Patent application number | Description | Published |
20140121538 | NEEDLE WITH AN OPTICAL FIBER INTEGRATED IN AN ELONGATED INSERT - A needle is proposed including a cannula or hollow shaft with a multilumen insert inside. The insert comprises at least two lumen. Both the insert as well as the cannula have bevelled ends. In the insert substantially straight cleaved fibers are present that may be connected at the proximal end to a console. At least one of the distal fiber ends in the insert may protrude more than half the fiber diameter out of the insert. Furthermore, the bevel angle of the insert is different from the bevel angle of the cannula such that combination cannula and insert is such that the fiber ends do not protrude the bevel surface of the cannula. | 05-01-2014 |
20150080711 | PHOTONIC NEEDLE SYSTEM WITH MEASUREMENT INTEGRATION TIMES DEPENDING ON NEEDLE DISPLACEMENT SPEED - The present invention relates to a system ( | 03-19-2015 |
20150080712 | INTEGRATION DELAYED OPTICAL FEEDBACK IN IMAGE GUIDANCE - The present invention relates to a system ( | 03-19-2015 |
20150182206 | Biopsy Needle with Large Fiber Distance at the Tip - A biopsy device is provided having a shaft and a tubular member. The shaft may be movably accommodated within the tubular member and may have a longitudinal axis and a distal end with a bevel. At least two channels are formed within the shaft in a longitudinal direction of the shaft, each channel forming an opening in the bevel surface, wherein an optical fiber is accommodated within each of the channels. Furthermore, a recess for accommodating tissue to be extracted may be formed in the shaft adjacent the distal end of the shaft. The bevel is facing upwardly whereas the recess is facing sidewardly. | 07-02-2015 |
20150265256 | SYSTEM WITH PHOTONIC BIOPSY DEVICE FOR OBTAINING PATHOLOGICAL INFORMATION - A biopsy device is provided comprising a tubular member, a hollow shaft and an elongated fiber body. The hollow shaft may have a distal end and a shaft, wherein a laterally (sidewardly) facing notch is formed in the distal portion of the shaft. The elongated fiber body may include at least one optical fiber, preferably at least two optical fibers, with a distal end. The tubular member is movable relative to the shaft, between a first position in which the notch is covered by the tubular member, and a second position in which the notch is not covered by the tubular member. The fiber body is movable within the shaft, between a first position in which the distal end of the optical fiber is located at the distal end of the shaft with the elongated fiber body extending through the notch, and a second position in which the distal end of the at least one optical fiber is located proximally to the notch. | 09-24-2015 |
20150359525 | Optical guided vacuum assisted biopsy device - An interventional device, e.g. a Vacuum Assisted Biopsy (VAB) needle, incorporating optical fibers such that biological tissue in a volume at a side of the interventional device can be substantially completely optically probed by optical spectroscopy. In a VAB embodiment, a plurality of optical fiber pairs connected to respective optical ports, are placed at opposite positions along the suction cavity, and they are readout subsequently allowing to make a map of the tissue properties along the place where the tissue will be cut by the VAB needle. Based on decision software in an optical console, it can be determined whether the tissue present in the cutting cavity is completely normal tissue or not, prior to actually performing the biopsy on the tissue. In this way a well defined end point for VAB is created. In one embodiment, the optical fibers are arranged in a wall structure of a thin sleeve which fits onto existing VAB needles, thus allowing the VAB needle to be upgraded with an optical probing capability. | 12-17-2015 |
Patent application number | Description | Published |
20120290692 | Static Ring Network for Vehicle Communications - A method for operating a ring network includes the steps of configuring the ring network with static configuration information and then deterministically exchanging operational data between a plurality of nodes on the ring network, while operating the ring network in accordance with the static configuration information. This system facilitates communications that meet the high reliability and performance requirements of vehicle communications, in particular in aircraft data networks (ADNs), while reducing the cost, weight, and complexity of conventional implementations. | 11-15-2012 |
20150201119 | Camera with native AFDX interface - A native AFDX camera captures images and video under control, and in communication with, one or more AFDX networks. The system facilitates deployment of an image capture device on an AFDX network, including native (embedded) AFDX bi-directional ring support, eliminating the need for a separate legacy adapter, the accompanying additional wiring and interconnect complexity. Thus the complexity, weight, and power consumption is reduced, as compared to conventional camera deployments. | 07-16-2015 |
