured tissue into the outer tube in the gathered configuration. | 02-06-2014 |
20140214072 | AORTIC GREAT VESSEL PROTECTION - A vessel protector system includes an outer sheath, an inner tube disposed within the outer sheath and moveable in a longitudinal direction relative to the outer sheath and at least one protector coupled to the inner tube, each of the at least one protector having a body formed from a filtering material and extending between a leading end and trailing end coupled to the inner tube, the body having a collapsed configuration and an expanded configuration. A snare is coupled to the leading end of the body at one end, and having a second end passing through the interior of the outer sheath, whereby the exertion of a pulling force on the second end of the snare contracts the at least one protector. | 07-31-2014 |
20140249621 | Transapical Mitral Valve Replacement - A prosthetic heart valve includes a collapsible and expandable stent having an outflow end and an inflow end, a plurality of commissure features attached to the stent, a plurality of anchoring features disposed on legs of the stent, the plurality of anchoring features being coupleable to a delivery device for repositioning, and a valve assembly disposed within the stent. The anchoring features may be configured to attach to heart tissue to help secure the prosthetic heart valve in an operating position. | 09-04-2014 |
20140257341 | PMVR CLIP CONFIGURATIONS FOR MITRAL LEAFLET - A clip for leaflet tissue includes a substantially cylindrical hollow body having a proximal end and a distal end. In an initial configuration of the clip, the distal end has a diameter that is smaller than the diameter of the hollow body. The distal end is held in an expanded condition for delivery into a patient. When deployed, the distal end collapses to its initial configuration to grasp onto captured leaflet tissue. | 09-11-2014 |
20140257347 | APPARATUS AND METHOD FOR HEART VALVE REPAIR - A device for transcatheter gathering of tissue of a heart valve leaflet may include an elongated tube extending in a longitudinal direction and having an open distal end, a tissue securing component disposed at the distal end of the elongated tube, and a capture tool movable in the elongated tube between a retracted position and an extended position. The elongated tube may have an inner surface and a lumen extending therethrough. The tissue securing component may include a clip having a roller and a support element. The roller may be rotatable relative to the support element. The capture tool may be operable to capture tissue of the heart valve leaflet and to draw the captured tissue into the tissue securing component. The tissue securing component may be adapted to be applied to the captured tissue to hold the captured tissue in a gathered configuration. | 09-11-2014 |
20140257362 | FILTERING AND REMOVING PARTICULATES FROM BLOODSTREAM - A system and method to protect blood vessels from blockage by various debris. A vessel protector of the system may include a body formed from a filtering material, the body having a collapsed configuration and a tubular expanded configuration with an open proximal end and an open distal end, a first snare attached to one end of the body, and a first pull-wire connected to the first snare, whereby the exertion of a pulling force on the first pull-wire contracts the first snare and thereby closes the one end of the body. | 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 |
20140277428 | Thermally-Activated Biocompatible Foam Occlusion Device for Self-Expanding Heart Valves - A structure for sealing a gap between a medical device and adjacent body tissue includes a ring-shaped body formed at least in part of a material that expands from a compressed condition to an expanded condition when heated to a transition temperature and that is adapted to conform to the body tissue in the expanded condition. | 09-18-2014 |
20150045815 | APPARATUS FOR HEART VALVE REPAIR | 02-12-2015 |