| Patent application number | Description | Published |
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| 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 |
| 20100211166 | ACTIVELY-ENGAGEABLE MOVEMENT-RESTRICTION MECHANISM FOR USE WITH AN ANNULOPLASTY STRUCTURE - Apparatus is provided, including a locking mechanism, an implant, and a flexible strip within the implant having a plurality of recesses. A perimeter of the strip shortens and expands when the first end of the strip is advanced bidirectionally with respect to a second end of the strip. The locking mechanism includes a moveable recess-engaging portion, a mechanical support removably coupled to the recess-engaging portion, and a force applicator which maintains the recess-engaging portion in a position in which the recess-engaging portion is not disposed in any of the recesses. Upon decoupling of the mechanical support from the recess-engaging portion, the force applicator restricts motion of the plurality of recesses of the strip with respect to the second end of the strip, by facilitating positioning of the recess-engaging portion in one of the plurality of recesses. Other embodiments are also described. | 08-19-2010 |
| 20100280603 | IMPLANTATION OF REPAIR CHORDS IN THE HEART - A method is provided, including advancing a distal end of an inner shall of a delivery tool between leaflets of an atrioventricular valve, of a patient and into a ventricle of the patient. The method further includes, while maintaining the distal end of the inner shaft in place and within the ventricle, proximally withdrawing a surrounding shaft of the delivery tool with respect to the distal end of the inner shaft and toward the leaflets. This surrounding shaft surrounds a portion of the inner shaft. The method additionally includes using the surrounding shaft to engage at least one of the leaflets with at least one leaflet-engaging element. After engaging, the distal end of the inner shaft is proximally withdrawn from within the ventricle. Other applications are also described. | 11-04-2010 |
| 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 |
| 20110106245 | APPARATUS FOR GUIDE-WIRE BASED ADVANCEMENT OF A ROTATION ASSEMBLY - Apparatus is provided for use with at least one tissue-adjustment device, including a tissue-engaging element having a distal portion configured to engage at least a first portion of tissue of a patient, and having a proximal portion. At least one docking station is coupled to the proximal portion of the tissue-engaging element and is configured to be coupled to the at least one tissue-adjustment device. The docking station includes a locking mechanism configured to lock the tissue-adjustment device to the tissue-engaging element. At least one guide member is reversibly coupled to the at least one docking station and is configured for facilitating slidable advancement of the at least one tissue-adjustment device toward the tissue-engaging element. Other applications are also described. | 05-05-2011 |
| 20110106247 | TISSUE ANCHOR FOR ANNULOPLASTY DEVICE - Apparatus is provided for use with an implant, the apparatus including a tissue anchor, which comprises a distal tissue coupling element, which is configured to penetrate cardiac tissue, and a proximal implant-penetrating element configured to penetrate the implant. The proximal implant-penetrating element is shaped so as to define a passage therethrough, which passage has at least two openings that are within 1 mm of a proximal end of the implant-penetrating element. The apparatus also comprises a cord configured to be removably passed through the passage. Other applications of the present invention are also described. | 05-05-2011 |
| 20110166649 | ANNULOPLASTY DEVICES AND METHODS OF DELIVER THEREFOR - Apparatus is provided, including a tube ( | 07-07-2011 |
| Patent application number | Description | Published |
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| 20090045779 | Adjustable cut-off voltage for mobile device battery - A power management system for a mobile electronic device, including a microprocessor for continually monitoring a voltage of a battery within a mobile electronic device, wherein the device can operate in either a standalone mode powered by the battery, or in an externally powered mode, and wherein the battery is charged when the device is in external power mode, and a power manager coupled with said voltage meter, for controlling operation of the device according to the following logic: if the monitored voltage falls below an upper turn-on threshold, UTOT, during operation of the device in standalone mode, but is above a lower turn-on threshold, LTOT, then automatically turning the device off, and enabling the device to be turned on in an emergency mode, wherein at least one emergency action is enabled, and if the monitored voltage falls below LTOT during operation of the device in standalone mode, then automatically turning the device off, and preventing the device from being turned on. A method is also described and claimed. | 02-19-2009 |