20150271019 | STATIC RING NETWORK FOR VEHICLE COMMUNICATIONS - A method for operating a ring network includes the steps of configuring the ring network with static configuration information and then deterministically exchanging operational data between a plurality of nodes on the ring network, while operating the ring network in accordance with the static configuration information. This system facilitates communications that meet the high reliability and performance requirements of vehicle communications, in particular in aircraft data networks (ADNs), while reducing the cost, weight and complexity of conventional implementations. | 09-24-2015 |
Patent application number | Description | Published |
20100036647 | Efficient computation of Voronoi diagrams of general generators in general spaces and uses thereof - A computerized method of computing the Voronoi diagram has applications including communications networks, robotics, three-dimensional networks, materials science, searching image processing, data clustering, data compression, control of a groups of methods for image processing and the like, design of electronic circuits, geographic information systems, solutions of the efficient location problem, face recognition, mesh generation and re-meshing, curve and surface generation/reconstruction, solid modeling, collision detection, controlling motion of vehicles, navigation, accident prevention, data clustering and data processing, proximity operations, nearest neighbor search, numerical simulations, weather prediction, analyzing and modeling proteins and other biological structures, designing drugs, finding shortest paths, pattern recognition and as an artistic tool. The Voronoi diagram is a decomposed region X made into cells, the decomposition being induced by a set of generators (P | 02-11-2010 |
Patent application number | Description | Published |
20120022557 | MULTIPLE ANCHOR DELIVERY TOOL - An anchor deployment tool includes a flexible outer tube, within which is positioned a flexible inner shaft, and a rotating deployment element coupled to a distal end of the shaft. The tool is configured to provide an anchor storage area, which initially stores a plurality of tissue anchors, such that the inner shaft passes through channels of the anchors along entire longitudinal lengths of the anchors, and the anchors are within the outer tube. The rotating deployment element is configured to directly engage the anchors in the anchor storage area one at a time, advance each of the anchors while engaged in a distal direction, and deploy each of the anchors through the distal tube end and into tissue of a subject. Other embodiments are also described. | 01-26-2012 |
20120022640 | TECHNIQUES FOR PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus and methods are described, including one or more valve support guide members that are delivered to one or more commissures of a native atrioventricular valve of a patient. A prosthetic valve support is advanced toward the native valve along the one or more valve support guide members and placed at the native valve. A prosthetic valve is coupled to the valve support. One or more sealing elements facilitate sealing of an interface between the prosthetic valve support and the native valve. Other applications are also described. | 01-26-2012 |
20120022644 | PARTIALLY-ADJUSTABLE ANNULOPLASTY STRUCTURE - Apparatus and methods are described including an annuloplasty structure configured for implantation along an annulus of an atrioventricular valve of a heart of a subject. The structure includes a coiled element comprising at least one first portion thereof which is flexible and longitudinally compressible, and at least one second portion thereof in series with the first portion, the second portion being flexible and less longitudinally compressible than the first portion. Other applications are also described. | 01-26-2012 |
20120330410 | CLOSURE ELEMENT FOR USE WITH AN ANNULOPLASTY STRUCTURE - Apparatus and methods are described including an implant structure configured to treat a native atrioventricular valve of a patient, the implant structure including a sleeve having a lumen and at least one end, the at least one end being shaped so as to define an opening. A closure element is disposed in a vicinity of the at least one end, the closure element being configured to facilitate closure of the opening. A contracting mechanism is coupled to the implant structure and configured to contract at least a contraction-facilitated portion of the implant structure. Other applications are also described. | 12-27-2012 |
