Patent application number | Description | Published |
20080262609 | SEGMENTED RING PLACEMENT - Apparatus is provided for repairing a valve of a patient, the valve including an annulus and at least first and second leaflets. The apparatus includes at least a first discrete segment and a second discrete segment of an annuloplasty structure, each segment being shaped to provide a respective lateral wall, each lateral wall being shaped to define at least one lumen of the respective segment. The apparatus further includes at least a first and a second control wire, each control wire configured for sliding advancement through both the first and second segments. The first control wire is configured to control a relative disposition of a first end of the first segment and a first end of the second segment. The second control wire is configured to control a relative disposition of a second end of the first segment and a second end of the second segment. Other embodiments are also described. | 10-23-2008 |
20090259307 | SEGMENTED RING PLACEMENT - Apparatus is provided for repairing a valve of a heart of a patient which includes an annulus and at least first and second leaflets. The apparatus includes an annuloplasty structure, a plurality of tissue anchors, and a plurality of flexible longitudinal guide members removably coupled to the structure. Each of the guide members is configured to facilitate anchoring of the annuloplasty structure to the annulus of the patient by a respective one of the anchors. The guide members are configured to be advanced toward the annulus simultaneously with the annuloplasty structure. Other embodiments are also described. | 10-15-2009 |
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 |
20110166649 | ANNULOPLASTY DEVICES AND METHODS OF DELIVER THEREFOR - Apparatus is provided, including a tube ( | 07-07-2011 |
20130131792 | ACTIVELY-ENGAGEABLE MOVEMENT-RESTRICTION MECHANISM FOR USE WITH AN ANNULOPLASTY STRUCTURE - A method is provided, including providing an implant shaped to define a lumen and a flexible strip disposed at least in part within the lumen, and a plurality of recesses, the implant including a locking mechanism to which first and second ends of the strip are coupled such that the strip defines a closed loop which shortens when the first end is advanced through the locking mechanism in a first direction, and expands when the first end is advanced in a second opposite direction; advancing the first end in first and second opposing directions with respect to the second end; maintaining a recess-engaging portion in a position in which the recess-engaging portion is not disposed in any of the recesses during the advancing; and restricting the advancing by facilitating active positioning of the recess-engaging portion in one of the recesses. Other embodiments are also described. | 05-23-2013 |
20150081014 | IMPLANT AND ANCHOR PLACEMENT - A method for performing an annuloplasty includes positioning an annuloplasty ring structure along an atrial surface of an annulus of a heart valve. While a distal portion of a tube is longitudinally advanced through a channel of the ring structure, it faces a first portion of tissue of the annulus. A first tissue anchor is anchored to the first portion of tissue, from within the channel, while the distal end of the tube faces the first portion of the tissue. After moving the distal portion of the tube to a second portion of the structure, the second portion of the structure is anchored to a second portion of tissue by anchoring a second tissue anchor to the second portion of the tissue while the distal end of the tube faces the second portion of the tissue. Other embodiments are also described. | 03-19-2015 |
Patent application number | Description | Published |
20100306215 | Ranking Results of Multiple Intent Queries - Techniques and systems are disclosed providing improved ranking of results to an online search-based query. One or more user types are identified for a search-based query, which may correspond to a number of user relevant results and which ones are selected. A user profile can be determined for the respective user types for the search-based query, which may identify a proportion of the users that belong to that type, and how many results are relevant to that type. A set of relevant results can be identified for the respective user types for the query, based on a number of results used by the user type. An improved ranking of the results can be determined for the query, from the one or more sets of relevant results, based on the user profiles and a desired user satisfaction metric for a desired number of users. | 12-02-2010 |
20120096000 | RANKING RESULTS OF MULTIPLE INTENT QUERIES - Techniques and systems are disclosed providing improved ranking of results to an online search-based query. One or more user types are identified for a search-based query, and may correspond to a number of user relevant results, and which user results are selected. A user profile can be determined for the respective user types for the search-based query, which may identify a proportion of the users that belong to that type, and how many results are relevant to that type. A set of relevant results can be identified for the respective user types for the search-based query, based on a number of results used by the user type. An improved ranking of the results can be determined for the search-based query, from the one or more sets of relevant results, based on user profiles and a desired user satisfaction metric for a desired number of users. | 04-19-2012 |
Patent application number | Description | Published |
20140133487 | ROUTER WITH PASSIVE INTERCONNECT AND DISTRIBUTED SWITCHLESS SWITCHING - A multi-chassis router with passive interconnect and distributed switchless interconnect for connecting a plurality of nodes in full mesh is disclosed. This system allows direct and indirect communication between a source node and a destination node. In direct communication, data propagates via links connecting the source and destination nodes. In indirect communication, data is first sent to an intermediate node via links connecting the source and intermediate nodes. The intermediate node sends the data either to the destination node via links connecting the intermediate node and the destination node. A passive device with replaceable plugs connects the plurality of nodes in full mesh. The passive device facilitates setting up and updating a network. | 05-15-2014 |
20140133493 | DISTRIBUTED SWITCHLESS INTERCONNECT - A distributed switchless system characterized by full mesh connectivity is disclosed. The full mesh distributed switchless system allows direct and indirect communication between a source node and a destination node. In direct communication, data propagates via links connecting the source and destination nodes. In indirect communication, data is first sent to an intermediate node via links connecting the source and intermediate nodes. The intermediate node sends the data to the destination node via links connecting the intermediate node and the destination node. The traffic can be divided into all available links across the nodes, rather than only the links connecting the source and destination nodes. Because indirect communication uses more links compared to direct communication, the traffic in each link is smaller. Consequently, the switchless distributed interconnect system can operate with fewer links between any two nodes and links with smaller bandwidth. | 05-15-2014 |
20140133851 | SWITCHING CLOS NETWORK UNIVERSAL ELEMENT - A switching Clos network universal element that can dynamically change its role is disclosed. The universal element contains a matrix of VCSELs and a matrix of photodiodes on top of an electro-optical chip. The matrix of VCSELs sends data via a first set of optical links, and the matrix of photodiodes receives data a second set of optical links. The universal element also receives and sends data through electronic links. The universal element can function as an expander, aggregator or transitive switch in a folded Clos network. As an expander or an aggregator, the universal element uses its optical links as ingress links and its electronic links as egress links. Using this universal element, a network can be constructed without separate switching elements. Multiple universal elements can be positioned on a PCB, and the multiple universal elements can function as one switch. | 05-15-2014 |
20140133852 | PASSIVE CONNECTIVITY OPTICAL MODULE - A passive connectivity optical module (“PassCOM”) is disclosed. A PassCOM is a passive device without a switching functionality. A PassCOM connects links between a plurality of nodes using replaceable plugs. The device can be used for an internal inter-node switching system, where each node is capable of sending data to a destination using a specific link. A source node sends data through a particular link that is connected to a link from a destination node in the PassCOM. Data is first sent from a source node through a link connecting the source node and the PassCOM, then the data is transmitted, through a plug, to the destination node using a link connecting the PassCOM and the destination. | 05-15-2014 |