| Patent application number | Description | Published |
|---|
| 20090319037 | RETAINING MECHANISMS FOR PROSTHETIC VALVES - Disclosed herein are representative embodiments of methods, apparatus, and systems used to deliver a prosthetic heart valve to a deficient valve. In one embodiment, for instance, a support stent is delivered to a position on the surface of the outflow side of a native heart valve of a patient, the support stent defining a support-stent interior. An expandable prosthetic heart valve is delivered into the native heart valve from the inflow side of the native heart valve and into the support-stent interior. The expandable prosthetic heart valve is expanded while the expandable prosthetic valve is in the support-stent interior and while the support stent is at the position on the surface of the outflow side of the heart valve, thereby causing one or more of the native leaflets of the native heart valve to be frictionally secured between the support stent and the expanded prosthetic heart valve. | 12-24-2009 |
| 20100161041 | ADJUSTABLE REPAIR CHORDS AND SPOOL MECHANISM THEREFOR - A method is provided, including implanting, at an intraventricular site of a ventricle of a patient, a spool coupled to a first end portion of a longitudinal member, and coupling a second end portion of the longitudinal member to a portion of tissue facing a lumen of the ventricle. Other embodiments are also described. | 06-24-2010 |
| 20100161042 | IMPLANTATION OF REPAIR CHORDS IN THE HEART - A method is provided, including positioning, at an intraventricular site of a ventricle of a patient, a spool coupled to a first end portion of a longitudinal member and coupling a second end portion of the longitudinal member to a portion of tissue facing a lumen of the ventricle. Other embodiments are also described. | 06-24-2010 |
| 20100161043 | IMPLANTATION OF REPAIR CHORDS IN THE HEART - Apparatus is provided for adjusting at least one dimension of an implant, including a rotatable structure having first and second openings and a channel extending between the first and second openings. The channel allows passage therethrough of an elongate tool. The second end of the structure has a lower surface having one or more recesses along a circumference thereof. A mechanical element provides a protrusion that is disposed within one of the recesses of the rotatable structure during a resting state of the mechanical element, in a manner that restricts rotation of the rotatable structure. The mechanical clement comprises a depressible portion coupled to the protrusion disposed in communication with the second opening of the lower surface, and configured to dislodge the protrusion from within the recess in response to a force applied thereto by the elongate tool. Other applications are also described. | 06-24-2010 |
| 20100280604 | OVER-WIRE ROTATION TOOL - Apparatus is provided that includes an implant structure, which includes a contracting mechanism, which includes a rotatable structure, arranged such that rotation of the rotatable structure contracts the implant structure. A longitudinal member is coupled to the contracting mechanism. A tool for rotating the rotatable structure is configured to be guided along the longitudinal member, to engage the rotatable structure, and to rotate the rotatable structure in response to a rotational force applied to the tool. Other embodiments are also described. | 11-04-2010 |
| 20110184510 | TRICUSPID VALVE REPAIR USING TENSION - A method is provided, including implanting at least a first tissue-engaging element in a first portion of tissue in a vicinity of a heart valve of a patient, implanting at least a second tissue-engaging element in a portion of a blood vessel that is in contact with an atrium of a heart of the patient, and drawing at least a first leaflet of the valve toward at least a second leaflet of the valve by adjusting a distance between the portion of the blood vessel and the first portion of tissue in the vicinity of the heart valve of the patient. Other applications are also described. | 07-28-2011 |