20120330411 | CLOSED BAND FOR PERCUTANEOUS ANNULOPLASTY - An implantable structure includes a flexible sleeve, having first and second sleeve ends, and a contracting assembly, which is configured to longitudinally contract the sleeve, and includes a contracting mechanism, which is disposed longitudinally at a first site of the sleeve, and a longitudinal contracting member, having (a) a first member end, (b) a second member end, which is coupled to the sleeve longitudinally at a second site longitudinally between the first site and the second sleeve end, exclusive, and (c) a first member end portion, which is coupled to the contracting mechanism. The sleeve is arranged in a closed loop, such that first and second portions of the sleeve together define a longitudinally overlapping portion of the sleeve. The implantable structure is configured such that the contracting assembly longitudinally applies a longitudinal contracting force only between the first and the second sites, and not along the overlapping portion. | 12-27-2012 |
20130035759 | TECHNIQUES FOR PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus is described for use with a native heart valve of a subject, the apparatus including (1) a prosthetic valve support, comprising an upstream support portion, the upstream support portion having (a) a compressed configuration and an uncompressed configuration in which the upstream support portion has an inner perimeter that defines an opening; and (2) a prosthetic valve, advanceable into the opening defined by the upstream support portion, and intracorporeally couplable to the upstream support portion by being expanded within the opening defined by the upstream support portion, the apparatus being configured such that, when the prosthetic valve is expanded within the opening defined by the upstream support portion, the expansion of the prosthetic valve is restricted by the inner perimeter of the upstream support portion, without causing the prosthetic valve support to apply a radially-expansive force to the native annulus. Other embodiments are also described. | 02-07-2013 |
20130172992 | TECHNIQUES FOR PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus and methods are described including a prosthetic valve support ( | 07-04-2013 |
20140094903 | IMPLANTATION OF REPAIR CHORDS IN THE HEART - Apparatus is provided, including first and second longitudinal members coupled at respective first portions thereof to tissue surrounding the ventricle. The first portion of at least the first longitudinal member is coupled to a tissue anchor, and respective second portions of the first and second longitudinal members are coupled to respective first and second leaflets of a cardiac valve. The longitudinal members are arranged with respect to the tissue anchor and the portion of tissue surrounding the ventricle in a manner which facilitates adjustment of a degree of tension of the first and second longitudinal members to draw the first and second leaflets together. A longitudinal-member-coupling device is coupled to the first and second longitudinal members, and is advanceable toward a ventricular surface of the first and second leaflets, and responsively to draw together the first and second longitudinal members. Other applications are also described. | 04-03-2014 |
20140257475 | PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus is provided for use with a prosthetic valve for implantation at a native valve of a subject, the native valve including at least one native leaflet, the apparatus including (1) a prosthetic valve support, including (a) an upstream support portion, being configured to be placed against an upstream side of the native valve, and having an inner perimeter that defines an opening that is configured to receive the prosthetic valve, and (b) at least one clip (i) comprising at least two clip arms and a clip-controller interface, the clip-controller interface being coupled to at least one of the clip arms, and (ii) being configured to be coupled to a native leaflet of the native valve; and (2) at least one clip controller, reversibly couplable to the clip-controller interface, and configured to facilitate opening and closing of the clip. Other embodiments are also described. | 09-11-2014 |
20140324164 | TECHNIQUES FOR PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus is provided for use with a native valve of a heart of a subject, the apparatus including (1) an annular upstream support portion, configured to be transluminally placed against an atrial surface of the native valve; (2) a tissue-engaging element that includes a coupling portion configured to be transluminally coupled to tissue in a ventricle of the heart; (3) an elastically-stretchable holding element, configured to secure the upstream support portion against the atrial surface by elastically coupling the coupling portion to the upstream support portion; and (4) a prosthetic valve, configured to be transluminally delivered to the native valve and intracorporeally coupled to the upstream support portion subsequently to the securing of the upstream support portion against the atrial surface. Other embodiments are also described. | 10-30-2014 |
