Patent application number | Description | Published |
20090054724 | IMPLANTABLE DEVICE FOR TREATMENT OF VENTRICULAR DILATION - A device and method for reducing ventricular dilation by placing one or more cardiac bridges into vessels extending along a length of the ventricle. Each cardiac bridge preferably includes a pair of anchors and a bridge member secured therebetween. The tension in the bridge member is increased to compress the ventricle and thereby reduce the dilation. In another embodiment, the bridge member is tensioned to reshape the left ventricle for reducing tension on the chordae tendinae in the heart to improve valve function. | 02-26-2009 |
20090076586 | Device and Method for ReShaping Mitral Valve Annulus - Devices and methods for reshaping a mitral valve annulus are provided. One preferred device is configured for deployment in the right atrium and is shaped to apply a force along the atrial septum. The device causes the atrial septum to deform and push the anterior leaflet of the mitral valve in a posterior direction for reducing mitral valve regurgitation. Another preferred device is deployed in the left ventricular outflow tract at a location adjacent the aortic valve. The device is expandable for urging the anterior leaflet toward the posterior leaflet. Another preferred device comprises a tether configured to be attached to opposing regions of the mitral valve annulus. | 03-19-2009 |
20100185210 | Method of Capturing and Macerating Particles in a Blood Vessel - A method of capturing and macerating particles in a blood vessel is provided. A vascular filter device is implanted in the blood vessel at a treatment site. The vascular filter device comprises a filter body and an agitation member disposed within the filter body. Movement of the agitation member acts on particles trapped within the filter body for enhancing the dissolution of the particles, thereby reducing the likelihood of filter occlusion and improving the flow of blood through the vessel. The vascular filter device is preferably collapsible for percutaneous delivery to a treatment site. The agitation member is preferably rotatably coupled to the filter body. A power source is provided for moving the agitation member. In various examples, the power source may take the form of an energy storage device, a drive catheter, or a magnetic field. | 07-22-2010 |
20110015722 | DEVICE AND METHOD FOR RESHAPING MITRAL VALVE ANNULUS - Devices and methods for reshaping a mitral valve annulus are provided. One preferred device is configured for deployment in the right atrium and is shaped to apply a force along the atrial septum. The device causes the atrial septum to deform and push the anterior leaflet of the mitral valve in a posterior direction for reducing mitral valve regurgitation. Another preferred device is deployed in the left ventricular outflow tract at a location adjacent the aortic valve. The device is expandable for urging the anterior leaflet toward the posterior leaflet. Another preferred device comprises a tether configured to be attached to opposing regions of the mitral valve annulus. | 01-20-2011 |
20120123522 | METHOD OF TREATING A DILATED VENTRICLE - A method of reducing ventricular dilation comprises placing one or more cardiac bridges into vessels extending along a length of the ventricle. Each cardiac bridge preferably includes a pair of anchors and a bridge member secured therebetween. The tension in the bridge member compresses the ventricle and thereby reduces the dilation along the ventricle wall. In another embodiment, the bridge member is tensioned to reshape the left ventricle for reducing tension on the chordae tendinae in the heart for improving valve function. | 05-17-2012 |
20120191182 | PROSTHETIC INSERT FOR TREATING A MITRAL VALVE - A prosthetic insert member for improving the function of a mitral valve is disclosed. The insert member is configured for insertion between leaflets of mitral valve. The insert member has an elongated cross-sectional profile for conforming to the opening in the mitral valve. The device also includes an anchoring member for attachment to heart tissue for maintaining the insert member in the mitral valve. In operation, the insert member fills the opening between the leaflets of the mitral valve and reduces regurgitation while preferably allowing the leaflets to function in a substantially normal manner. In one embodiment, the insert member is formed with a valve member disposed in a passageway for allowing blood to pass through the insert member in one direction. | 07-26-2012 |
20120209376 | DEVICE AND METHOD FOR RESHAPING MITRAL VALVE ANNULUS - Methods for treating a defective mitral valve are provided. One preferred method comprises attaching opposing ends of a tether to opposing regions of the mitral valve annulus. The tether is advanced percutaneously into the left atrium by a therapy catheter. Vacuum ports may be provided on the therapy catheter for grasping tissue along the mitral valve annulus. The therapy catheter may also include advanceable needles for passing the tether through the tissue. Alternatively, the ends of the tether may be attached to fastener elements which are secured to the tissue. Tension in the tether pulls the opposing regions of the mitral valve annulus into closer proximity for improving mitral valve function. | 08-16-2012 |
20120310328 | SYSTEM AND METHOD FOR TREATING VALVE INSUFFICIENCY OR VESSEL DILATATION - A medical device for treating aortic insufficiency (and associated aneurysms or defects of any other vessel associated with a valve) includes a support structure, a stent, a prosthetic valve and a deflector. Generally, the support structure is configured to cooperate with the prosthetic valve to pinch the native valve therebetween and provide an anchor for the stent which extends into the aorta and supports the deflector which is positioned to abate blood flow against the aneurysm. | 12-06-2012 |
20130053881 | METHOD OF TREATING OCCULSION IN A BLOOD VESSEL - A method of dissolving a thrombus in a blood vessel for improving blood flow. A filter device includes an expandable filter body fixed to a distal end portion of an outer catheter. The filter device also includes an agitation member disposed along a distal end portion of an inner catheter, wherein the inner catheter is slidably contained within the outer catheter. During treatment, the expandable filter body is expanded within the blood vessel and the inner catheter is advanced relative to the outer catheter such that the agitation member is positioned distal to the filter body. The agitation member is activated for dissolving the thrombus in the blood vessel. After the thrombus is at least partially dissolved, aspiration is applied for pulling resulting particles into the filter body. The filter device is then retracted into a delivery sheath with the particles captured inside the filter body. | 02-28-2013 |
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 |
20140135910 | DEVICE AND METHOD FOR RESHAPING TRICUSPID VALVE ANNULUS - A device for reshaping the tricuspid valve comprises a stent that is deployed in the right ventricular outflow tract (RVOT) adjacent to the tricuspid valve and expanded to a size sufficient to reduce the annular diameter or size of the tricuspid valve, thereby improving coaptation of the leaflets and reducing regurgitation. Embodiments of the device are deliverable percutaneously. | 05-15-2014 |
20140288480 | DEVICE AND METHOD FOR INCREASING FLOW THROUGH THE LEFT ATRIAL APPENDAGE - Methods and devices for increasing flow in the left atrial appendage (LAA) include a conduit directing blood flow from a pulmonary artery into the LAA and/or a conduit drawing blood from the LAA by a Bernoulli effect. In one embodiment, a method comprises implanting a conduit in a pulmonary vein, expanding an inlet portion such that the conduit becomes anchored within the vein and directs blood through an outlet portion of the conduit into or toward the left atrial appendage. | 09-25-2014 |
20140336702 | EXPANDABLE CLIP FOR TISSUE REPAIR - An apparatus, system, and method for repairing openings such as septal defects includes advancing a catheter to the site of the defect, grasping opposing edges of the defect, passing one or more suture lines through the opposing edges, tightening the suture lines, and deploying and expanding a fastener to secure the suture lines and close the defect. The fastener can include tissue-growth-inducing materials to encourage tissue growth onto or into the fastener and/or suture. The fastener includes a locking clip portion and a plug portion, which may be an expandable portion and/or tissue-growth-inducing portion. | 11-13-2014 |