Patent application number | Description | Published |
20130096672 | APPARATUS AND METHOD FOR GUIDE-WIRE BASED ADVANCEMENT OF A ROTATION ASSEMBLY - Apparatus is provided, comprising (1) a guide member, (2) a tissue-adjustment mechanism having (a) an upper surface and a lower surface, (b) at least one first opening at the upper surface, (c) at least one second opening at the lower surface, and (4) a channel extending between the first and second openings, the channel facilitating advancement of the tissue-adjustment mechanism along the guide member; and (3) at least one repair chord coupled at a first portion thereof to the tissue-adjustment mechanism and having at least a first end that is configured to be coupled to a portion of tissue of a patient, the repair chord being configured to adjust a distance between the portion of tissue and the tissue-adjustment mechanism, in response to adjustment of the repair chord by the tissue-adjustment mechanism. Other embodiments are also described. | 04-18-2013 |
20130116780 | IMPLANT HAVING MULTIPLE ROTATIONAL ASSEMBLIES - Apparatus is provided, comprising (1) an annuloplasty structure, shaped to define a perimeter, and configured to be disposed at the annulus of the native valve of the patient; (2) a first adjusting mechanism, coupled to the annuloplasty structure, and configured to adjust the perimeter; (3) at least one longitudinal flexible member, having a first end portion, and a second end portion that is configured to be coupled to tissue of the ventricle of the heart of the patient; and (4) at least a second adjusting mechanism, coupled to the annuloplasty structure such that the second adjusting mechanism is slidable around at least part of the perimeter, coupled to the first end portion of the longitudinal flexible member, and configured to adjust a distance between the second adjusting mechanism and the second end portion of the longitudinal flexible member. Other embodiments are also described. | 05-09-2013 |
20140142695 | CONTRACTIBLE ANNULOPLASTY STRUCTURES - Apparatus is provided including an implantable structure ( | 05-22-2014 |
20140207231 | ANCHORING OF PROSTHETIC VALVE SUPPORTS - Apparatus is provided, including: (1) a delivery tube, transluminally advanceable to the heart of the subject; (2) a prosthetic valve support, configured to support a prosthetic valve at a native valve of the heart, and including an upstream support portion, the upstream support portion: (A) having a working configuration in which it is generally annular and (B) having a delivery configuration in which it defines a channel, and is configured to be disposed within the delivery tube; (3) a tissue anchor, slidable through the channel; and (4) an anchor driver. The anchor driver is slidable within the delivery tube and the channel, and configured to anchor the upstream support portion to tissue of the heart by driving the tissue anchor through the upstream support portion and into the tissue, while at least part of the upstream support portion is disposed within the delivery tube. | 07-24-2014 |
20140243963 | ANNULOPLASTY RING DELIVERY CATHETHERS - Apparatus is provided, including a first catheter having a distal end portion transluminally advanceable to a vicinity of an anatomical site, a second catheter having a distal end portion advanceable through a first lumen and out of the first lumen, and a longitudinal implant, advanceable through the second lumen and out of the second lumen. The first and second catheters are assembled to facilitate sliding of the first and second catheters and of the implant, to configure them to assume a multi-bend formation having first and second bends separating first, second, and third domains. The first domain includes parts of the first and second catheters. The second domain includes the distal end portion of the second catheter, part of the implant, and none of the first catheter. The third domain includes part of the implant and none of the first nor second catheters. Other embodiments are also described. | 08-28-2014 |
20140309661 | CONTROLLED STEERING FUNCTIONALITY FOR IMPLANT-DELIVERY TOOL - Apparatus for percutaneous access to a patient's body comprising a first steerable tube ( | 10-16-2014 |
20150216661 | TECHNIQUES FOR PERCUTANEOUS MITRAL VALVE REPLACEMENT AND SEALING - Apparatus and methods are described including a prosthetic valve support ( | 08-06-2015 |
20150272586 | PERCUTANEOUS TISSUE ANCHOR TECHNIQUES - A first element ( | 10-01-2015 |
20150272734 | CONTROLLED STEERING FUNCTIONALITY FOR IMPLANT-DELIVERY TOOL - A catheter ( | 10-01-2015 |